//! Stakes serve as a cache of stake and vote accounts to derive //! node stakes use { crate::{ stake_account, stake_history::StakeHistory, vote_account::{VoteAccount, VoteAccounts}, }, dashmap::DashMap, im::HashMap as ImHashMap, log::error, num_derive::ToPrimitive, num_traits::ToPrimitive, rayon::{prelude::*, ThreadPool}, solana_sdk::{ account::{AccountSharedData, ReadableAccount}, clock::{Epoch, Slot}, pubkey::Pubkey, stake::state::{Delegation, StakeActivationStatus}, }, solana_vote_program::vote_state::VoteState, std::{ collections::{HashMap, HashSet}, ops::Add, sync::{Arc, RwLock, RwLockReadGuard}, }, thiserror::Error, }; #[derive(Debug, Error)] pub enum Error { #[error("Invalid delegation: {0}")] InvalidDelegation(Pubkey), #[error(transparent)] InvalidStakeAccount(#[from] stake_account::Error), #[error("Stake account not found: {0}")] StakeAccountNotFound(Pubkey), #[error("Vote account mismatch: {0}")] VoteAccountMismatch(Pubkey), #[error("Vote account not cached: {0}")] VoteAccountNotCached(Pubkey), #[error("Vote account not found: {0}")] VoteAccountNotFound(Pubkey), } #[derive(Debug, Clone, PartialEq, Eq, ToPrimitive)] pub enum InvalidCacheEntryReason { Missing, BadState, WrongOwner, } type StakeAccount = stake_account::StakeAccount; #[derive(Default, Debug, AbiExample)] pub(crate) struct StakesCache(RwLock>); impl StakesCache { pub(crate) fn new(stakes: Stakes) -> Self { Self(RwLock::new(stakes)) } pub(crate) fn stakes(&self) -> RwLockReadGuard> { self.0.read().unwrap() } pub(crate) fn check_and_store(&self, pubkey: &Pubkey, account: &impl ReadableAccount) { // TODO: If the account is already cached as a vote or stake account // but the owner changes, then this needs to evict the account from // the cache. see: // https://github.com/fair-exchange/safecoin/pull/24200#discussion_r849935444 let owner = account.owner(); // Zero lamport accounts are not stored in accounts-db // and so should be removed from cache as well. if account.lamports() == 0 { if solana_vote_program::check_id(owner) { let mut stakes = self.0.write().unwrap(); stakes.remove_vote_account(pubkey); } else if solana_stake_program::check_id(owner) { let mut stakes = self.0.write().unwrap(); stakes.remove_stake_delegation(pubkey); } return; } debug_assert_ne!(account.lamports(), 0u64); if solana_vote_program::check_id(owner) { if VoteState::is_correct_size_and_initialized(account.data()) { match VoteAccount::try_from(account.to_account_shared_data()) { Ok(vote_account) => { { // Called to eagerly deserialize vote state let _res = vote_account.vote_state(); } let mut stakes = self.0.write().unwrap(); stakes.upsert_vote_account(pubkey, vote_account); } Err(_) => { let mut stakes = self.0.write().unwrap(); stakes.remove_vote_account(pubkey) } } } else { let mut stakes = self.0.write().unwrap(); stakes.remove_vote_account(pubkey) }; } else if solana_stake_program::check_id(owner) { match StakeAccount::try_from(account.to_account_shared_data()) { Ok(stake_account) => { let mut stakes = self.0.write().unwrap(); stakes.upsert_stake_delegation(*pubkey, stake_account); } Err(_) => { let mut stakes = self.0.write().unwrap(); stakes.remove_stake_delegation(pubkey); } } } } pub(crate) fn activate_epoch(&self, next_epoch: Epoch, thread_pool: &ThreadPool) { let mut stakes = self.0.write().unwrap(); stakes.activate_epoch(next_epoch, thread_pool) } pub(crate) fn handle_invalid_keys( &self, invalid_stake_keys: DashMap, invalid_vote_keys: DashMap, current_slot: Slot, ) { if invalid_stake_keys.is_empty() && invalid_vote_keys.is_empty() { return; } // Prune invalid stake delegations and vote accounts that were // not properly evicted in normal operation. let mut stakes = self.0.write().unwrap(); for (stake_pubkey, reason) in invalid_stake_keys { stakes.remove_stake_delegation(&stake_pubkey); datapoint_warn!