use { super::EpochAccountsHash, solana_sdk::clock::Slot, std::sync::{Condvar, Mutex}, }; /// Manage the epoch accounts hash /// /// Handles setting when an EAH calculation is requested and when it completes. Also handles /// waiting for in-flight calculations to complete when the "stop" Bank must include it. #[derive(Debug)] pub struct Manager { /// Current state of the epoch accounts hash state: Mutex, /// This condition variable is used to wait for an in-flight EAH calculation to complete cvar: Condvar, } impl Manager { #[must_use] fn _new(state: State) -> Self { Self { state: Mutex::new(state), cvar: Condvar::new(), } } /// Create a new epoch accounts hash manager, with the initial state set to Invalid #[must_use] pub fn new_invalid() -> Self { Self::_new(State::Invalid) } /// Create a new epoch accounts hash manager, with the initial state set to Valid #[must_use] pub fn new_valid(epoch_accounts_hash: EpochAccountsHash, slot: Slot) -> Self { Self::_new(State::Valid(epoch_accounts_hash, slot)) } /// An epoch accounts hash calculation has been requested; update our state pub fn set_in_flight(&self, slot: Slot) { let mut state = self.state.lock().unwrap(); if let State::InFlight(old_slot) = &*state { panic!("An epoch accounts hash calculation is already in-flight from slot {old_slot}!"); } *state = State::InFlight(slot); } /// An epoch accounts hash calculation has completed; update our state pub fn set_valid(&self, epoch_accounts_hash: EpochAccountsHash, slot: Slot) { let mut state = self.state.lock().unwrap(); if let State::Valid(old_epoch_accounts_hash, old_slot) = &*state { panic!( "The epoch accounts hash is already valid! \ \nold slot: {old_slot}, epoch accounts hash: {old_epoch_accounts_hash:?} \ \nnew slot: {slot}, epoch accounts hash: {epoch_accounts_hash:?}" ); } *state = State::Valid(epoch_accounts_hash, slot); self.cvar.notify_all(); } /// Get the epoch accounts hash /// /// If an EAH calculation is in-flight, then this call will block until it completes. pub fn wait_get_epoch_accounts_hash(&self) -> EpochAccountsHash { let mut state = self.state.lock().unwrap(); loop { match &*state { State::Valid(epoch_accounts_hash, _slot) => break *epoch_accounts_hash, State::InFlight(_slot) => state = self.cvar.wait(state).unwrap(), State::Invalid => panic!("The epoch accounts hash cannot be awaited when Invalid!"), } } } /// Get the epoch accounts hash /// /// This fn does not block, and will only yield an EAH if the state is `Valid` pub fn try_get_epoch_accounts_hash(&self) -> Option { let state = self.state.lock().unwrap(); match &*state { State::Valid(epoch_accounts_hash, _slot) => Some(*epoch_accounts_hash), _ => None, } } } /// The EpochAccountsHash is calculated in the background via AccountsBackgroundService. This enum /// is used to track the state of that calculation, and queried when saving the EAH into a Bank or /// Snapshot. #[derive(Debug, Clone, Copy, PartialEq, Eq)] enum State { /// The initial state of the EAH. This can occur when loading from a snapshot that does not /// include an EAH, or when starting from genesis (before an EAH calculation is requested). Invalid, /// An EAH calculation has been requested (for `Slot`) and is in flight. The Bank that should /// save the EAH must wait until the calculation has completed. InFlight(Slot), /// The EAH calculation is complete (for `Slot`) and the EAH value is valid to read/use. Valid(EpochAccountsHash, Slot), } #[cfg(test)] mod tests { use {super::*, solana_sdk::hash::Hash, std::time::Duration}; #[test] fn test_new_valid() { let epoch_accounts_hash = EpochAccountsHash::new(Hash::new_unique()); let manager = Manager::new_valid(epoch_accounts_hash, 5678); assert_eq!( manager.try_get_epoch_accounts_hash(), Some(epoch_accounts_hash), ); assert_eq!(manager.wait_get_epoch_accounts_hash(), epoch_accounts_hash); } #[test] fn test_new_invalid() { let manager = Manager::new_invalid(); assert!(manager.try_get_epoch_accounts_hash().is_none()); } #[test] fn test_try_get_epoch_accounts_hash() { let epoch_accounts_hash = EpochAccountsHash::new(Hash::new_unique()); for (state, expected) in [ (State::Invalid, None), (State::InFlight(123), None), ( State::Valid(epoch_accounts_hash, 5678), Some(epoch_accounts_hash), ), ] { let manager = Manager::_new(state); let actual = manager.try_get_epoch_accounts_hash(); assert_eq!(actual, expected); } } #[test] fn test_wait_epoch_accounts_hash() { // Test: State is Valid, no need to wait { let epoch_accounts_hash = EpochAccountsHash::new(Hash::new_unique()); let manager = Manager::new_valid(epoch_accounts_hash, 5678); assert_eq!(manager.wait_get_epoch_accounts_hash(), epoch_accounts_hash); } // Test: State is InFlight, must wait { let epoch_accounts_hash = EpochAccountsHash::new(Hash::new_unique()); let manager = Manager::new_invalid(); manager.set_in_flight(123); std::thread::scope(|s| { s.spawn(|| { std::thread::sleep(Duration::from_secs(1)); manager.set_valid(epoch_accounts_hash, 5678) }); assert!(manager.try_get_epoch_accounts_hash().is_none()); assert_eq!(manager.wait_get_epoch_accounts_hash(), epoch_accounts_hash); assert!(manager.try_get_epoch_accounts_hash().is_some()); }); } } #[test] #[should_panic] fn test_wait_epoch_accounts_hash_invalid() { // Test: State is Invalid, should panic let manager = Manager::new_invalid(); let _epoch_accounts_hash = manager.wait_get_epoch_accounts_hash(); } }