// Copyright © 2019 Intel Corporation // // SPDX-License-Identifier: Apache-2.0 AND BSD-3-Clause // #[macro_use] extern crate serde_derive; use anyhow::anyhow; use serde::{Deserialize, Serialize}; use thiserror::Error; use versionize::{VersionMap, Versionize}; pub mod protocol; /// Global VMM version for versioning const MAJOR_VERSION: u16 = 15; const MINOR_VERSION: u16 = 0; const VMM_VERSION: u16 = MAJOR_VERSION << 12 | MINOR_VERSION & 0b1111; pub trait VersionMapped { fn version_map() -> VersionMap { VersionMap::new() } } #[derive(Error, Debug)] pub enum MigratableError { #[error("Failed to pause migratable component: {0}")] Pause(#[source] anyhow::Error), #[error("Failed to resume migratable component: {0}")] Resume(#[source] anyhow::Error), #[error("Failed to snapshot migratable component: {0}")] Snapshot(#[source] anyhow::Error), #[error("Failed to restore migratable component: {0}")] Restore(#[source] anyhow::Error), #[error("Failed to send migratable component snapshot: {0}")] MigrateSend(#[source] anyhow::Error), #[error("Failed to receive migratable component snapshot: {0}")] MigrateReceive(#[source] anyhow::Error), #[error("Socket error: {0}")] MigrateSocket(#[source] std::io::Error), } /// A Pausable component can be paused and resumed. pub trait Pausable { /// Pause the component. fn pause(&mut self) -> std::result::Result<(), MigratableError> { Ok(()) } /// Resume the component. fn resume(&mut self) -> std::result::Result<(), MigratableError> { Ok(()) } } /// A Snapshottable component snapshot section. /// Migratable component can split their migration snapshot into /// separate sections. /// Splitting a component migration data into different sections /// allows for easier and forward compatible extensions. #[derive(Clone, Default, Deserialize, Serialize)] pub struct SnapshotDataSection { /// The section id. pub id: String, /// The section serialized snapshot. pub snapshot: Vec, } impl SnapshotDataSection { /// Generate the state data from the snapshot data pub fn to_state<'a, T>(&'a self) -> Result where T: Deserialize<'a>, { serde_json::from_slice(&self.snapshot).map_err(|e| { MigratableError::Restore(anyhow!("Error deserialising: {} {}", self.id, e)) }) } /// Generate versioned state pub fn to_versioned_state(&self) -> Result where T: Versionize + VersionMapped, { T::deserialize( &mut self.snapshot.as_slice(), &T::version_map(), VMM_VERSION, ) .map_err(|e| MigratableError::Restore(anyhow!("Error deserialising: {} {}", self.id, e))) } /// Create from state that can be serialized pub fn new_from_state(id: &str, state: &T) -> Result where T: Serialize, { let snapshot = serde_json::to_vec(state) .map_err(|e| MigratableError::Snapshot(anyhow!("Error serialising: {} {}", id, e)))?; let snapshot_data = SnapshotDataSection { id: format!("{}-section", id), snapshot, }; Ok(snapshot_data) } /// Create from versioned state pub fn new_from_versioned_state(id: &str, state: &T) -> Result where T: Versionize + VersionMapped, { let mut snapshot = Vec::new(); state .serialize(&mut snapshot, &T::version_map(), VMM_VERSION) .map_err(|e| MigratableError::Snapshot(anyhow!("Error serialising: {} {}", id, e)))?; let snapshot_data = SnapshotDataSection { id: format!("{}-section", id), snapshot, }; Ok(snapshot_data) } } /// A Snapshottable component's snapshot is a tree of snapshots, where leafs /// contain the snapshot data. Nodes of this tree track all their children /// through the snapshots field, which is basically their sub-components. /// Leaves will typically have an empty snapshots map, while nodes usually /// carry an empty snapshot_data. /// /// For example, a device manager snapshot is the composition of all its /// devices snapshots. The device manager Snapshot would have no snapshot_data /// but one Snapshot child per tracked device. Then each device's