( "bank-stake_delegation_accounts-invalid-account", ("slot", current_slot as i64, i64), ("stake-address", format!("{:?}", stake_pubkey), String), ("reason", reason.to_i64().unwrap_or_default(), i64), ); } for (vote_pubkey, reason) in invalid_vote_keys { stakes.remove_vote_account(&vote_pubkey); datapoint_warn!( "bank-stake_delegation_accounts-invalid-account", ("slot", current_slot as i64, i64), ("vote-address", format!("{:?}", vote_pubkey), String), ("reason", reason.to_i64().unwrap_or_default(), i64), ); } } } /// The generic type T is either Delegation or StakeAccount. /// Stake is equivalent to the old code and is used for backward /// compatibility in BankFieldsToDeserialize. /// But banks cache Stakes which includes the entire stake /// account and StakeState deserialized from the account. Doing so, will remove /// the need to load the stake account from accounts-db when working with /// stake-delegations. #[derive(Default, Clone, PartialEq, Debug, Deserialize, Serialize, AbiExample)] pub struct Stakes { /// vote accounts vote_accounts: VoteAccounts, /// stake_delegations stake_delegations: ImHashMap, /// unused unused: u64, /// current epoch, used to calculate current stake epoch: Epoch, /// history of staking levels stake_history: StakeHistory, } // For backward compatibility, we can only serialize and deserialize // Stakes. However Bank caches Stakes. This type // mismatch incurs a conversion cost at epoch boundary when updating // EpochStakes. // Below type allows EpochStakes to include either a Stakes or // Stakes and so bypass the conversion cost between the two at the // epoch boundary. #[derive(Debug, AbiExample)] pub enum StakesEnum { Accounts(Stakes), Delegations(Stakes), } impl Stakes { pub fn vote_accounts(&self) -> &VoteAccounts { &self.vote_accounts } pub(crate) fn staked_nodes(&self) -> Arc> { self.vote_accounts.staked_nodes() } } impl Stakes { /// Creates a Stake from Stake by loading the /// full account state for respective stake pubkeys. get_account function /// should return the account at the respective slot where stakes where /// cached. pub(crate) fn new(stakes: &Stakes, get_account: F) -> Result where F: Fn(&Pubkey) -> Option, { let stake_delegations = stakes.stake_delegations.iter().map(|(pubkey, delegation)| { let stake_account = match get_account(pubkey) { None => return Err(Error::StakeAccountNotFound(*pubkey)), Some(account) => account, }; let stake_account = StakeAccount::try_from(stake_account)?; // Sanity check that the delegation is consistent with what is // stored in the account. if stake_account.delegation() == *delegation { Ok((*pubkey, stake_account)) } else { Err(Error::InvalidDelegation(*pubkey)) } }); // Assert that cached vote accounts are consistent with accounts-db. for (pubkey, vote_account) in stakes.vote_accounts.iter() { let account = match get_account(pubkey) { None => return Err(Error::VoteAccountNotFound(*pubkey)), Some(account) => account, }; let vote_account = vote_account.account(); if vote_account != &account { error!("vote account mismatch: {pubkey}, {vote_account:?}, {account:?