347 lines
14 KiB
Rust
347 lines
14 KiB
Rust
/// The Validator Client service.
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///
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/// Connects to a beacon node and negotiates the correct chain id.
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///
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/// Once connected, the service loads known validators keypairs from disk. Every slot,
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/// the service pings the beacon node, asking for new duties for each of the validators.
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///
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/// When a validator needs to either produce a block or sign an attestation, it requests the
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/// data from the beacon node and performs the signing before publishing the block to the beacon
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/// node.
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use crate::attestation_producer::AttestationProducer;
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use crate::block_producer::{BeaconBlockGrpcClient, BlockProducer};
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use crate::config::Config as ValidatorConfig;
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use crate::duties::{BeaconNodeDuties, DutiesManager, EpochDutiesMap};
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use crate::error as error_chain;
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use crate::error::ErrorKind;
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use crate::signer::Signer;
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use bls::Keypair;
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use grpcio::{ChannelBuilder, EnvBuilder};
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use protos::services::Empty;
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use protos::services_grpc::{
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AttestationServiceClient, BeaconBlockServiceClient, BeaconNodeServiceClient,
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ValidatorServiceClient,
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};
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use slog::{error, info, warn};
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use slot_clock::{SlotClock, SystemTimeSlotClock};
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use std::sync::Arc;
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use std::sync::RwLock;
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use std::time::{Duration, Instant, SystemTime};
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use tokio::prelude::*;
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use tokio::runtime::Builder;
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use tokio::timer::Interval;
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use tokio_timer::clock::Clock;
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use types::test_utils::generate_deterministic_keypairs;
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use types::{ChainSpec, Epoch, Fork, Slot};
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/// The validator service. This is the main thread that executes and maintains validator
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/// duties.
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//TODO: Generalize the BeaconNode types to use testing
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pub struct Service<B: BeaconNodeDuties + 'static, S: Signer + 'static> {
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/// The node's current fork version we are processing on.
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fork: Fork,
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/// The slot clock for this service.
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slot_clock: SystemTimeSlotClock,
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/// The current slot we are processing.
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current_slot: Slot,
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/// The chain specification for this clients instance.
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spec: Arc<ChainSpec>,
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/// The duties manager which maintains the state of when to perform actions.
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duties_manager: Arc<DutiesManager<B, S>>,
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// GRPC Clients
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/// The beacon block GRPC client.
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beacon_block_client: Arc<BeaconBlockGrpcClient>,
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/// The attester GRPC client.
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attestation_client: Arc<AttestationServiceClient>,
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/// The validator client logger.
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log: slog::Logger,
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}
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impl<B: BeaconNodeDuties + 'static, S: Signer + 'static> Service<B, S> {
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/// Initial connection to the beacon node to determine its properties.
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///
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/// This tries to connect to a beacon node. Once connected, it initialised the gRPC clients
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/// and returns an instance of the service.
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fn initialize_service(
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config: ValidatorConfig,
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log: slog::Logger,
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) -> error_chain::Result<Service<ValidatorServiceClient, Keypair>> {
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// initialise the beacon node client to check for a connection
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let env = Arc::new(EnvBuilder::new().build());
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// Beacon node gRPC beacon node endpoints.
