// Copyright 2015, 2016 Ethcore (UK) Ltd. // This file is part of Parity. // Parity is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // Parity is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // You should have received a copy of the GNU General Public License // along with Parity. If not, see . //! Parity interprocess hypervisor module #![cfg_attr(feature="dev", allow(used_underscore_binding))] extern crate ethcore_ipc as ipc; extern crate ethcore_ipc_nano as nanoipc; extern crate semver; #[macro_use] extern crate log; pub mod service; /// Default value for hypervisor ipc listener pub const HYPERVISOR_IPC_URL: &'static str = "parity-internal-hyper-status.ipc"; use std::sync::{Arc,RwLock}; use service::{HypervisorService, IpcModuleId}; use std::process::{Command,Child}; use std::collections::HashMap; pub use service::{HypervisorServiceClient, CLIENT_MODULE_ID, SYNC_MODULE_ID}; pub type BinaryId = &'static str; pub struct Hypervisor { ipc_addr: String, service: Arc, ipc_worker: RwLock>, processes: RwLock>, modules: HashMap, pub io_path: String, } /// Boot arguments for binary pub struct BootArgs { cli: Option>, stdin: Option>, } impl BootArgs { /// New empty boot arguments pub fn new() -> BootArgs { BootArgs { cli: None, stdin: None, } } /// Set command-line arguments for boot pub fn cli(mut self, cli: Vec) -> BootArgs { self.cli = Some(cli); self } /// Set std-in stream for boot pub fn stdin(mut self, stdin: Vec) -> BootArgs { self.stdin = Some(stdin); self } } impl Hypervisor { /// initializes the Hypervisor service with the open ipc socket for incoming clients pub fn new() -> Hypervisor { Hypervisor::with_url(HYPERVISOR_IPC_URL) } pub fn module(mut self, module_id: IpcModuleId, args: BootArgs) -> Hypervisor { self.modules.insert(module_id, args); self.service.add_module(module_id); self } pub fn local_module(self, module_id: IpcModuleId) -> Hypervisor { self.service.add_module(module_id); self } pub fn io_path(mut self, directory: &str) -> Hypervisor { self.io_path = directory.to_owned(); self } /// Starts with the specified address for the ipc listener and /// the specified list of modules in form of created service pub fn with_url(addr: &str) -> Hypervisor { let service = HypervisorService::new(); let worker = nanoipc::Worker::new(&service); Hypervisor{ ipc_addr: addr.to_owned(), service: service, ipc_worker: RwLock::new(worker), processes: RwLock::new(HashMap::new()), modules: HashMap::new(), io_path: "/tmp".to_owned(), } } /// Since one binary can host multiple modules /// we match binaries fn match_module(&self, module_id: &IpcModuleId) -> Option<&BootArgs> { self.modules.get(module_id) } /// Creates IPC listener and starts all binaries pub fn start(&self) { let mut worker = self.ipc_worker.write().unwrap(); worker.add_reqrep(&self.ipc_addr).unwrap_or_else(|e| panic!("Hypervisor ipc worker can not start - critical! ({:?})", e)); for module_id in self.service.module_ids() { self.start_module(module_id); } } /// Start binary for the specified module /// Does nothing when it is already started on module is inside the /// main binary fn start_module(&self, module_id: IpcModuleId) { use std::io::Write; self.match_module(&module_id).map(|boot_args| { let mut processes = self.processes.write().unwrap(); { if processes.get(&module_id).is_some() { // already started for another module return; } } let mut command = Command::new(&std::env::current_exe().unwrap()); command.stderr(std::process::Stdio::inherit()); if let Some(ref cli_args) = boot_args.cli { for arg in cli_args { command.arg(arg); } } command.stdin(std::process::Stdio::piped()); trace!(target: "hypervisor", "Spawn executable: {:?}", command); let mut child = command.spawn().unwrap_or_else( |e| panic!("Hypervisor cannot execute command ({:?}): {}", command, e)); if let Some(ref std_in) = boot_args.stdin { trace!(target: "hypervisor", "Pushing std-in payload..."); child.stdin.as_mut() .expect("std-in should be piped above") .write(std_in) .unwrap_or_else(|e| panic!(format!("Error trying to pipe stdin for {:?}: {:?}", &command, e))); drop(child.stdin.take()); } processes.insert(module_id, child); }); } /// Reports if all modules are checked in pub fn modules_ready(&self) -> bool { self.service.unchecked_count() == 0 } /// Waits for every required module to check in pub fn wait_for_startup(&self) { let mut worker = self.ipc_worker.write().unwrap(); while !self.modules_ready() { worker.poll() } } /// Shutdown the ipc and all managed child processes pub fn shutdown(&self, wait_time: Option) { if wait_time.is_some() { std::thread::sleep(wait_time.unwrap()) } let mut childs = self.processes.write().unwrap(); for (ref mut module, ref mut child) in childs.iter_mut() { trace!(target: "hypervisor", "Stopping process module: {}", module); child.kill().unwrap(); } } } impl Drop for Hypervisor { fn drop(&mut self) { self.shutdown(Some(std::time::Duration::new(1, 0))); } } #[cfg(test)] mod tests { use super::*; use std::sync::atomic::{AtomicBool,Ordering}; use std::sync::Arc; use nanoipc; #[test] fn can_init() { let url = "ipc:///tmp/test-parity-hypervisor-10.ipc"; let test_module_id = 8080u64; let hypervisor = Hypervisor::with_url(url).local_module(test_module_id); assert_eq!(false, hypervisor.modules_ready()); } #[test] fn can_wait_for_startup() { let url = "ipc:///tmp/test-parity-hypervisor-20.ipc"; let test_module_id = 8080u64; let hypervisor_ready = Arc::new(AtomicBool::new(false)); let hypervisor_ready_local = hypervisor_ready.clone(); ::std::thread::spawn(move || { while !hypervisor_ready.load(Ordering::Relaxed) { } let client = nanoipc::init_client::>(url).unwrap(); client.handshake().unwrap(); client.module_ready(test_module_id); }); let hypervisor = Hypervisor::with_url(url).local_module(test_module_id); hypervisor.start(); hypervisor_ready_local.store(true, Ordering::Relaxed); hypervisor.wait_for_startup(); assert_eq!(true, hypervisor.modules_ready()); } }