}"); return Err(Error::VoteAccountMismatch(*pubkey)); } } // Assert that all valid vote-accounts referenced in // stake delegations are already cached. let voter_pubkeys: HashSet = stakes .stake_delegations .values() .map(|delegation| delegation.voter_pubkey) .filter(|voter_pubkey| stakes.vote_accounts.get(voter_pubkey).is_none()) .collect(); for pubkey in voter_pubkeys { let account = match get_account(&pubkey) { None => continue, Some(account) => account, }; if VoteState::is_correct_size_and_initialized(account.data()) && VoteAccount::try_from(account.clone()).is_ok() { error!("vote account not cached: {pubkey}, {account:?}"); return Err(Error::VoteAccountNotCached(pubkey)); } } Ok(Self { vote_accounts: stakes.vote_accounts.clone(), stake_delegations: stake_delegations.collect::>()?, unused: stakes.unused, epoch: stakes.epoch, stake_history: stakes.stake_history.clone(), }) } pub(crate) fn history(&self) -> &StakeHistory { &self.stake_history } fn activate_epoch(&mut self, next_epoch: Epoch, thread_pool: &ThreadPool) { type StakesHashMap = HashMap; fn merge(mut acc: StakesHashMap, other: StakesHashMap) -> StakesHashMap { if acc.len() < other.len() { return merge(other, acc); } for (key, stake) in other { *acc.entry(key).or_default() += stake; } acc } let stake_delegations: Vec<_> = self.stake_delegations.values().collect(); // Wrap up the prev epoch by adding new stake history entry for the // prev epoch. let stake_history_entry = thread_pool.install(|| { stake_delegations .par_iter() .fold(StakeActivationStatus::default, |acc, stake_account| { let delegation = stake_account.delegation(); acc + delegation .stake_activating_and_deactivating(self.epoch, Some(&self.stake_history)) }) .reduce(StakeActivationStatus::default, Add::add) }); self.stake_history.add(self.epoch, stake_history_entry); self.epoch = next_epoch; // Refresh the stake distribution of vote accounts for the next epoch, // using new stake history. let delegated_stakes = thread_pool.install(|| { stake_delegations .par_iter() .fold(HashMap::default, |mut delegated_stakes, stake_account| { let delegation = stake_account.delegation(); let entry = delegated_stakes.entry(delegation.voter_pubkey).or_default(); *entry += delegation.stake(self.epoch, Some(&self.stake_history)); delegated_stakes }) .reduce(HashMap::default, merge) }); self.vote_accounts = self .vote_accounts .iter() .map(|(&vote_pubkey, vote_account)| { let delegated_stake = delegated_stakes .get(&vote_pubkey) .copied() .unwrap_or_default(); (vote_pubkey, (delegated_stake, vote_account.clone())) }) .collect(); } /// Sum the stakes that point to the given voter_pubkey fn calculate_stake( &self, voter_pubkey: &Pubkey, epoch: Epoch, stake_history: &StakeHistory, ) -> u64 { self.stake_delegations .values() .map(StakeAccount::delegation) .filter(|delegation| &delegation.voter_pubkey == voter_pubkey) .map(|delegation| delegation.stake(epoch, Some(stake_history))) .sum() } /// Sum the lamports of the vote accounts and the delegated stake pub(crate) fn vote_balance_and_staked(&self) -> u64 { let get_stake = |stake_account: &StakeAccount| stake_account.delegation().stake; let get_lamports = |(_, vote_account): (_, &VoteAccount)| vote_account.lamports(); self.stake_delegations.values().map(get_stake).sum::() + self.vote_accounts.iter().map(get_lamports).sum::() } fn remove_vote_account(&mut self, vote_pubkey: &Pubkey) { self.vote_accounts.remove(vote_pubkey); } fn remove_stake_delegation(&mut self, stake_pubkey: &Pubkey) { if let Some(stake_account) = self.stake_delegations.remove(stake_pubkey) { let removed_delegation = stake_account.delegation(); let removed_stake = removed_delegation.stake(self.epoch, Some(&self.stake_history)); self.vote_accounts .sub_stake(&removed_delegation.voter_pubkey, removed_stake); } } fn upsert_vote_account(&mut self, vote_pubkey: &Pubkey, vote_account: VoteAccount) { debug_assert_ne!