// Copyright 2015-2017 Parity Technologies (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 . //! Ethcore client application. #![warn(missing_docs)] #![cfg_attr(feature="dev", feature(plugin))] #![cfg_attr(feature="dev", plugin(clippy))] #![cfg_attr(feature="dev", allow(useless_format))] #![cfg_attr(feature="dev", allow(match_bool))] extern crate ansi_term; extern crate app_dirs; extern crate ctrlc; extern crate docopt; extern crate env_logger; extern crate fdlimit; extern crate futures; extern crate futures_cpupool; extern crate isatty; extern crate jsonrpc_core; extern crate num_cpus; extern crate number_prefix; extern crate regex; extern crate rlp; extern crate rpassword; extern crate rustc_hex; extern crate semver; extern crate serde; extern crate serde_json; #[macro_use] extern crate serde_derive; extern crate time; extern crate toml; extern crate ethcore; extern crate ethcore_devtools as devtools; extern crate ethcore_io as io; extern crate ethcore_ipc as ipc; extern crate ethcore_ipc_hypervisor as hypervisor; extern crate ethcore_ipc_nano as nanoipc; extern crate ethcore_light as light; extern crate ethcore_logger; extern crate ethcore_util as util; extern crate ethcore_network as network; extern crate ethkey; extern crate ethsync; extern crate node_health; extern crate panic_hook; extern crate parity_hash_fetch as hash_fetch; extern crate parity_ipfs_api; extern crate parity_local_store as local_store; extern crate parity_reactor; extern crate parity_rpc; extern crate parity_updater as updater; extern crate parity_whisper; extern crate path; extern crate rpc_cli; extern crate node_filter; extern crate hash; #[macro_use] extern crate log as rlog; #[cfg(feature="stratum")] extern crate ethcore_stratum; #[cfg(feature="secretstore")] extern crate ethcore_secretstore; #[cfg(feature = "dapps")] extern crate parity_dapps; #[cfg(test)] #[macro_use] extern crate pretty_assertions; #[cfg(windows)] extern crate ws2_32; #[cfg(windows)] extern crate winapi; mod account; mod blockchain; mod cache; mod cli; mod configuration; mod dapps; mod ipfs; mod deprecated; mod dir; mod helpers; mod informant; mod light_helpers; mod migration; mod modules; mod params; mod presale; mod rpc; mod rpc_apis; mod run; mod secretstore; mod signer; mod snapshot; mod upgrade; mod url; mod user_defaults; mod whisper; #[cfg(feature="ipc")] mod boot; #[cfg(feature="ipc")] mod sync; #[cfg(feature="stratum")] mod stratum; use std::{process, env}; use std::collections::HashMap; use std::io::{self as stdio, BufReader, Read, Write}; use std::fs::{remove_file, metadata, File, create_dir_all}; use std::path::PathBuf; use hash::keccak_buffer; use cli::Args; use configuration::{Cmd, Execute, Configuration}; use deprecated::find_deprecated; use ethcore_logger::setup_log; use dir::default_hypervisor_path; fn print_hash_of(maybe_file: Option) -> Result { if let Some(file) = maybe_file { let mut f = BufReader::new(File::open(&file).map_err(|_| "Unable to open file".to_owned())?); let hash = keccak_buffer(&mut f).map_err(|_| "Unable to read from file".to_owned())?; Ok(hash.hex()) } else { Err("Streaming from standard input not yet supported. Specify a file.".to_owned()) } } enum PostExecutionAction { Print(String), Restart(Option), Quit, } fn execute(command: Execute, can_restart: bool) -> Result { let logger = setup_log(&command.logger).expect("Logger is initialized only once; qed"); match command.cmd { Cmd::Run(run_cmd) => { let (restart, spec_name) = run::execute(run_cmd, can_restart, logger)?; Ok(if restart { PostExecutionAction::Restart(spec_name) } else { PostExecutionAction::Quit }) }, Cmd::Version => Ok(PostExecutionAction::Print(Args::print_version())), Cmd::Hash(maybe_file) => print_hash_of(maybe_file).map(|s| PostExecutionAction::Print(s)), Cmd::Account(account_cmd) => account::execute(account_cmd).map(|s| PostExecutionAction::Print(s)), Cmd::ImportPresaleWallet(presale_cmd) => presale::execute(presale_cmd).map(|s| PostExecutionAction::Print(s)), Cmd::Blockchain(blockchain_cmd) => blockchain::execute(blockchain_cmd).map(|_| PostExecutionAction::Quit), Cmd::SignerToken(ws_conf, ui_conf, logger_config) => signer::execute(ws_conf, ui_conf, logger_config).map(|s| PostExecutionAction::Print(s)), Cmd::SignerSign { id, pwfile, port, authfile } => rpc_cli::signer_sign(id, pwfile, port, authfile).map(|s| PostExecutionAction::Print(s)), Cmd::SignerList { port, authfile } => rpc_cli::signer_list(port, authfile).map(|s| PostExecutionAction::Print(s)), Cmd::SignerReject { id, port, authfile } => rpc_cli::signer_reject(id, port, authfile).map(|s| PostExecutionAction::Print(s)), Cmd::Snapshot(snapshot_cmd) => snapshot::execute(snapshot_cmd).map(|s| PostExecutionAction::Print(s)), } } fn start(can_restart: bool) -> Result { let args: Vec = env::args().collect(); let conf = Configuration::parse(&args, take_spec_name_override()).unwrap_or_else(|e| e.exit()); let deprecated = find_deprecated(&conf.args); for d in deprecated { println!("{}", d); } let cmd = conf.into_command()?; execute(cmd, can_restart) } #[cfg(not(feature="stratum"))] fn stratum_main(_: &mut HashMap) {} #[cfg(feature="stratum")] fn stratum_main(alt_mains: &mut HashMap) { alt_mains.insert("stratum".to_owned(), stratum::main); } #[cfg(not(feature="ipc"))] fn sync_main(_: &mut HashMap) {} #[cfg(feature="ipc")] fn sync_main(alt_mains: &mut HashMap) { alt_mains.insert("sync".to_owned(), sync::main); } fn updates_path(name: &str) -> PathBuf { let mut dest = PathBuf::from(default_hypervisor_path()); dest.push(name); dest } fn latest_exe_path() -> Option { File::open(updates_path("latest")).ok() .and_then(|mut f| { let mut exe = String::new(); f.read_to_string(&mut exe).ok().map(|_| updates_path(&exe)) }) } fn set_spec_name_override(spec_name: String) { if let Err(e) = create_dir_all(default_hypervisor_path()) .and_then(|_| File::create(updates_path("spec_name_overide")) .and_then(|mut f| f.write_all(spec_name.as_bytes()))) { warn!("Couldn't override chain spec: {} at {:?}", e, updates_path("spec_name_overide")); } } fn take_spec_name_override() -> Option { let p = updates_path("spec_name_overide"); let r = File::open(p.clone()).ok() .and_then(|mut f| { let mut spec_name = String::new(); f.read_to_string(&mut spec_name).ok().map(|_| spec_name) }); let _ = remove_file(p); r } #[cfg(windows)] fn global_cleanup() { // We need to cleanup all sockets before spawning another Parity process. This makes shure everything is cleaned up. // The loop is required because of internal refernce counter for winsock dll. We don't know how many crates we use do // initialize it. There's at least 2 now. for _ in 0.. 10 { unsafe { ::ws2_32::WSACleanup(); } } } #[cfg(not(windows))] fn global_init() {} #[cfg(windows)] fn global_init() { // When restarting in the same process this reinits windows sockets. unsafe { const WS_VERSION: u16 = 0x202; let mut wsdata: ::winapi::winsock2::WSADATA = ::std::mem::zeroed(); ::ws2_32::WSAStartup(WS_VERSION, &mut wsdata); } } #[cfg(not(windows))] fn global_cleanup() {} // Starts ~/.parity-updates/parity and returns the code it exits with. fn run_parity() -> Option { global_init(); use ::std::ffi::OsString; let prefix = vec![OsString::from("--can-restart"), OsString::from("--force-direct")]; let res = latest_exe_path().and_then(|exe| process::Command::new(exe) .args(&(env::args_os().skip(1).chain(prefix.into_iter()).collect::>())) .status() .map(|es| es.code().unwrap_or(128)) .ok() ); global_cleanup(); res } const PLEASE_RESTART_EXIT_CODE: i32 = 69; // Run our version of parity. // Returns the exit error code. fn main_direct(can_restart: bool) -> i32 { global_init(); let mut alt_mains = HashMap::new(); sync_main(&mut alt_mains); stratum_main(&mut alt_mains); let res = if let Some(f) = std::env::args().nth(1).and_then(|arg| alt_mains.get(&arg.to_string())) { f(); 0 } else { match start(can_restart) { Ok(result) => match result { PostExecutionAction::Print(s) => { println!