// Copyright 2018-2019 Parity Technologies (UK) Ltd.
// This file is part of Substrate.
// Substrate 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.
// Substrate 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 Substrate. If not, see .
pub use substrate_cli::VersionInfo;
use tokio::prelude::Future;
use tokio::runtime::{Builder as RuntimeBuilder, Runtime};
use substrate_cli::{IntoExit, NoCustom, SharedParams, ImportParams, error};
use substrate_service::{AbstractService, Roles as ServiceRoles, Configuration};
use log::info;
use structopt::{StructOpt, clap::App};
use substrate_cli::{display_role, parse_and_prepare, AugmentClap, GetLogFilter, ParseAndPrepare};
use crate::{service, ChainSpec, load_spec};
use crate::factory_impl::FactoryState;
use transaction_factory::RuntimeAdapter;
/// Custom subcommands.
#[derive(Clone, Debug, StructOpt)]
pub enum CustomSubcommands {
/// The custom factory subcommmand for manufacturing transactions.
#[structopt(
name = "factory",
about = "Manufactures num transactions from Alice to random accounts. \
Only supported for development or local testnet."
)]
Factory(FactoryCmd),
}
impl GetLogFilter for CustomSubcommands {
fn get_log_filter(&self) -> Option {
None
}
}
/// The `factory` command used to generate transactions.
/// Please note: this command currently only works on an empty database!
#[derive(Debug, StructOpt, Clone)]
pub struct FactoryCmd {
/// How often to repeat. This option only has an effect in mode `MasterToNToM`.
#[structopt(long="rounds", default_value = "1")]
pub rounds: u64,
/// MasterToN: Manufacture `num` transactions from the master account
/// to `num` randomly created accounts, one each.
///
/// MasterTo1: Manufacture `num` transactions from the master account
/// to exactly one other randomly created account.
///
/// MasterToNToM: Manufacture `num` transactions from the master account
/// to `num` randomly created accounts.
/// From each of these randomly created accounts manufacture
/// a transaction to another randomly created account.
/// Repeat this `rounds` times. If `rounds` = 1 the behavior
/// is the same as `MasterToN`.{n}
/// A -> B, A -> C, A -> D, ... x `num`{n}
/// B -> E, C -> F, D -> G, ...{n}
/// ... x `rounds`
///
/// These three modes control manufacturing.
#[structopt(long="mode", default_value = "MasterToN")]
pub mode: transaction_factory::Mode,
/// Number of transactions to generate. In mode `MasterNToNToM` this is
/// the number of transactions per round.
#[structopt(long="num", default_value = "8")]
pub num: u64,
#[allow(missing_docs)]
#[structopt(flatten)]
pub shared_params: SharedParams,
#[allow(missing_docs)]
#[structopt(flatten)]
pub import_params: ImportParams,
}
impl AugmentClap for FactoryCmd {
fn augment_clap<'a, 'b>(app: App<'a, 'b>) -> App<'a, 'b> {
FactoryCmd::augment_clap(app)
}
}
/// Parse command line arguments into service configuration.
pub fn run(args: I, exit: E, version: substrate_cli::VersionInfo) -> error::Result<()> where
I: IntoIterator- ,
T: Into + Clone,
E: IntoExit,
{
type Config = Configuration<(), A, B>;
match parse_and_prepare::(&version, "substrate-node", args) {
ParseAndPrepare::Run(cmd) => cmd.run(load_spec, exit,
|exit, _cli_args, _custom_args, config: Config<_, _>| {
info!("{}", version.name);
info!(" version {}", config.full_version());
info!(" by Parity Technologies, 2017-2019");
info!("Chain specification: {}", config.chain_spec.name());
info!("Node name: {}", config.name);
info!("Roles: {}", display_role(&config));
let runtime = RuntimeBuilder::new().name_prefix("main-tokio-").build()
.map_err(|e| format!("{:?}", e))?;
match config.roles {
ServiceRoles::LIGHT => run_until_exit(
runtime,
service::new_light(config)?,
exit
),
_ => run_until_exit(
runtime,
service::new_full(config)?,
exit
),
}
}),
ParseAndPrepare::BuildSpec(cmd) => cmd.run::(load_spec),
ParseAndPrepare::ExportBlocks(cmd) => cmd.run_with_builder(|config: Config<_, _>|
Ok(new_full_start!(config).0), load_spec, exit),
ParseAndPrepare::ImportBlocks(cmd) => cmd.run_with_builder(|config: Config<_, _>|
Ok(new_full_start!(config).0), load_spec, exit),
ParseAndPrepare::CheckBlock(cmd) => cmd.run_with_builder(|config: Config<_, _>|
Ok(new_full_start!(config).0), load_spec, exit),
ParseAndPrepare::PurgeChain(cmd) => cmd.run(load_spec),
ParseAndPrepare::RevertChain(cmd) => cmd.run_with_builder(|config: Config<_, _>|
Ok(new_full_start!(config).0), load_spec),
ParseAndPrepare::CustomCommand(CustomSubcommands::Factory(cli_args)) => {
let mut config: Config<_, _> = substrate_cli::create_config_with_db_path(
load_spec,
&cli_args.shared_params,
&version,
)?;
substrate_cli::fill_import_params(&mut config, &cli_args.import_params, ServiceRoles::FULL)?;
match ChainSpec::from(config.chain_spec.id()) {
Some(ref c) if c == &ChainSpec::Development || c == &ChainSpec::LocalTestnet => {},
_ => panic!("Factory is only supported for development and local testnet."),
}
let factory_state = FactoryState::new(
cli_args.mode.clone(),
cli_args.num,
cli_args.rounds,
);
let service_builder = new_full_start!(config).0;
transaction_factory::factory::, _, _, _, _, _>(
factory_state,
service_builder.client(),
service_builder.select_chain()
.expect("The select_chain is always initialized by new_full_start!; QED")
).map_err(|e| format!("Error in transaction factory: {}", e))?;
Ok(())
}
}
}
fn run_until_exit(
mut runtime: Runtime,
service: T,
e: E,
) -> error::Result<()>
where
T: AbstractService,
E: IntoExit,
{
use futures::{FutureExt, TryFutureExt, channel::oneshot, future::select, compat::Future01CompatExt};
let (exit_send, exit) = oneshot::channel();
let informant = substrate_cli::informant::build(&service);
let future = select(informant, exit)
.map(|_| Ok(()))
.compat();
runtime.executor().spawn(future);
// we eagerly drop the service so that the internal exit future is fired,
// but we need to keep holding a reference to the global telemetry guard
let _telemetry = service.telemetry();
let service_res = {
let exit = e.into_exit();
let service = service
.map_err(|err| error::Error::Service(err))
.compat();
let select = select(service, exit)
.map(|_| Ok(()))
.compat();
runtime.block_on(select)
};
let _ = exit_send.send(());
// TODO [andre]: timeout this future #1318
let _ = runtime.shutdown_on_idle().wait();
service_res
}