(vote_account.lamports(), 0u64); debug_assert!(vote_account.is_deserialized()); // unconditionally remove existing at first; there is no dependent calculated state for // votes, not like stakes (stake codepath maintains calculated stake value grouped by // delegated vote pubkey) let stake = match self.vote_accounts.remove(vote_pubkey) { None => self.calculate_stake(vote_pubkey, self.epoch, &self.stake_history), Some((stake, _)) => stake, }; let entry = (stake, vote_account); self.vote_accounts.insert(*vote_pubkey, entry); } fn upsert_stake_delegation(&mut self, stake_pubkey: Pubkey, stake_account: StakeAccount) { debug_assert_ne!(stake_account.lamports(), 0u64); let delegation = stake_account.delegation(); let voter_pubkey = delegation.voter_pubkey; let stake = delegation.stake(self.epoch, Some(&self.stake_history)); match self.stake_delegations.insert(stake_pubkey, stake_account) { None => self.vote_accounts.add_stake(&voter_pubkey, stake), Some(old_stake_account) => { let old_delegation = old_stake_account.delegation(); let old_voter_pubkey = old_delegation.voter_pubkey; let old_stake = old_delegation.stake(self.epoch, Some(&self.stake_history)); if voter_pubkey != old_voter_pubkey || stake != old_stake { self.vote_accounts.sub_stake(&old_voter_pubkey, old_stake); self.vote_accounts.add_stake(&voter_pubkey, stake); } } } } pub(crate) fn stake_delegations(&self) -> &ImHashMap { &self.stake_delegations } pub(crate) fn highest_staked_node(&self) -> Option { let vote_account = self.vote_accounts.find_max_by_delegated_stake()?; vote_account.node_pubkey() } } impl StakesEnum { pub fn vote_accounts(&self) -> &VoteAccounts { match self { StakesEnum::Accounts(stakes) => stakes.vote_accounts(), StakesEnum::Delegations(stakes) => stakes.vote_accounts(), } } pub(crate) fn staked_nodes(&self) -> Arc> { match self { StakesEnum::Accounts(stakes) => stakes.staked_nodes(), StakesEnum::Delegations(stakes) => stakes.staked_nodes(), } } } impl From> for Stakes { fn from(stakes: Stakes) -> Self { let stake_delegations = stakes .stake_delegations .into_iter() .map(|(pubkey, stake_account)| (pubkey, stake_account.delegation())) .collect(); Self { vote_accounts: stakes.vote_accounts, stake_delegations, unused: stakes.unused, epoch: stakes.epoch, stake_history: stakes.stake_history, } } } impl From> for StakesEnum { fn from(stakes: Stakes) -> Self { Self::Accounts(stakes) } } impl From> for StakesEnum { fn from(stakes: Stakes) -> Self { Self::Delegations(stakes) } } // Two StakesEnums are equal as long as they represent the same delegations; // whether these delegations are stored as StakeAccounts or Delegations. // Therefore, if one side is Stakes and the other is a // Stakes we convert the former one to Stakes before // comparing for equality. impl PartialEq for StakesEnum { fn eq(&self, other: &StakesEnum) -> bool { match (self, other) { (Self::Accounts(stakes), Self::Accounts(other)) => stakes == other, (Self::Accounts(stakes), Self::Delegations(other)) => { let stakes = Stakes::::from(stakes.clone()); &stakes == other } (Self::Delegations(stakes), Self::Accounts(other)) => { let other = Stakes::::from(other.clone()); stakes == &other } (Self::Delegations(stakes), Self::Delegations(other)) => stakes == other, } } } // In order to maintain backward compatibility, the StakesEnum in EpochStakes // and SerializableVersionedBank should be serialized as Stakes. pub(crate) mod serde_stakes_enum_compat { use { super::*, serde::{Deserialize, Deserializer, Serialize, Serializer}, }; pub(crate) fn serialize(stakes: &StakesEnum, serializer: