use crate::attester_service::{AttestationGrpcClient, AttesterService}; use crate::block_producer_service::{BeaconBlockGrpcClient, BlockProducerService}; use crate::config::ClientConfig; use crate::duties::{DutiesManager, DutiesManagerService, EpochDutiesMap}; use attester::test_utils::EpochMap; use attester::{test_utils::LocalSigner as AttesterLocalSigner, Attester}; use block_proposer::{test_utils::LocalSigner as BlockProposerLocalSigner, BlockProducer}; use bls::Keypair; use clap::{App, Arg}; use grpcio::{ChannelBuilder, EnvBuilder}; use protos::services::{Empty, NodeInfo}; use protos::services_grpc::{ AttestationServiceClient, BeaconBlockServiceClient, BeaconNodeServiceClient, ValidatorServiceClient, }; use slog::{info, o, Drain}; use slot_clock::SystemTimeSlotClock; use std::sync::Arc; use std::thread; mod attester_service; mod block_producer_service; mod config; mod duties; fn main() { // Logging let decorator = slog_term::TermDecorator::new().build(); let drain = slog_term::CompactFormat::new(decorator).build().fuse(); let drain = slog_async::Async::new(drain).build().fuse(); let log = slog::Logger::root(drain, o!()); // CLI let matches = App::new("Lighthouse Validator Client") .version("0.0.1") .author("Sigma Prime ") .about("Eth 2.0 Validator Client") .arg( Arg::with_name("datadir") .long("datadir") .value_name("DIR") .help("Data directory for keys and databases.") .takes_value(true), ) .arg( Arg::with_name("server") .long("server") .value_name("server") .help("Address to connect to BeaconNode.") .takes_value(true), ) .arg( Arg::with_name("spec") .long("spec") .value_name("spec") .short("s") .help("Configuration of Beacon Chain") .takes_value(true) .possible_values(&["foundation", "few_validators"]) .default_value("foundation"), ) .get_matches(); let config = ClientConfig::parse_args(matches, &log).unwrap(); // Beacon node gRPC beacon node endpoints. let beacon_node_grpc_client = { let env = Arc::new(EnvBuilder::new().build()); let ch = ChannelBuilder::new(env).connect(&config.server); Arc::new(BeaconNodeServiceClient::new(ch)) }; // Beacon node gRPC beacon block endpoints. let beacon_block_grpc_client = { let env = Arc::new(EnvBuilder::new().build()); let ch = ChannelBuilder::new(env).connect(&config.server); Arc::new(BeaconBlockServiceClient::new(ch)) }; // Beacon node gRPC validator endpoints. let validator_grpc_client = { let env = Arc::new(EnvBuilder::new().build()); let ch = ChannelBuilder::new(env).connect(&config.server); Arc::new(ValidatorServiceClient::new(ch)) }; //Beacon node gRPC attester endpoints. let attester_grpc_client = { let env = Arc::new(EnvBuilder::new().build()); let ch = ChannelBuilder::new(env).connect(&config.server); Arc::new(AttestationServiceClient::new(ch)) }; // retrieve node information let node_info = beacon_node_grpc_client.info(&Empty::new()); info!(log, "Beacon node info: {:?}", node_info); // Spec let spec = Arc::new(config.spec.clone()); let genesis_time = 1_549_935_547; let slot_clock = { info!(log, "Genesis time"; "unix_epoch_seconds" => genesis_time); let clock = SystemTimeSlotClock::new(genesis_time, spec.seconds_per_slot) .expect("Unable to instantiate SystemTimeSlotClock."); Arc::new(clock) }; let poll_interval_millis = spec.seconds_per_slot * 1000 / 10; // 10% epoch time precision. info!(log, "Starting block producer service"; "polls_per_epoch" => spec.seconds_per_slot * 1000 / poll_interval_millis); /* * Start threads. */ let mut threads = vec![]; // TODO: keypairs are randomly generated; they should be loaded from a file or generated. // https://github.com/sigp/lighthouse/issues/160 let keypairs = vec![Keypair::random()]; for keypair in keypairs { info!(log, "Starting validator services"; "validator" => keypair.pk.concatenated_hex_id()); let duties_map = Arc::new(EpochDutiesMap::new(spec.slots_per_epoch)); let epoch_map_for_attester = Arc::new(EpochMap::new(spec.slots_per_epoch)); // Spawn a new thread to maintain the validator's `EpochDuties`. let duties_manager_thread = { let spec = spec.clone(); let duties_map = duties_map.clone(); let slot_clock = slot_clock.clone(); let log = log.clone(); let beacon_node = validator_grpc_client.clone(); let pubkey = keypair.pk.clone(); thread::spawn(move || { let manager = DutiesManager { duties_map, pubkey, spec, slot_clock, beacon_node, }; let mut duties_manager_service = DutiesManagerService { manager, poll_interval_millis, log, }; duties_manager_service.run(); }) }; // Spawn a new thread to perform block production for the validator. let producer_thread = { let spec = spec.clone(); let signer = Arc::new(BlockProposerLocalSigner::new(keypair.clone())); let duties_map = duties_map.clone(); let slot_clock = slot_clock.clone(); let log = log.clone(); let client = Arc::new(BeaconBlockGrpcClient::new(beacon_block_grpc_client.clone())); thread::spawn(move || { let block_producer = BlockProducer::new(spec, duties_map, slot_clock, client, signer); let mut block_producer_service = BlockProducerService { block_producer, poll_interval_millis, log, }; block_producer_service.run(); }) }; // Spawn a new thread for attestation for the validator. let attester_thread = { let signer = Arc::new(AttesterLocalSigner::new(keypair.clone())); let epoch_map = epoch_map_for_attester.clone(); let slot_clock = slot_clock.clone(); let log = log.clone(); let client = Arc::new(AttestationGrpcClient::new(attester_grpc_client.clone())); thread::spawn(move || { let attester = Attester::new(epoch_map, slot_clock, client, signer); let mut attester_service = AttesterService { attester, poll_interval_millis, log, }; attester_service.run(); }) }; threads.push((duties_manager_thread, producer_thread, attester_thread)); } // Naively wait for all the threads to complete. for tuple in threads { let (manager, producer, attester) = tuple; let _ = producer.join(); let _ = manager.join(); let _ = attester.join(); } }