// Copyright 2015-2019 Parity Technologies (UK) Ltd. // This file is part of Parity Ethereum. // Parity Ethereum 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 Ethereum 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 Ethereum. If not, see . //! Ethcore client application. #![warn(missing_docs)] extern crate ansi_term; extern crate docopt; #[macro_use] extern crate clap; extern crate dir; extern crate env_logger; extern crate futures; extern crate atty; extern crate jsonrpc_core; extern crate num_cpus; extern crate number_prefix; extern crate parking_lot; 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 toml; extern crate blooms_db; extern crate cli_signer; extern crate common_types as types; extern crate ethcore; extern crate parity_bytes as bytes; extern crate ethcore_db; extern crate ethcore_io as io; extern crate ethcore_light as light; extern crate ethcore_logger; extern crate ethcore_miner as miner; extern crate ethcore_network as network; extern crate ethcore_private_tx; extern crate ethcore_service; extern crate ethcore_sync as sync; extern crate ethereum_types; extern crate ethstore; extern crate ethkey; extern crate kvdb; extern crate parity_hash_fetch as hash_fetch; extern crate parity_ipfs_api; extern crate parity_local_store as local_store; extern crate parity_runtime; extern crate parity_rpc; extern crate parity_updater as updater; extern crate parity_version; extern crate parity_whisper; extern crate parity_path as path; extern crate node_filter; extern crate keccak_hash as hash; extern crate journaldb; extern crate registrar; #[macro_use] extern crate log as rlog; #[cfg(feature = "secretstore")] extern crate ethcore_secretstore; #[cfg(test)] #[macro_use] extern crate pretty_assertions; #[cfg(test)] extern crate tempdir; mod account; mod blockchain; mod cache; mod cli; mod configuration; mod export_hardcoded_sync; mod ipfs; mod deprecated; mod helpers; mod informant; mod light_helpers; mod modules; mod params; mod presale; mod rpc; mod rpc_apis; mod run; mod secretstore; mod signer; mod snapshot; mod upgrade; mod user_defaults; mod whisper; mod db; use std::io::BufReader; use std::fs::File; use hash::keccak_buffer; use cli::Args; use configuration::{Cmd, Execute}; use deprecated::find_deprecated; use ethcore_logger::setup_log; #[cfg(feature = "memory_profiling")] use std::alloc::System; pub use self::configuration::Configuration; pub use self::run::RunningClient; pub use parity_rpc::PubSubSession; #[cfg(feature = "memory_profiling")] #[global_allocator] static A: System = System; 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(format!("{:x}", hash)) } else { Err("Streaming from standard input not yet supported. Specify a file.".to_owned()) } } #[cfg(feature = "deadlock_detection")] fn run_deadlock_detection_thread() { use std::thread; use std::time::Duration; use parking_lot::deadlock; use ansi_term::Style; info!("Starting deadlock detection thread."); // Create a background thread which checks for deadlocks every 10s thread::spawn(move || { loop { thread::sleep(Duration::from_secs(10)); let deadlocks = deadlock::check_deadlock(); if deadlocks.is_empty() { continue; } warn!("{} {} detected", deadlocks.len(), Style::new().bold().paint("deadlock(s)")); for (i, threads) in deadlocks.iter().enumerate() { warn!("{} #{}", Style::new().bold().paint("Deadlock"), i); for t in threads { warn!("Thread Id {:#?}", t.thread_id()); warn!("{:#?}", t.backtrace()); } } } }); } /// Action that Parity performed when running `start`. pub enum ExecutionAction { /// The execution didn't require starting a node, and thus has finished. /// Contains the string to print on stdout, if any. Instant(Option), /// The client has started running and must be shut down manually by calling `shutdown`. /// /// If you don't call `shutdown()`, execution will continue in the background. Running(RunningClient), } fn execute(command: Execute, on_client_rq: Cr, on_updater_rq: Rr) -> Result where Cr: Fn(String) + 'static + Send, Rr: Fn() + 'static + Send { // TODO: move this to `main()` and expose in the C API so that users can setup logging the way // they want let logger = setup_log(&command.logger).expect("Logger is initialized only once; qed"); #[cfg(feature = "deadlock_detection")] run_deadlock_detection_thread(); match command.cmd { Cmd::Run(run_cmd) => { let outcome = run::execute(run_cmd, logger, on_client_rq, on_updater_rq)?; Ok(ExecutionAction::Running(outcome)) }, Cmd::Version => Ok(ExecutionAction::Instant(Some(Args::print_version()))), Cmd::Hash(maybe_file) => print_hash_of(maybe_file).map(|s| ExecutionAction::Instant(Some(s))), Cmd::Account(account_cmd) => account::execute(account_cmd).map(|s| ExecutionAction::Instant(Some(s))), Cmd::ImportPresaleWallet(presale_cmd) => presale::execute(presale_cmd).map(|s| ExecutionAction::Instant(Some(s))), Cmd::Blockchain(blockchain_cmd) => blockchain::execute(blockchain_cmd).map(|_| ExecutionAction::Instant(None)), Cmd::SignerToken(ws_conf, logger_config) => signer::execute(ws_conf, logger_config).map(|s| ExecutionAction::Instant(Some(s))), Cmd::SignerSign { id, pwfile, port, authfile } => cli_signer::signer_sign(id, pwfile, port, authfile).map(|s| ExecutionAction::Instant(Some(s))), Cmd::SignerList { port, authfile } => cli_signer::signer_list(port, authfile).map(|s| ExecutionAction::Instant(Some(s))), Cmd::SignerReject { id, port, authfile } => cli_signer::signer_reject(id, port, authfile).map(|s| ExecutionAction::Instant(Some(s))), Cmd::Snapshot(snapshot_cmd) => snapshot::execute(snapshot_cmd).map(|s| ExecutionAction::Instant(Some(s))), Cmd::ExportHardcodedSync(export_hs_cmd) => export_hardcoded_sync::execute(export_hs_cmd).map(|s| ExecutionAction::Instant(Some(s))), } } /// Starts the parity client. /// /// `on_client_rq` is the action to perform when the client receives an RPC request to be restarted /// with a different chain. /// /// `on_updater_rq` is the action to perform when the updater has a new binary to execute. /// /// The first parameter is the command line arguments that you would pass when running the parity /// binary. /// /// On error, returns what to print on stderr. pub fn start(conf: Configuration, on_client_rq: Cr, on_updater_rq: Rr) -> Result where Cr: Fn(String) + 'static + Send, Rr: Fn() + 'static + Send { let deprecated = find_deprecated(&conf.args); for d in deprecated { println!("{}", d); } execute(conf.into_command()?, on_client_rq, on_updater_rq) }