S) -> Result where S: Serializer, { match stakes { StakesEnum::Accounts(stakes) => { let stakes = Stakes::::from(stakes.clone()); stakes.serialize(serializer) } StakesEnum::Delegations(stakes) => stakes.serialize(serializer), } } pub(crate) fn deserialize<'de, D>(deserializer: D) -> Result, D::Error> where D: Deserializer<'de>, { let stakes = Stakes::::deserialize(deserializer)?; Ok(Arc::new(StakesEnum::Delegations(stakes))) } } #[cfg(test)] pub(crate) mod tests { use { super::*, rand::Rng, rayon::ThreadPoolBuilder, solana_sdk::{account::WritableAccount, pubkey::Pubkey, rent::Rent, stake}, solana_stake_program::stake_state, solana_vote_program::vote_state::{self, VoteState, VoteStateVersions}, }; // set up some dummies for a staked node (( vote ) ( stake )) pub(crate) fn create_staked_node_accounts( stake: u64, ) -> ((Pubkey, AccountSharedData), (Pubkey, AccountSharedData)) { let vote_pubkey = solana_sdk::pubkey::new_rand(); let vote_account = vote_state::create_account(&vote_pubkey, &solana_sdk::pubkey::new_rand(), 0, 1); ( (vote_pubkey, vote_account), create_stake_account(stake, &vote_pubkey), ) } // add stake to a vote_pubkey ( stake ) pub(crate) fn create_stake_account( stake: u64, vote_pubkey: &Pubkey, ) -> (Pubkey, AccountSharedData) { let stake_pubkey = solana_sdk::pubkey::new_rand(); ( stake_pubkey, stake_state::create_account( &stake_pubkey, vote_pubkey, &vote_state::create_account(vote_pubkey, &solana_sdk::pubkey::new_rand(), 0, 1), &Rent::free(), stake, ), ) } fn create_warming_staked_node_accounts( stake: u64, epoch: Epoch, ) -> ((Pubkey, AccountSharedData), (Pubkey, AccountSharedData)) { let vote_pubkey = solana_sdk::pubkey::new_rand(); let vote_account = vote_state::create_account(&vote_pubkey, &solana_sdk::pubkey::new_rand(), 0, 1); ( (vote_pubkey, vote_account), create_warming_stake_account(stake, epoch, &vote_pubkey), ) } // add stake to a vote_pubkey ( stake ) fn create_warming_stake_account( stake: u64, epoch: Epoch, vote_pubkey: &Pubkey, ) -> (Pubkey, AccountSharedData) { let stake_pubkey = solana_sdk::pubkey::new_rand(); ( stake_pubkey, stake_state::create_account_with_activation_epoch( &stake_pubkey, vote_pubkey, &vote_state::create_account(vote_pubkey, &solana_sdk::pubkey::new_rand(), 0, 1), &Rent::free(), stake, epoch, ), ) } #[test] fn test_stakes_basic() { for i in 0..4 { let stakes_cache = StakesCache::new(Stakes { epoch: i, ..Stakes::default() }); let ((vote_pubkey, vote_account), (stake_pubkey, mut stake_account)) = create_staked_node_accounts(10); stakes_cache.check_and_store(&vote_pubkey, &vote_account); stakes_cache.check_and_store(&stake_pubkey, &stake_account); let stake = stake_state::stake_from(&stake_account).unwrap(); { let stakes = stakes_cache.stakes(); let vote_accounts = stakes.vote_accounts(); assert!(vote_accounts.get(&vote_pubkey).is_some()); assert_eq!( vote_accounts.get_delegated_stake(&vote_pubkey), stake.stake(i, None) ); } stake_account.set_lamports(42); stakes_cache.check_and_store(&stake_pubkey, &stake_account); { let stakes = stakes_cache.stakes(); let vote_accounts = stakes.vote_accounts(); assert!(vote_accounts.get(&vote_pubkey).is_some()); assert_eq!( vote_accounts.get_delegated_stake(&vote_pubkey), stake.stake(i, None) ); // stays old stake, because only 10 is activated } // activate more let (_stake_pubkey, mut stake_account) = create_stake_account(42, &vote_pubkey); stakes_cache.check_and_store(&stake_pubkey, &stake_account); let stake = stake_state::stake_from(&stake_account).unwrap(); { let stakes = stakes_cache.stakes(); let vote_accounts = stakes.vote_accounts(); assert!