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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::mem;
use std::result;
use std::slice;
use data_model::DataInit;
use sys_util::{GuestAddress, GuestMemory};
#[derive(Debug)]
pub enum Error {
/// There was too little guest memory to store the entire SMBIOS table.
NotEnoughMemory,
/// The SMBIOS table has too little address space to be stored.
AddressOverflow,
/// Failure while zeroing out the memory for the SMBIOS table.
Clear,
/// Failure to write SMBIOS entrypoint structure
WriteSmbiosEp,
/// Failure to write additional data to memory
WriteData,
}
impl std::error::Error for Error {}
impl Display for Error {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
use self::Error::*;
let description = match self {
NotEnoughMemory => "There was too little guest memory to store the SMBIOS table",
AddressOverflow => "The SMBIOS table has too little address space to be stored",
Clear => "Failure while zeroing out the memory for the SMBIOS table",
WriteSmbiosEp => "Failure to write SMBIOS entrypoint structure",
WriteData => "Failure to write additional data to memory",
};
write!(f, "SMBIOS error: {}", description)
}
}
pub type Result<T> = result::Result<T, Error>;
const SMBIOS_START: u64 = 0xf0000; // First possible location per the spec.
// Constants sourced from SMBIOS Spec 3.2.0.
const SM3_MAGIC_IDENT: &[u8; 5usize] = b"_SM3_";
const BIOS_INFORMATION: u8 = 0;
const SYSTEM_INFORMATION: u8 = 1;
const PCI_SUPPORTED: u64 = 1 << 7;
const IS_VIRTUAL_MACHINE: u8 = 1 << 4;
fn compute_checksum<T: Copy>(v: &T) -> u8 {
// Safe because we are only reading the bytes within the size of the `T` reference `v`.
let v_slice = unsafe { slice::from_raw_parts(v as *const T as *const u8, mem::size_of::<T>()) };
let mut checksum: u8 = 0;
for i in v_slice.iter() {
checksum = checksum.wrapping_add(*i);
}
(!checksum).wrapping_add(1)
}
#[repr(packed)]
#[derive(Default, Copy)]
pub struct Smbios30Entrypoint {
pub signature: [u8; 5usize],
pub checksum: u8,
pub length: u8,
pub majorver: u8,
pub minorver: u8,
pub docrev: u8,
pub revision: u8,
pub reserved: u8,
pub max_size: u32,
pub physptr: u64,
}
unsafe impl data_model::DataInit for Smbios30Entrypoint {}
impl Clone for Smbios30Entrypoint {
fn clone(&self) -> Self {
*self
}
}
#[repr(packed)]
#[derive(Default, Copy)]
pub struct SmbiosBiosInfo {
pub typ: u8,
pub length: u8,
pub handle: u16,
pub vendor: u8,
pub version: u8,
pub start_addr: u16,
pub release_date: u8,
pub rom_size: u8,
pub characteristics: u64,
pub characteristics_ext1: u8,
pub characteristics_ext2: u8,
}
impl Clone for SmbiosBiosInfo {
fn clone(&self) -> Self {
*self
}
}
unsafe impl data_model::DataInit for SmbiosBiosInfo {}
#[repr(packed)]
#[derive(Default, Copy)]
pub struct SmbiosSysInfo {
pub typ: u8,
pub length: u8,
pub handle: u16,
pub manufacturer: u8,
pub product_name: u8,
pub version: u8,
pub serial_number: u8,
pub uuid: [u8; 16usize],
pub wake_up_type: u8,
pub sku: u8,
pub family: u8,
}
impl Clone for SmbiosSysInfo {
fn clone(&self) -> Self {
*self
}
}
unsafe impl data_model::DataInit for SmbiosSysInfo {}
fn write_and_incr<T: DataInit>(
mem: &GuestMemory,
val: T,
