lighthouse/beacon_node/src/lib.rs
2021-12-02 14:29:59 +11:00

180 lines
6.1 KiB
Rust

#[macro_use]
extern crate clap;
mod cli;
mod config;
pub use beacon_chain;
use beacon_chain::store::LevelDB;
use beacon_chain::{
builder::Witness, eth1_chain::CachingEth1Backend, slot_clock::SystemTimeSlotClock,
TimeoutRwLock,
};
use clap::ArgMatches;
pub use cli::cli_app;
pub use client::{Client, ClientBuilder, ClientConfig, ClientGenesis};
pub use config::{get_config, get_data_dir, set_network_config};
use environment::RuntimeContext;
pub use eth2_config::Eth2Config;
use slasher::Slasher;
use slog::{info, warn};
use std::ops::{Deref, DerefMut};
use std::sync::Arc;
use types::EthSpec;
/// A type-alias to the tighten the definition of a production-intended `Client`.
pub type ProductionClient<E> =
Client<Witness<SystemTimeSlotClock, CachingEth1Backend<E>, E, LevelDB<E>, LevelDB<E>>>;
/// The beacon node `Client` that will be used in production.
///
/// Generic over some `EthSpec`.
///
/// ## Notes:
///
/// Despite being titled `Production...`, this code is not ready for production. The name
/// demonstrates an intention, not a promise.
pub struct ProductionBeaconNode<E: EthSpec>(ProductionClient<E>);
impl<E: EthSpec> ProductionBeaconNode<E> {
/// Starts a new beacon node `Client` in the given `environment`.
///
/// Identical to `start_from_client_config`, however the `client_config` is generated from the
/// given `matches` and potentially configuration files on the local filesystem or other
/// configurations hosted remotely.
pub async fn new_from_cli(
context: RuntimeContext<E>,
matches: ArgMatches<'static>,
) -> Result<Self, String> {
let client_config = get_config::<E>(&matches, &context)?;
Self::new(context, client_config).await
}
/// Starts a new beacon node `Client` in the given `environment`.
///
/// Client behaviour is defined by the given `client_config`.
pub async fn new(
context: RuntimeContext<E>,
mut client_config: ClientConfig,
) -> Result<Self, String> {
let spec = context.eth2_config().spec.clone();
let client_genesis = client_config.genesis.clone();
let store_config = client_config.store.clone();
let log = context.log().clone();
let datadir = client_config.create_data_dir()?;
let db_path = client_config.create_db_path()?;
let freezer_db_path = client_config.create_freezer_db_path()?;
let executor = context.executor.clone();
if let Some(legacy_dir) = client_config.get_existing_legacy_data_dir() {
warn!(
log,
"Legacy datadir location";
"msg" => "this occurs when using relative paths for a datadir location",
"location" => ?legacy_dir,
)
}
if !client_config.chain.enable_lock_timeouts {
info!(log, "Disabling lock timeouts globally");
TimeoutRwLock::disable_timeouts()
}
let builder = ClientBuilder::new(context.eth_spec_instance.clone())
.runtime_context(context)
.chain_spec(spec)
.http_api_config(client_config.http_api.clone())
.disk_store(&datadir, &db_path, &freezer_db_path, store_config)?;
let builder = if let Some(slasher_config) = client_config.slasher.clone() {
let slasher = Arc::new(
Slasher::open(slasher_config, log.new(slog::o!("service" => "slasher")))
.map_err(|e| format!("Slasher open error: {:?}", e))?,
);
builder.slasher(slasher)
} else {
builder
};
let builder = if let Some(monitoring_config) = &mut client_config.monitoring_api {
monitoring_config.db_path = Some(db_path);
monitoring_config.freezer_db_path = Some(freezer_db_path);
builder.monitoring_client(monitoring_config)?
} else {
builder
};
let builder = builder
.beacon_chain_builder(client_genesis, client_config.clone())
.await?;
let builder = if client_config.sync_eth1_chain && !client_config.dummy_eth1_backend {
info!(
log,
"Block production enabled";
"endpoints" => format!("{:?}", &client_config.eth1.endpoints),
"method" => "json rpc via http"
);
builder
.caching_eth1_backend(client_config.eth1.clone())
.await?
} else if client_config.dummy_eth1_backend {
warn!(
log,
"Block production impaired";
"reason" => "dummy eth1 backend is enabled"
);
builder.dummy_eth1_backend()?
} else {
info!(
log,
"Block production disabled";
"reason" => "no eth1 backend configured"
);
builder.no_eth1_backend()?
};
let builder = builder.system_time_slot_clock()?;
// Inject the executor into the discv5 network config.
let discv5_executor = Discv5Executor(executor);
client_config.network.discv5_config.executor = Some(Box::new(discv5_executor));
builder
.build_beacon_chain()?
.network(&client_config.network)
.await?
.notifier()?
.http_metrics_config(client_config.http_metrics.clone())
.build()
.map(Self)
}
pub fn into_inner(self) -> ProductionClient<E> {
self.0
}
}
impl<E: EthSpec> Deref for ProductionBeaconNode<E> {
type Target = ProductionClient<E>;
fn deref(&self) -> &Self::Target {
&self.0
}
}
impl<E: EthSpec> DerefMut for ProductionBeaconNode<E> {
fn deref_mut(&mut self) -> &mut Self::Target {
&mut self.0
}
}
// Implements the Discv5 Executor trait over our global executor
#[derive(Clone)]
struct Discv5Executor(task_executor::TaskExecutor);
impl lighthouse_network::discv5::Executor for Discv5Executor {
fn spawn(&self, future: std::pin::Pin<Box<dyn std::future::Future<Output = ()> + Send>>) {
self.0.spawn(future, "discv5")
}
}