cloud-hypervisor/vm-migration/src/protocol.rs

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// Copyright © 2020 Intel Corporation
//
// SPDX-License-Identifier: Apache-2.0
//
use crate::{MigratableError, VersionMapped};
use serde::{Deserialize, Serialize};
use std::io::{Read, Write};
use versionize::{VersionMap, Versionize, VersionizeResult};
use versionize_derive::Versionize;
use vm_memory::ByteValued;
// Migration protocol
// 1: Source establishes communication with destination (file socket or TCP connection.)
// (The establishment is out of scope.)
// 2: Source -> Dest : send "start command"
// 3: Dest -> Source : sends "ok response" when read to accept state data
// 4: Source -> Dest : sends "config command" followed by config data, length
// in command is length of config data
// 5: Dest -> Source : sends "ok response" when ready to accept memory data
// 6: Source -> Dest : send "memory command" followed by table of u64 pairs (GPA, size)
// followed by the memory described in those pairs.
// !! length is size of table i.e. 16 * number of ranges !!
// 7: Dest -> Source : sends "ok response" when ready to accept more memory data
// 8..(n-4): Repeat steps 6 and 7 until source has no more memory to send
// (n-3): Source -> Dest : sends "state command" followed by state data, length
// in command is length of config data
// (n-2): Dest -> Source : sends "ok response"
// (n-1): Source -> Dest : send "complete command"
// n: Dest -> Source: sends "ok response"
//
// "Local version": (Handing FDs across socket for memory)
// 1: Source establishes communication with destination (file socket or TCP connection.)
// (The establishment is out of scope.)
// 2: Source -> Dest : send "start command"
// 3: Dest -> Source : sends "ok response" when read to accept state data
// 4: Source -> Dest : sends "config command" followed by config data, length
// in command is length of config data
// 5: Dest -> Source : sends "ok response" when ready to accept memory data
// 6: Source -> Dest : send "memory fd command" followed by u16 slot ID and FD for memory
// 7: Dest -> Source : sends "ok response" when received
// 8..(n-4): Repeat steps 6 and 7 until source has no more memory to send
// (n-3): Source -> Dest : sends "state command" followed by state data, length
// in command is length of config data
// (n-2): Dest -> Source : sends "ok response"
// (n-1): Source -> Dest : send "complete command"
// n: Dest -> Source: sends "ok response"
//
// The destination can at any time send an "error response" to cancel
// The source can at any time send an "abandon request" to cancel
#[repr(u16)]
#[derive(Copy, Clone)]
pub enum Command {
Invalid,
Start,
Config,
State,
Memory,
Complete,
Abandon,
MemoryFd,
}
impl Default for Command {
fn default() -> Self {
Self::Invalid
}
}
#[repr(C)]
#[derive(Default, Copy, Clone)]
pub struct Request {
command: Command,
padding: [u8; 6],
length: u64, // Length of payload for command excluding the Request struct
}
// SAFETY: Request contains a series of integers with no implicit padding
unsafe impl ByteValued for Request {}
impl Request {
pub fn new(command: Command, length: u64) -> Self {
Self {
command,
length,
..Default::default()
}
}
pub fn start() -> Self {
Self::new(Command::Start, 0)
}
pub fn state(length: u64) -> Self {
Self::new(Command::State, length)
}
pub fn config(length: u64) -> Self {
Self::new(Command::Config, length)
}
pub fn memory(length: u64) -> Self {
Self::new(Command::Memory, length)
}
pub fn memory_fd(length: u64) -> Self {
Self::new(Command::MemoryFd, length)
}
pub fn complete() -> Self {
Self::new(Command::Complete, 0)
}
pub fn abandon() -> Self {
Self::new(Command::Abandon, 0)
}
pub fn command(&self) -> Command {
self.command
}
pub fn length(&self) -> u64 {