mut curptr: GuestAddress,
) -> Result<GuestAddress> {
mem.write_obj_at_addr(val, curptr)
.map_err(|_| Error::WriteData)?;
curptr = curptr
.checked_add(mem::size_of::<T>() as u64)
.ok_or(Error::NotEnoughMemory)?;
Ok(curptr)
}
fn write_string(mem: &GuestMemory, val: &str, mut curptr: GuestAddress) -> Result<GuestAddress> {
for c in val.as_bytes().iter() {
curptr = write_and_incr(mem, *c, curptr)?;
}
curptr = write_and_incr(mem, 0 as u8, curptr)?;
Ok(curptr)
}
pub fn setup_smbios(mem: &GuestMemory) -> Result<()> {
let physptr = GuestAddress(SMBIOS_START)
.checked_add(mem::size_of::<Smbios30Entrypoint>() as u64)
.ok_or(Error::NotEnoughMemory)?;
let mut curptr = physptr;
let mut handle = 0;
{
handle += 1;
let mut smbios_biosinfo = SmbiosBiosInfo::default();
smbios_biosinfo.typ = BIOS_INFORMATION;
smbios_biosinfo.length = mem::size_of::<SmbiosBiosInfo>() as u8;
smbios_biosinfo.handle = handle;
smbios_biosinfo.vendor = 1; // First string written in this section
smbios_biosinfo.version = 2; // Second string written in this section
smbios_biosinfo.characteristics = PCI_SUPPORTED;
smbios_biosinfo.characteristics_ext2 = IS_VIRTUAL_MACHINE;
curptr = write_and_incr(mem, smbios_biosinfo, curptr)?;
curptr = write_string(mem, "crosvm", curptr)?;
curptr = write_string(mem, "0", curptr)?;
curptr = write_and_incr(mem, 0 as u8, curptr)?;
}
{
handle += 1;
let mut smbios_sysinfo = SmbiosSysInfo::default();
smbios_sysinfo.typ = SYSTEM_INFORMATION;
smbios_sysinfo.length = mem::size_of::<SmbiosSysInfo>() as u8;
smbios_sysinfo.handle = handle;
smbios_sysinfo.manufacturer = 1; // First string written in this section
smbios_sysinfo.product_name = 2; // Second string written in this section
curptr = write_and_incr(mem, smbios_sysinfo, curptr)?;
curptr = write_string(mem, "ChromiumOS", curptr)?;
curptr = write_string(mem, "crosvm", curptr)?;
curptr = write_and_incr(mem, 0 as u8, curptr)?;
}
{
let mut smbios_ep = Smbios30Entrypoint::default();
smbios_ep.signature = *SM3_MAGIC_IDENT;
smbios_ep.length = mem::size_of::<Smbios30Entrypoint>() as u8;
// SMBIOS rev 3.2.0
smbios_ep.majorver = 0x03;
smbios_ep.minorver = 0x02;
smbios_ep.docrev = 0x00;
smbios_ep.revision = 0x01; // SMBIOS 3.0
smbios_ep.max_size = curptr.offset_from(physptr) as u32;
smbios_ep.physptr = physptr.offset();
smbios_ep.checksum = compute_checksum(&smbios_ep);
mem.write_obj_at_addr(smbios_ep, GuestAddress(SMBIOS_START))
.map_err(|_| Error::WriteSmbiosEp)?;
}
Ok(())
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn struct_size() {
assert_eq!(
mem::size_of::<Smbios30Entrypoint>(),
0x18usize,
concat!("Size of: ", stringify!(Smbios30Entrypoint))
);
assert_eq!(
mem::size_of::<SmbiosBiosInfo>(),
0x14usize,
concat!("Size of: ", stringify!(SmbiosBiosInfo))
);
assert_eq!(
mem::size_of::<SmbiosSysInfo>(),
0x1busize,
concat!("Size of: ", stringify!(SmbiosSysInfo))
);
}
#[test]
fn entrypoint_checksum() {
let mem = GuestMemory::new(&[(GuestAddress(SMBIOS_START), 4096)]).unwrap();
setup_smbios(&mem).unwrap();
let smbios_ep: Smbios30Entrypoint =
mem.read_obj_from_addr(GuestAddress(SMBIOS_START)).unwrap();
assert_eq!(compute_checksum(&smbios_ep), 0);
}
}
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