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let beacon_node_client = {
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let ch = ChannelBuilder::new(env.clone()).connect(&config.server);
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BeaconNodeServiceClient::new(ch)
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};
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// retrieve node information and validate the beacon node
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let node_info = loop {
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match beacon_node_client.info(&Empty::new()) {
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Err(e) => {
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warn!(log, "Could not connect to node. Error: {}", e);
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info!(log, "Retrying in 5 seconds...");
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std::thread::sleep(Duration::from_secs(5));
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continue;
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}
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Ok(info) => {
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// verify the node's genesis time
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if SystemTime::now()
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.duration_since(SystemTime::UNIX_EPOCH)
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.unwrap()
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.as_secs()
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< info.genesis_time
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{
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error!(
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log,
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"Beacon Node's genesis time is in the future. No work to do.\n Exiting"
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);
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return Err("Genesis time in the future".into());
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}
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// verify the node's chain id
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if config.spec.chain_id != info.chain_id as u8 {
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error!(
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log,
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"Beacon Node's genesis time is in the future. No work to do.\n Exiting"
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);
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return Err(format!("Beacon node has the wrong chain id. Expected chain id: {}, node's chain id: {}", config.spec.chain_id, info.chain_id).into());
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}
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break info;
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}
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};
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};
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// build requisite objects to form Self
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let genesis_time = node_info.get_genesis_time();
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let genesis_slot = Slot::from(node_info.get_genesis_slot());
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info!(log,"Beacon node connected"; "Node Version" => node_info.version.clone(), "Chain ID" => node_info.chain_id, "Genesis time" => genesis_time);
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let proto_fork = node_info.get_fork();
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let mut previous_version: [u8; 4] = [0; 4];
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let mut current_version: [u8; 4] = [0; 4];
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previous_version.copy_from_slice(&proto_fork.get_previous_version()[..4]);
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current_version.copy_from_slice(&proto_fork.get_current_version()[..4]);
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let fork = Fork {
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previous_version,
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current_version,
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epoch: Epoch::from(proto_fork.get_epoch()),
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};
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// initialize the RPC clients
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// Beacon node gRPC beacon block endpoints.
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let beacon_block_client = {
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let ch = ChannelBuilder::new(env.clone()).connect(&config.server);
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let beacon_block_service_client = Arc::new(BeaconBlockServiceClient::new(ch));
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// a wrapper around the service client to implement the beacon block node trait
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Arc::new(BeaconBlockGrpcClient::new(beacon_block_service_client))
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};
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// Beacon node gRPC validator endpoints.
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let validator_client = {
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let ch = ChannelBuilder::new(env.clone()).connect(&config.server);
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Arc::new(ValidatorServiceClient::new(ch))
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};
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//Beacon node gRPC attester endpoints.
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let attestation_client = {
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let ch = ChannelBuilder::new(env.clone()).connect(&config.server);
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Arc::new(AttestationServiceClient::new(ch))
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};
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// build the validator slot clock
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let slot_clock =
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SystemTimeSlotClock::new(genesis_slot, genesis_time, config.spec.seconds_per_slot)
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.expect("Unable to instantiate SystemTimeSlotClock.");
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let current_slot = slot_clock
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.present_slot()
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.map_err(|e| ErrorKind::SlotClockError(e))?
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.expect("Genesis must be in the future");
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/* Generate the duties manager */
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// generate keypairs
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// TODO: keypairs are randomly generated; they should be loaded from a file or generated.
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// https://github.com/sigp/lighthouse/issues/160
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let keypairs = Arc::new(generate_deterministic_keypairs(8));
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// Builds a mapping of Epoch -> Map(PublicKey, EpochDuty)
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// where EpochDuty contains slot numbers and attestation data that each validator needs to
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// produce work on.
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let duties_map = RwLock::new(EpochDutiesMap::new(config.spec.slots_per_epoch));
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// builds a manager which maintains the list of current duties for all known validators
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// and can check when a validator needs to perform a task.
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let duties_manager = Arc::new(DutiesManager {
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duties_map,
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// these are abstract objects capable of signing
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signers: keypairs,
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beacon_node: validator_client,
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});
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let spec = Arc::new(config.spec);
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Ok(Service {
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fork,
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slot_clock,
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current_slot,
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spec,
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duties_manager,
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beacon_block_client,
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attestation_client,
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log,
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})
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}
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/// Initialise the service then run the core thread.
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// TODO: Improve handling of generic BeaconNode types, to stub grpcClient
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pub fn start(config: ValidatorConfig, log: slog::Logger) -> error_chain::Result<()> {
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// connect to the node and retrieve its properties and initialize the gRPC clients
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let mut service =
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Service::<ValidatorServiceClient, Keypair>::initialize_service(config, log)?;
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// we have connected to a node and established its parameters. Spin up the core service
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// set up the validator service runtime
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let mut runtime = Builder::new()
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.clock(Clock::system())
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.name_prefix("validator-client-")
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.build()
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.map_err(|e| format!("Tokio runtime failed: {}", e))?;
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let duration_to_next_slot = service
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.slot_clock
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.duration_to_next_slot()
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.map_err(|e| format!("System clock error: {:?}", e))?