("{}", s); 0 }, PostExecutionAction::Restart(spec_name_override) => { if let Some(spec_name) = spec_name_override { set_spec_name_override(spec_name); } PLEASE_RESTART_EXIT_CODE }, PostExecutionAction::Quit => 0, }, Err(err) => { writeln!(&mut stdio::stderr(), "{}", err).expect("StdErr available; qed"); 1 }, } }; global_cleanup(); res } fn println_trace_main(s: String) { if env::var("RUST_LOG").ok().and_then(|s| s.find("main=trace")).is_some() { println!("{}", s); } } #[macro_export] macro_rules! trace_main { ($arg:expr) => (println_trace_main($arg.into())); ($($arg:tt)*) => (println_trace_main(format!("{}", format_args!($($arg)*)))); } fn main() { panic_hook::set(); // assuming the user is not running with `--force-direct`, then: // if argv[0] == "parity" and this executable != ~/.parity-updates/parity, run that instead. let force_direct = std::env::args().any(|arg| arg == "--force-direct"); let exe = std::env::current_exe().ok(); let development = exe.as_ref().and_then(|p| p.parent().and_then(|p| p.parent()).and_then(|p| p.file_name()).map(|n| n == "target")).unwrap_or(false); let same_name = exe.as_ref().map(|p| p.file_stem().map_or(false, |s| s == "parity") && p.extension().map_or(true, |x| x == "exe")).unwrap_or(false); trace_main!("Starting up {} (force-direct: {}, development: {}, same-name: {})", std::env::current_exe().map(|x| format!("{}", x.display())).unwrap_or("".to_owned()), force_direct, development, same_name); if !force_direct && !development && same_name { // looks like we're not running ~/.parity-updates/parity when the user is expecting otherwise. // Everything run inside a loop, so we'll be able to restart from the child into a new version seamlessly. loop { // If we fail to run the updated parity then fallback to local version. let latest_exe = latest_exe_path(); let have_update = latest_exe.as_ref().map_or(false, |p| p.exists()); let is_non_updated_current = exe.as_ref().map_or(false, |exe| latest_exe.as_ref().map_or(false, |lexe| exe.canonicalize().ok() != lexe.canonicalize().ok())); let update_is_newer = match ( latest_exe.as_ref() .and_then(|p| metadata(p.as_path()).ok()) .and_then(|m| m.modified().ok()), exe.as_ref() .and_then(|p| metadata(p.as_path()).ok()) .and_then(|m| m.modified().ok()) ) { (Some(latest_exe_time), Some(this_exe_time)) if latest_exe_time > this_exe_time => true, _ => false, }; trace_main!("Starting... (have-update: {}, non-updated-current: {}, update-is-newer: {})", have_update, is_non_updated_current, update_is_newer); let exit_code = if have_update && is_non_updated_current && update_is_newer { trace_main!("Attempting to run latest update ({})...", latest_exe.as_ref().expect("guarded by have_update; latest_exe must exist for have_update; qed").display()); run_parity().unwrap_or_else(|| { trace_main!("Falling back to local..."); main_direct(true) }) } else { trace_main!("No latest update. Attempting to direct..."); main_direct(true) }; trace_main!("Latest exited with {}", exit_code); if exit_code != PLEASE_RESTART_EXIT_CODE { trace_main!("Quitting..."); process::exit(exit_code); } trace_main!("Rerunning..."); } } else { trace_main!("Running direct"); // Otherwise, we're presumably running the version we want. Just run and fall-through. let can_restart = std::env::args().any(|arg| arg == "--can-restart"); process::exit(main_direct(can_restart)); } }