mod epoch_duties; mod grpc; mod service; #[cfg(test)] mod test_node; mod traits; pub use self::epoch_duties::EpochDutiesMap; use self::epoch_duties::{EpochDuties, EpochDutiesMapError}; pub use self::service::DutiesManagerService; use self::traits::{BeaconNode, BeaconNodeError}; use bls::PublicKey; use slot_clock::SlotClock; use std::sync::Arc; use types::ChainSpec; #[derive(Debug, PartialEq, Clone, Copy)] pub enum PollOutcome { /// The `EpochDuties` were not updated during this poll. NoChange(u64), /// The `EpochDuties` for the `epoch` were previously unknown, but obtained in the poll. NewDuties(u64, EpochDuties), /// New `EpochDuties` were obtained, different to those which were previously known. This is /// likely to be the result of chain re-organisation. DutiesChanged(u64, EpochDuties), /// The Beacon Node was unable to return the duties as the validator is unknown, or the /// shuffling for the epoch is unknown. UnknownValidatorOrEpoch(u64), } #[derive(Debug, PartialEq)] pub enum Error { SlotClockError, SlotUnknowable, EpochMapPoisoned, EpochLengthIsZero, BeaconNodeError(BeaconNodeError), } /// A polling state machine which ensures the latest `EpochDuties` are obtained from the Beacon /// Node. /// /// There is a single `DutiesManager` per validator instance. pub struct DutiesManager { pub duties_map: Arc, /// The validator's public key. pub pubkey: PublicKey, pub spec: Arc, pub slot_clock: Arc, pub beacon_node: Arc, } impl DutiesManager { /// Poll the Beacon Node for `EpochDuties`. /// /// The present `epoch` will be learned from the supplied `SlotClock`. In production this will /// be a wall-clock (e.g., system time, remote server time, etc.). pub fn poll(&self) -> Result { let slot = self .slot_clock .present_slot() .map_err(|_| Error::SlotClockError)? .ok_or(Error::SlotUnknowable)?; let epoch = slot .checked_div(self.spec.epoch_length) .ok_or(Error::EpochLengthIsZero)?; if let Some(duties) = self.beacon_node.request_shuffling(epoch, &self.pubkey)? { // If these duties were known, check to see if they're updates or identical. let result = if let Some(known_duties) = self.duties_map.get(epoch)? { if known_duties == duties { Ok(PollOutcome::NoChange(epoch)) } else { Ok(PollOutcome::DutiesChanged(epoch, duties)) } } else { Ok(PollOutcome::NewDuties(epoch, duties)) }; self.duties_map.insert(epoch, duties)?; result } else { Ok(PollOutcome::UnknownValidatorOrEpoch(epoch)) } } } impl From for Error { fn from(e: BeaconNodeError) -> Error { Error::BeaconNodeError(e) } } impl From for Error { fn from(e: EpochDutiesMapError) -> Error { match e { EpochDutiesMapError::Poisoned => Error::EpochMapPoisoned, } } } #[cfg(test)] mod tests { use super::test_node::TestBeaconNode; use super::*; use bls::Keypair; use slot_clock::TestingSlotClock; // TODO: implement more thorough testing. // https://github.com/sigp/lighthouse/issues/160 // // These tests should serve as a good example for future tests. #[test] pub fn polling() { let spec = Arc::new(ChainSpec::foundation()); let duties_map = Arc::new(EpochDutiesMap::new(spec.epoch_length)); let keypair = Keypair::random(); let slot_clock = Arc::new(TestingSlotClock::new(0)); let beacon_node = Arc::new(TestBeaconNode::default()); let manager = DutiesManager { spec: spec.clone(), pubkey: keypair.pk.clone(), duties_map: duties_map.clone(), slot_clock: slot_clock.clone(), beacon_node: beacon_node.clone(), }; // Configure response from the BeaconNode. let duties = EpochDuties { validator_index: 0, block_production_slot: Some(10), }; beacon_node.set_next_shuffling_result(Ok(Some(duties))); // Get the duties for the first time... assert_eq!(manager.poll(), Ok(PollOutcome::NewDuties(0, duties))); // Get the same duties again... assert_eq!(manager.poll(), Ok(PollOutcome::NoChange(0))); // Return new duties. let duties = EpochDuties { validator_index: 0, block_production_slot: Some(11), }; beacon_node.set_next_shuffling_result(Ok(Some(duties))); assert_eq!(manager.poll(), Ok(PollOutcome::DutiesChanged(0, duties))); // Return no duties. beacon_node.set_next_shuffling_result(Ok(None)); assert_eq!(manager.poll(), Ok(PollOutcome::UnknownValidatorOrEpoch(0))); } }