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.expect("Cannot start before genesis");
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// set up the validator work interval - start at next slot and proceed every slot
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let interval = {
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// Set the interval to start at the next slot, and every slot after
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let slot_duration = Duration::from_secs(service.spec.seconds_per_slot);
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//TODO: Handle checked add correctly
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Interval::new(Instant::now() + duration_to_next_slot, slot_duration)
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};
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/* kick off the core service */
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runtime.block_on(
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interval
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.for_each(move |_| {
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// if a non-fatal error occurs, proceed to the next slot.
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let _ignore_error = service.per_slot_execution();
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// completed a slot process
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Ok(())
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})
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.map_err(|e| format!("Service thread failed: {:?}", e)),
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)?;
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// validator client exited
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Ok(())
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}
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/// The execution logic that runs every slot.
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// Errors are logged to output, and core execution continues unless fatal errors occur.
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fn per_slot_execution(&mut self) -> error_chain::Result<()> {
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/* get the new current slot and epoch */
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self.update_current_slot()?;
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/* check for new duties */
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self.check_for_duties();
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/* process any required duties for validators */
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self.process_duties();
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Ok(())
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}
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/// Updates the known current slot and epoch.
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fn update_current_slot(&mut self) -> error_chain::Result<()> {
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let current_slot = match self.slot_clock.present_slot() {
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Err(e) => {
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error!(self.log, "SystemTimeError {:?}", e);
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return Err("Could not read system time".into());
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}
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Ok(slot) => slot.expect("Genesis is in the future"),
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};
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let current_epoch = current_slot.epoch(self.spec.slots_per_epoch);
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// this is a fatal error. If the slot clock repeats, there is something wrong with
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// the timer, terminate immediately.
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assert!(
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current_slot > self.current_slot,
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"The Timer should poll a new slot"
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);
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self.current_slot = current_slot;
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info!(self.log, "Processing"; "slot" => current_slot.as_u64(), "epoch" => current_epoch.as_u64());
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Ok(())
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}
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/// For all known validator keypairs, update any known duties from the beacon node.
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fn check_for_duties(&mut self) {
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let cloned_manager = self.duties_manager.clone();
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let cloned_log = self.log.clone();
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let current_epoch = self.current_slot.epoch(self.spec.slots_per_epoch);
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// spawn a new thread separate to the runtime
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// TODO: Handle thread termination/timeout
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std::thread::spawn(move || {
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// the return value is a future which returns ready.
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// built to be compatible with the tokio runtime.
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let _empty = cloned_manager.run_update(current_epoch.clone(), cloned_log.clone());
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});
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}
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/// If there are any duties to process, spawn a separate thread and perform required actions.
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fn process_duties(&mut self) {
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if let Some(work) = self.duties_manager.get_current_work(self.current_slot) {
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for (signer_index, work_type) in work {
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if work_type.produce_block {
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// we need to produce a block
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// spawns a thread to produce a beacon block
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let signers = self.duties_manager.signers.clone(); // this is an arc
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let fork = self.fork.clone();
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let slot = self.current_slot.clone();
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let spec = self.spec.clone();
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let beacon_node = self.beacon_block_client.clone();
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let log = self.log.clone();
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std::thread::spawn(move || {
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info!(log, "Producing a block"; "Validator"=> format!("{}", signers[signer_index]));
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let signer = &signers[signer_index];
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let mut block_producer = BlockProducer {
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fork,
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slot,
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spec,
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beacon_node,
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signer,
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};
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block_producer.handle_produce_block(log);
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});
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}
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if work_type.attestation_duty.is_some() {
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// we need to produce an attestation
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// spawns a thread to produce and sign an attestation
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let signers = self.duties_manager.signers.clone(); // this is an arc
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let fork = self.fork.clone();
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let spec = self.spec.clone();
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let beacon_node = self.attestation_client.clone();
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let log = self.log.clone();
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std::thread::spawn(move || {
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info!(log, "Producing an attestation"; "Validator"=> format!("{}", signers[signer_index]));
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let signer = &signers[signer_index];
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let mut attestation_producer = AttestationProducer {
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fork,
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duty: work_type.attestation_duty.expect("Should never be none"),
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spec,
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beacon_node,
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signer,
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};
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attestation_producer.handle_produce_attestation(log);
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});
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}
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}
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}
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}
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}
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