(vote_accounts.get(&vote_pubkey).is_some()); assert_eq!( vote_accounts.get_delegated_stake(&vote_pubkey), stake.stake(i, None) ); // now stake of 42 is activated } stake_account.set_lamports(0); stakes_cache.check_and_store(&stake_pubkey, &stake_account); { let stakes = stakes_cache.stakes(); let vote_accounts = stakes.vote_accounts(); assert!(vote_accounts.get(&vote_pubkey).is_some()); assert_eq!(vote_accounts.get_delegated_stake(&vote_pubkey), 0); } } } #[test] fn test_stakes_highest() { let stakes_cache = StakesCache::default(); assert_eq!(stakes_cache.stakes().highest_staked_node(), None); let ((vote_pubkey, vote_account), (stake_pubkey, stake_account)) = create_staked_node_accounts(10); stakes_cache.check_and_store(&vote_pubkey, &vote_account); stakes_cache.check_and_store(&stake_pubkey, &stake_account); let ((vote11_pubkey, vote11_account), (stake11_pubkey, stake11_account)) = create_staked_node_accounts(20); stakes_cache.check_and_store(&vote11_pubkey, &vote11_account); stakes_cache.check_and_store(&stake11_pubkey, &stake11_account); let vote11_node_pubkey = VoteState::from(&vote11_account).unwrap().node_pubkey; let highest_staked_node = stakes_cache.stakes().highest_staked_node(); assert_eq!(highest_staked_node, Some(vote11_node_pubkey)); } #[test] fn test_stakes_vote_account_disappear_reappear() { let stakes_cache = StakesCache::new(Stakes { epoch: 4, ..Stakes::default() }); let ((vote_pubkey, mut vote_account), (stake_pubkey, stake_account)) = create_staked_node_accounts(10); stakes_cache.check_and_store(&vote_pubkey, &vote_account); stakes_cache.check_and_store(&stake_pubkey, &stake_account); { let stakes = stakes_cache.stakes(); let vote_accounts = stakes.vote_accounts(); assert!(vote_accounts.get(&vote_pubkey).is_some()); assert_eq!(vote_accounts.get_delegated_stake(&vote_pubkey), 10); } vote_account.set_lamports(0); stakes_cache.check_and_store(&vote_pubkey, &vote_account); { let stakes = stakes_cache.stakes(); let vote_accounts = stakes.vote_accounts(); assert!(vote_accounts.get(&vote_pubkey).is_none()); assert_eq!(vote_accounts.get_delegated_stake(&vote_pubkey), 0); } vote_account.set_lamports(1); stakes_cache.check_and_store(&vote_pubkey, &vote_account); { let stakes = stakes_cache.stakes(); let vote_accounts = stakes.vote_accounts(); assert!(vote_accounts.get(&vote_pubkey).is_some()); assert_eq!(vote_accounts.get_delegated_stake(&vote_pubkey), 10); } // Vote account too big let cache_data = vote_account.data().to_vec(); let mut pushed = vote_account.data().to_vec(); pushed.push(0); vote_account.set_data(pushed); stakes_cache.check_and_store(&vote_pubkey, &vote_account); { let stakes = stakes_cache.stakes(); let vote_accounts = stakes.vote_accounts(); assert!(vote_accounts.get(&vote_pubkey).is_none()); assert_eq!(vote_accounts.get_delegated_stake(&vote_pubkey), 0); } // Vote account uninitialized let default_vote_state = VoteState::default(); let versioned = VoteStateVersions::new_current(default_vote_state); VoteState::to(&versioned, &mut vote_account).unwrap(); stakes_cache.check_and_store(&vote_pubkey, &vote_account); { let stakes = stakes_cache.stakes(); let vote_accounts = stakes.vote_accounts(); assert!(vote_accounts.get(&vote_pubkey).is_none()); assert_eq!(vote_accounts.get_delegated_stake(&vote_pubkey), 0); } vote_account.set_data(cache_data); stakes_cache.check_and_store(&vote_pubkey, &vote_account); { let stakes = stakes_cache.stakes(); let vote_accounts = stakes.vote_accounts(); assert!(vote_accounts.get(&vote_pubkey).is_some()); assert_eq!