// Copyright © 2019 Intel Corporation // // SPDX-License-Identifier: Apache-2.0 // //! The internal VMM API for Cloud Hypervisor. //! //! This API is a synchronous, [mpsc](https://doc.rust-lang.org/std/sync/mpsc/) //! based IPC for sending commands to the VMM thread, from other //! Cloud Hypervisor threads. The IPC follows a command-response protocol, i.e. //! each command will receive a response back. //! //! The main Cloud Hypervisor thread creates an API event file descriptor //! to notify the VMM thread about pending API commands, together with an //! API mpsc channel. The former is the IPC control plane, the latter is the //! IPC data plane. //! In order to use the IPC, a Cloud Hypervisor thread needs to have a clone //! of both the API event file descriptor and the channel Sender. Then it must //! go through the following steps: //! //! 1. The thread creates an mpsc channel for receiving the command response. //! 2. The thread sends an ApiRequest to the Sender endpoint. The ApiRequest //! contains the response channel Sender, for the VMM API server to be able //! to send the response back. //! 3. The thread writes to the API event file descriptor to notify the VMM //! API server about a pending command. //! 4. The thread reads the response back from the VMM API server, from the //! response channel Receiver. //! 5. The thread handles the response and forwards potential errors. extern crate micro_http; extern crate vmm_sys_util; pub use self::http::start_http_thread; pub mod http; pub mod http_endpoint; use crate::config::VmConfig; use crate::vm::Error as VmError; use crate::{Error, Result}; use std::sync::mpsc::{channel, Sender}; use std::sync::Arc; use vmm_sys_util::eventfd::EventFd; /// API errors are sent back from the VMM API server through the ApiResponse. #[derive(Debug)] pub enum ApiError { /// The VM could not be created. VmCreate(VmError), /// The VM could not boot. VmBoot(VmError), /// The VM is already created. VmAlreadyCreated, /// The VM config is missing. VmMissingConfig, /// The VM is not booted. VmNotBooted, /// The VM is not created. VmNotCreated, /// The VM could not shutdown. VmShutdown(VmError), /// The VM could not reboot. VmReboot, } pub enum ApiResponsePayload { /// No data is sent on the channel. Empty, } /// This is the response sent by the VMM API server through the mpsc channel. pub type ApiResponse = std::result::Result; #[allow(clippy::large_enum_variant)] pub enum ApiRequest { /// Create the virtual machine. This request payload is a VM configuration /// (VmConfig). /// If the VMM API server could not create the VM, it will send a VmCreate /// error back. VmCreate(Arc, Sender), /// Boot the previously created virtual machine. /// If the VM was not previously created, the VMM API server will send a /// VmBoot error back. VmBoot(Sender), /// Shut the previously booted virtual machine down. /// If the VM was not previously booted or created, the VMM API server /// will send a VmShutdown error back. VmShutdown(Sender), /// Reboot the previously booted virtual machine. /// If the VM was not previously booted or created, the VMM API server /// will send a VmReboot error back. VmReboot(Sender), } pub fn vm_create( api_evt: EventFd, api_sender: Sender, config: Arc, ) -> Result<()> { let (response_sender, response_receiver) = channel(); // Send the VM creation request. api_sender .send(ApiRequest::VmCreate(config, response_sender)) .map_err(Error::ApiRequestSend)?; api_evt.write(1).map_err(Error::EventFdWrite)?; response_receiver .recv() .map_err(Error::ApiResponseRecv)? .map_err(Error::ApiVmCreate)?; Ok(()) } /// Represents a VM related action. /// This is mostly used to factorize code between VM routines /// that only differ by the IPC command they send. pub enum VmAction { /// Boot a VM Boot, /// Shut a VM down Shutdown, /// Reboot a VM Reboot, } fn vm_action(api_evt: EventFd, api_sender: Sender, action: VmAction) -> Result<()> { let (response_sender, response_receiver) = channel(); let request = match action { VmAction::Boot => ApiRequest::VmBoot(response_sender), VmAction::Shutdown => ApiRequest::VmShutdown(response_sender), VmAction::Reboot => ApiRequest::VmReboot(response_sender), }; // Send the VM request. api_sender.send(request).map_err(Error::ApiRequestSend)?; api_evt.write(1).map_err(Error::EventFdWrite)?; match action { VmAction::Boot => { response_receiver .recv() .map_err(Error::ApiResponseRecv)? .map_err(Error::ApiVmBoot)?; } VmAction::Shutdown => { response_receiver .recv() .map_err(Error::ApiResponseRecv)? .map_err(Error::ApiVmShutdown)?; } VmAction::Reboot => { response_receiver .recv() .map_err(Error::ApiResponseRecv)? .map_err(Error::ApiVmReboot)?; } } Ok(()) } pub fn vm_boot(api_evt: EventFd, api_sender: Sender) -> Result<()> { vm_action(api_evt, api_sender, VmAction::Boot) } pub fn vm_shutdown(api_evt: EventFd, api_sender: Sender) -> Result<()> { vm_action(api_evt, api_sender, VmAction::Shutdown) } pub fn vm_reboot(api_evt: EventFd, api_sender: Sender) -> Result<()> { vm_action(api_evt, api_sender, VmAction::Reboot) }