Snapshot /// would carry an empty snapshots map but a map of SnapshotDataSection, i.e. /// the actual device snapshot data. #[derive(Clone, Default, Deserialize, Serialize)] pub struct Snapshot { /// The Snapshottable component id. pub id: String, /// The Snapshottable component snapshots. pub snapshots: std::collections::BTreeMap>, /// The Snapshottable component's snapshot data. /// A map of snapshot sections, indexed by the section ids. pub snapshot_data: std::collections::HashMap, } impl Snapshot { /// Create an empty Snapshot. pub fn new(id: &str) -> Self { Snapshot { id: id.to_string(), ..Default::default() } } /// Create from state that can be serialized pub fn new_from_state(id: &str, state: &T) -> Result where T: Serialize, { let mut snapshot_data = Snapshot::new(id); snapshot_data.add_data_section(SnapshotDataSection::new_from_state(id, state)?); Ok(snapshot_data) } /// Create from versioned state pub fn new_from_versioned_state(id: &str, state: &T) -> Result where T: Versionize + VersionMapped, { let mut snapshot_data = Snapshot::new(id); snapshot_data.add_data_section(SnapshotDataSection::new_from_versioned_state(id, state)?); Ok(snapshot_data) } /// Add a sub-component's Snapshot to the Snapshot. pub fn add_snapshot(&mut self, snapshot: Snapshot) { self.snapshots .insert(snapshot.id.clone(), Box::new(snapshot)); } /// Add a SnapshotDatasection to the component snapshot data. pub fn add_data_section(&mut self, section: SnapshotDataSection) { self.snapshot_data.insert(section.id.clone(), section); } /// Generate the state data from the snapshot pub fn to_state<'a, T>(&'a self, id: &str) -> Result where T: Deserialize<'a>, { self.snapshot_data .get(&format!("{}-section", id)) .ok_or_else(|| MigratableError::Restore(anyhow!("Missing section for {}", id)))? .to_state() } /// Generate versioned state pub fn to_versioned_state(&self, id: &str) -> Result where T: Versionize + VersionMapped, { self.snapshot_data .get(&format!("{}-section", id)) .ok_or_else(|| MigratableError::Restore(anyhow!("Missing section for {}", id)))? .to_versioned_state() } } /// A snapshottable component can be snapshotted. pub trait Snapshottable: Pausable { /// The snapshottable component id. fn id(&self) -> String { String::new() } /// Take a component snapshot. fn snapshot(&mut self) -> std::result::Result { Ok(Snapshot::new("")) } /// Restore a component from its snapshot. fn restore(&mut self, _snapshot: Snapshot) -> std::result::Result<(), MigratableError> { Ok(()) } } /// A transportable component can be sent or receive to a specific URL. /// /// This trait is meant to be used for component that have custom /// transport handlers. pub trait Transportable: Pausable + Snapshottable { /// Send a component snapshot. /// /// # Arguments /// /// * `snapshot` - The migratable component snapshot to send. /// * `destination_url` - The destination URL to send the snapshot to. This /// could be an HTTP endpoint, a TCP address or a local file. fn send( &self, _snapshot: &Snapshot, _destination_url: &str, ) -> std::result::Result<(), MigratableError> { Ok(()) } /// Receive a component snapshot. /// /// # Arguments /// /// * `source_url` - The source URL to fetch the snapshot from. This could be an HTTP /// endpoint, a TCP address or a local file. fn recv(&self, _source_url: &str) -> std::result::Result { Ok(Snapshot::new("")) } } /// Trait to be implemented by any component (device, CPU, RAM, etc) that /// can be migrated. /// All migratable components are paused before being snapshotted, and then /// eventually resumed. Thus any Migratable component must be both Pausable /// and Snapshottable. /// Moreover a migratable component can be transported to a remote or local /// destination and thus must be Transportable. pub trait Migratable: Send + Pausable + Snapshottable + Transportable {}