(vote_accounts.get_delegated_stake(&vote_pubkey), 10); } } #[test] fn test_stakes_change_delegate() { let stakes_cache = StakesCache::new(Stakes { epoch: 4, ..Stakes::default() }); let ((vote_pubkey, vote_account), (stake_pubkey, stake_account)) = create_staked_node_accounts(10); let ((vote_pubkey2, vote_account2), (_stake_pubkey2, stake_account2)) = create_staked_node_accounts(10); stakes_cache.check_and_store(&vote_pubkey, &vote_account); stakes_cache.check_and_store(&vote_pubkey2, &vote_account2); // delegates to vote_pubkey stakes_cache.check_and_store(&stake_pubkey, &stake_account); let stake = stake_state::stake_from(&stake_account).unwrap(); { let stakes = stakes_cache.stakes(); let vote_accounts = stakes.vote_accounts(); assert!(vote_accounts.get(&vote_pubkey).is_some()); assert_eq!( vote_accounts.get_delegated_stake(&vote_pubkey), stake.stake(stakes.epoch, Some(&stakes.stake_history)) ); assert!(vote_accounts.get(&vote_pubkey2).is_some()); assert_eq!(vote_accounts.get_delegated_stake(&vote_pubkey2), 0); } // delegates to vote_pubkey2 stakes_cache.check_and_store(&stake_pubkey, &stake_account2); { let stakes = stakes_cache.stakes(); let vote_accounts = stakes.vote_accounts(); assert!(vote_accounts.get(&vote_pubkey).is_some()); assert_eq!(vote_accounts.get_delegated_stake(&vote_pubkey), 0); assert!(vote_accounts.get(&vote_pubkey2).is_some()); assert_eq!( vote_accounts.get_delegated_stake(&vote_pubkey2), stake.stake(stakes.epoch, Some(&stakes.stake_history)) ); } } #[test] fn test_stakes_multiple_stakers() { let stakes_cache = StakesCache::new(Stakes { epoch: 4, ..Stakes::default() }); let ((vote_pubkey, vote_account), (stake_pubkey, stake_account)) = create_staked_node_accounts(10); let (stake_pubkey2, stake_account2) = create_stake_account(10, &vote_pubkey); stakes_cache.check_and_store(&vote_pubkey, &vote_account); // delegates to vote_pubkey stakes_cache.check_and_store(&stake_pubkey, &stake_account); stakes_cache.check_and_store(&stake_pubkey2, &stake_account2); { let stakes = stakes_cache.stakes(); let vote_accounts = stakes.vote_accounts(); assert!(vote_accounts.get(&vote_pubkey).is_some()); assert_eq!(vote_accounts.get_delegated_stake(&vote_pubkey), 20); } } #[test] fn test_activate_epoch() { let stakes_cache = StakesCache::default(); let ((vote_pubkey, vote_account), (stake_pubkey, stake_account)) = create_staked_node_accounts(10); stakes_cache.check_and_store(&vote_pubkey, &vote_account); stakes_cache.check_and_store(&stake_pubkey, &stake_account); let stake = stake_state::stake_from(&stake_account).unwrap(); { let stakes = stakes_cache.stakes(); let vote_accounts = stakes.vote_accounts(); assert_eq!( vote_accounts.get_delegated_stake(&vote_pubkey), stake.stake(stakes.epoch, Some(&stakes.stake_history)) ); } let thread_pool = ThreadPoolBuilder::new().num_threads(1).build().unwrap(); stakes_cache.activate_epoch(3, &thread_pool); { let stakes = stakes_cache.stakes(); let vote_accounts = stakes.vote_accounts(); assert_eq!( vote_accounts.get_delegated_stake(&vote_pubkey), stake.stake(stakes.epoch, Some(&stakes.stake_history)) ); } } #[test] fn test_stakes_not_delegate() { let stakes_cache = StakesCache::new(Stakes { epoch: 4, ..Stakes::default() }); let ((vote_pubkey, vote_account), (stake_pubkey, stake_account)) = create_staked_node_accounts(10); stakes_cache.check_and_store(&vote_pubkey, &vote_account); stakes_cache.check_and_store(&stake_pubkey, &stake_account); { let stakes = stakes_cache.stakes(); let vote_accounts = stakes.vote_accounts(); assert!(vote_accounts.get(&vote_pubkey).is_some()); assert_eq!