use crate::metrics; use lru::LruCache; use types::{beacon_state::CommitteeCache, Epoch, Hash256, ShufflingId}; /// The size of the LRU cache that stores committee caches for quicker verification. /// /// Each entry should be `8 + 800,000 = 800,008` bytes in size with 100k validators. (8-byte hash + /// 100k indices). Therefore, this cache should be approx `16 * 800,008 = 12.8 MB`. (Note: this /// ignores a few extra bytes in the caches that should be insignificant compared to the indices). const CACHE_SIZE: usize = 16; /// Provides an LRU cache for `CommitteeCache`. /// /// It has been named `ShufflingCache` because `CommitteeCacheCache` is a bit weird and looks like /// a find/replace error. pub struct ShufflingCache { cache: LruCache, } impl ShufflingCache { pub fn new() -> Self { Self { cache: LruCache::new(CACHE_SIZE), } } pub fn get(&mut self, key: &ShufflingId) -> Option<&CommitteeCache> { let opt = self.cache.get(key); if opt.is_some() { metrics::inc_counter(&metrics::SHUFFLING_CACHE_HITS); } else { metrics::inc_counter(&metrics::SHUFFLING_CACHE_MISSES); } opt } pub fn contains(&self, key: &ShufflingId) -> bool { self.cache.contains(key) } pub fn insert(&mut self, key: ShufflingId, committee_cache: &CommitteeCache) { if !self.cache.contains(&key) { self.cache.put(key, committee_cache.clone()); } } } /// Contains the shuffling IDs for a beacon block. pub struct BlockShufflingIds { pub current: ShufflingId, pub next: ShufflingId, pub block_root: Hash256, } impl BlockShufflingIds { /// Returns the shuffling ID for the given epoch. /// /// Returns `None` if `epoch` is prior to `self.current.shuffling_epoch`. pub fn id_for_epoch(&self, epoch: Epoch) -> Option { if epoch == self.current.shuffling_epoch { Some(self.current.clone()) } else if epoch == self.next.shuffling_epoch { Some(self.next.clone()) } else if epoch > self.next.shuffling_epoch { Some(ShufflingId::from_components(epoch, self.block_root)) } else { None } } }