self.length
}
pub fn read_from(fd: &mut dyn Read) -> Result<Request, MigratableError> {
let mut request = Request::default();
fd.read_exact(Self::as_mut_slice(&mut request))
.map_err(MigratableError::MigrateSocket)?;
Ok(request)
}
pub fn write_to(&self, fd: &mut dyn Write) -> Result<(), MigratableError> {
fd.write_all(Self::as_slice(self))
.map_err(MigratableError::MigrateSocket)
}
}
#[repr(u16)]
#[derive(Copy, Clone, PartialEq, Eq)]
pub enum Status {
Invalid,
Ok,
Error,
}
impl Default for Status {
fn default() -> Self {
Self::Invalid
}
}
#[repr(C)]
#[derive(Default, Copy, Clone)]
pub struct Response {
status: Status,
padding: [u8; 6],
length: u64, // Length of payload for command excluding the Response struct
}
// SAFETY: Response contains a series of integers with no implicit padding
unsafe impl ByteValued for Response {}
impl Response {
pub fn new(status: Status, length: u64) -> Self {
Self {
status,
length,
..Default::default()
}
}
pub fn ok() -> Self {
Self::new(Status::Ok, 0)
}
pub fn error() -> Self {
Self::new(Status::Error, 0)
}
pub fn status(&self) -> Status {
self.status
}
pub fn read_from(fd: &mut dyn Read) -> Result<Response, MigratableError> {
let mut response = Response::default();
fd.read_exact(Self::as_mut_slice(&mut response))
.map_err(MigratableError::MigrateSocket)?;
Ok(response)
}
pub fn write_to(&self, fd: &mut dyn Write) -> Result<(), MigratableError> {
fd.write_all(Self::as_slice(self))
.map_err(MigratableError::MigrateSocket)
}
}
#[repr(C)]
#[derive(Clone, Default, Serialize, Deserialize, Versionize)]
pub struct MemoryRange {
pub gpa: u64,
pub length: u64,
}
#[derive(Clone, Default, Serialize, Deserialize, Versionize)]
pub struct MemoryRangeTable {
data: Vec<MemoryRange>,
}
impl VersionMapped for MemoryRangeTable {}
impl MemoryRangeTable {
pub fn from_bitmap(bitmap: Vec<u64>, start_addr: u64, page_size: u64) -> Self {
let mut table = MemoryRangeTable::default();
let mut entry: Option<MemoryRange> = None;
for (i, block) in bitmap.iter().enumerate() {
for j in 0..64 {
let is_page_dirty = ((block >> j) & 1u64) != 0u64;
let page_offset = ((i * 64) + j) as u64 * page_size;
if is_page_dirty {
if let Some(entry) = &mut entry {
entry.length += page_size;
} else {
entry = Some(MemoryRange {
gpa: start_addr + page_offset,
length: page_size,
});
}
} else if let Some(entry) = entry.take() {
table.push(entry);
}
}
}
if let Some(entry) = entry.take() {
table.push(entry);
}
table
}
pub fn regions(&self) -> &[MemoryRange] {
&self.data
}
pub fn push(&mut self, range: MemoryRange) {
self.data.push(range)
}
pub fn read_from(fd: &mut dyn Read, length: u64) -> Result<MemoryRangeTable, MigratableError> {
assert!(length as usize % std::mem::size_of::<MemoryRange>() == 0);
let mut data: Vec<MemoryRange> = Vec::new();
data.resize_with(
length as usize / (std::mem::size_of::<MemoryRange>()),
Default::default,
);
// SAFETY: the slice is construted with the correct arguments
fd.read_exact(unsafe {
std::slice::from_raw_parts_mut(
data.as_ptr() as *mut MemoryRange as *mut u8,
length as usize,
)
})
.map_err(MigratableError::MigrateSocket)?;
Ok(Self { data })
}
pub fn length(&self) -> u64 {
(std::mem::size_of::<MemoryRange>() * self.data.len()) as u64
}
pub fn write_to(&self, fd: &mut dyn Write) -> Result<(), MigratableError> {
// SAFETY: the slice is construted with the correct arguments
fd.write_all(unsafe {
std::slice::from_raw_parts(self.data.as_ptr() as *const u8, self.length() as usize)
})
.map_err(MigratableError::MigrateSocket)
}
pub fn is_empty(&self) -> bool {
self.data.is_empty()
}
pub fn extend(&mut self, table: Self) {
self.data.extend(table.data)
}
pub fn new_from_tables(tables: Vec<Self>) -> Self {
let mut data = Vec::new();
for table in tables {
data.extend(table.data);
}
Self { data }
}
}