(vote_accounts.get_delegated_stake(&vote_pubkey), 10); } // not a stake account, and whacks above entry stakes_cache.check_and_store( &stake_pubkey, &AccountSharedData::new(1, 0, &stake::program::id()), ); { let stakes = stakes_cache.stakes(); let vote_accounts = stakes.vote_accounts(); assert!(vote_accounts.get(&vote_pubkey).is_some()); assert_eq!(vote_accounts.get_delegated_stake(&vote_pubkey), 0); } } #[test] fn test_vote_balance_and_staked_empty() { let stakes = Stakes::::default(); assert_eq!(stakes.vote_balance_and_staked(), 0); } #[test] fn test_vote_balance_and_staked_normal() { let stakes_cache = StakesCache::default(); impl Stakes { fn vote_balance_and_warmed_staked(&self) -> u64 { let vote_balance: u64 = self .vote_accounts .iter() .map(|(_pubkey, account)| account.lamports()) .sum(); let warmed_stake: u64 = self .vote_accounts .delegated_stakes() .map(|(_pubkey, stake)| stake) .sum(); vote_balance + warmed_stake } } let genesis_epoch = 0; let ((vote_pubkey, vote_account), (stake_pubkey, stake_account)) = create_warming_staked_node_accounts(10, genesis_epoch); stakes_cache.check_and_store(&vote_pubkey, &vote_account); stakes_cache.check_and_store(&stake_pubkey, &stake_account); { let stakes = stakes_cache.stakes(); assert_eq!(stakes.vote_balance_and_staked(), 11); assert_eq!(stakes.vote_balance_and_warmed_staked(), 1); } let thread_pool = ThreadPoolBuilder::new().num_threads(1).build().unwrap(); for (epoch, expected_warmed_stake) in ((genesis_epoch + 1)..=3).zip(&[2, 3, 4]) { stakes_cache.activate_epoch(epoch, &thread_pool); // vote_balance_and_staked() always remain to return same lamports // while vote_balance_and_warmed_staked() gradually increases let stakes = stakes_cache.stakes(); assert_eq!(stakes.vote_balance_and_staked(), 11); assert_eq!( stakes.vote_balance_and_warmed_staked(), *expected_warmed_stake ); } } #[test] fn test_serde_stakes_enum_compat() { #[derive(Debug, PartialEq, Deserialize, Serialize)] struct Dummy { head: String, #[serde(with = "serde_stakes_enum_compat")] stakes: Arc, tail: String, } let mut rng = rand::thread_rng(); let stakes_cache = StakesCache::new(Stakes { unused: rng.gen(), epoch: rng.gen(), ..Stakes::default() }); for _ in 0..rng.gen_range(5usize, 10) { let vote_pubkey = solana_sdk::pubkey::new_rand(); let vote_account = vote_state::create_account( &vote_pubkey, &solana_sdk::pubkey::new_rand(), // node_pubkey rng.gen_range(0, 101), // commission rng.gen_range(0, 1_000_000), // lamports ); stakes_cache.check_and_store(&vote_pubkey, &vote_account); for _ in 0..rng.gen_range(10usize, 20) { let stake_pubkey = solana_sdk::pubkey::new_rand(); let rent = Rent::with_slots_per_epoch(rng.gen()); let stake_account = stake_state::create_account( &stake_pubkey, // authorized &vote_pubkey, &vote_account, &rent, rng.gen_range(0, 1_000_000), // lamports ); stakes_cache.check_and_store(&stake_pubkey, &stake_account); } } let stakes: Stakes = stakes_cache.stakes().clone(); assert!(stakes.vote_accounts.as_ref().len() >= 5); assert!(stakes.stake_delegations.len() >= 50); let dummy = Dummy { head: String::from("dummy-head"), stakes: Arc::new(StakesEnum::from(stakes.clone())), tail: String::from("dummy-tail"), }; assert!(dummy.stakes.vote_accounts().as_ref().len() >= 5); let data = bincode::serialize(&dummy).unwrap(); let other: Dummy = bincode::deserialize(&data).unwrap(); assert_eq!(other, dummy); let stakes = Stakes::::from(stakes); assert!(stakes.vote_accounts.as_ref().len() >= 5); assert!(stakes.stake_delegations.len() >= 50); let other = match &*other.stakes { StakesEnum::Accounts(_) => panic!("wrong type!"), StakesEnum::Delegations(delegations) => delegations, }; assert_eq!(other, &stakes) } }