//! The `bank_forks` module implements BankForks a DAG of checkpointed Banks use crate::snapshot_package::{AccountsPackageSendError, AccountsPackageSender}; use crate::snapshot_utils::{self, SnapshotError}; use crate::{bank::Bank, status_cache::MAX_CACHE_ENTRIES}; use log::*; use solana_measure::measure::Measure; use solana_metrics::inc_new_counter_info; use solana_sdk::{clock::Slot, timing}; use std::{ collections::{HashMap, HashSet}, ops::Index, path::PathBuf, sync::Arc, time::Instant, }; use thiserror::Error; pub use crate::snapshot_utils::SnapshotVersion; #[derive(Clone, Debug, Eq, PartialEq)] pub enum CompressionType { Bzip2, Gzip, Zstd, NoCompression, } #[derive(Clone, Debug, Eq, PartialEq)] pub struct SnapshotConfig { // Generate a new snapshot every this many slots pub snapshot_interval_slots: u64, // Where to store the latest packaged snapshot pub snapshot_package_output_path: PathBuf, // Where to place the snapshots for recent slots pub snapshot_path: PathBuf, pub compression: CompressionType, // Snapshot version to generate pub snapshot_version: SnapshotVersion, } #[derive(Error, Debug)] pub enum BankForksError { #[error("snapshot error")] SnapshotError(#[from] SnapshotError), #[error("accounts package send error")] AccountsPackageSendError(#[from] AccountsPackageSendError), } type Result = std::result::Result; pub struct BankForks { pub banks: HashMap>, root: Slot, pub snapshot_config: Option, last_snapshot_slot: Slot, pub accounts_hash_interval_slots: Slot, last_accounts_hash_slot: Slot, } impl Index for BankForks { type Output = Arc; fn index(&self, bank_slot: Slot) -> &Self::Output { &self.banks[&bank_slot] } } impl BankForks { pub fn new(bank: Bank) -> Self { let root = bank.slot(); Self::new_from_banks(&[Arc::new(bank)], root) } /// Create a map of bank slot id to the set of ancestors for the bank slot. pub fn ancestors(&self) -> HashMap> { let mut ancestors = HashMap::new(); let root = self.root; for bank in self.banks.values() { let mut set: HashSet = bank .ancestors .keys() .filter(|k| **k >= root) .cloned() .collect(); set.remove(&bank.slot()); ancestors.insert(bank.slot(), set); } ancestors } /// Create a map of bank slot id to the set of all of its descendants #[allow(clippy::or_fun_call)] pub fn descendants(&self) -> HashMap> { let mut descendants = HashMap::new(); for bank in self.banks.values() { let _ = descendants.entry(bank.slot()).or_insert(HashSet::new()); let mut set: HashSet = bank.ancestors.keys().cloned().collect(); set.remove(&bank.slot()); for parent in set { descendants .entry(parent) .or_insert(HashSet::new()) .insert(bank.slot()); } } descendants } pub fn frozen_banks(&self) -> HashMap> { self.banks .iter() .filter(|(_, b)| b.is_frozen()) .map(|(k, b)| (*k, b.clone())) .collect() } pub fn active_banks(&self) -> Vec { self.banks .iter() .filter(|(_, v)| !v.is_frozen()) .map(|(k, _v)| *k) .collect() } pub fn get(&self, bank_slot: Slot) -> Option<&Arc> { self.banks.get(&bank_slot) } pub fn root_bank(&self) -> &Arc { &self[self.root()] } pub fn new_from_banks(initial_forks: &[Arc], root: Slot) -> Self { let mut banks = HashMap::new(); // Iterate through the heads of all the different forks for bank in initial_forks { banks.insert(bank.slot(), bank.clone()); let parents = bank.parents(); for parent in parents { if banks.contains_key(&parent.slot()) { // All ancestors have already been inserted by another fork break; } banks.insert(parent.slot(), parent.clone()); } } Self { root, banks, snapshot_config: None, last_snapshot_slot: root, accounts_hash_interval_slots: std::u64::MAX, last_accounts_hash_slot: root, } } pub fn insert(&mut self, bank: Bank) -> Arc { let bank = Arc::new(bank); let prev = self.banks.insert(bank.slot(), bank.clone()); assert!(prev.is_none()); bank } pub fn remove(&mut self, slot: Slot) -> Option> { self.banks.remove(&slot) } pub fn highest_slot(&self) -> Slot { self.banks.values().map(|bank| bank.slot()).max().unwrap() } pub fn working_bank(&self) -> Arc { self[self.highest_slot()].clone() } pub fn set_root( &mut self, root: Slot, accounts_package_sender: &Option, largest_confirmed_root: Option, ) { let old_epoch = self.root_bank().epoch(); self.root = root; let set_root_start = Instant::now(); let root_bank = self .banks .get(&root) .expect("root bank didn't exist in bank_forks"); let new_epoch = root_bank.epoch(); if old_epoch != new_epoch { info!( "Root entering epoch: {}, next_epoch_start_slot: {}, epoch_stakes: {:#?}", new_epoch, root_bank .epoch_schedule() .get_first_slot_in_epoch(new_epoch + 1), root_bank .epoch_stakes(new_epoch) .unwrap() .node_id_to_vote_accounts() ); } let root_tx_count = root_bank .parents() .last() .map(|bank| bank.transaction_count()) .unwrap_or(0); // Calculate the accounts hash at a fixed interval let mut is_root_bank_squashed = false; let mut banks = vec![root_bank]; let parents = root_bank.parents(); banks.extend(parents.iter()); for bank in banks.iter() { let bank_slot = bank.slot(); if bank.block_height() % self.accounts_hash_interval_slots == 0 && bank_slot > self.last_accounts_hash_slot { self.last_accounts_hash_slot = bank_slot; bank.squash(); is_root_bank_squashed = bank_slot == root; bank.clean_accounts(); bank.update_accounts_hash(); if self.snapshot_config.is_some() && accounts_package_sender.is_some() { // Generate an accounts package let mut snapshot_time = Measure::start("total-snapshot-ms"); let r = self.generate_accounts_package( bank_slot, &bank.src.roots(), accounts_package_sender.as_ref().unwrap(), ); if r.is_err() { warn!( "Error generating snapshot for bank: {}, err: {:?}", bank_slot, r ); } else { self.last_snapshot_slot = bank_slot; } // Cleanup outdated snapshots self.purge_old_snapshots(); snapshot_time.stop(); inc_new_counter_info!("total-snapshot-ms", snapshot_time.as_ms() as usize); } break; } } if !is_root_bank_squashed { root_bank.squash(); } let new_tx_count = root_bank.transaction_count(); self.prune_non_root(root, largest_confirmed_root); inc_new_counter_info!( "bank-forks_set_root_ms", timing::duration_as_ms(&set_root_start.elapsed()) as usize ); inc_new_counter_info!( "bank-forks_set_root_tx_count", (new_tx_count - root_tx_count) as usize ); } pub fn root(&self) -> Slot { self.root } pub fn purge_old_snapshots(&self) { // Remove outdated snapshots let config = self.snapshot_config.as_ref().unwrap(); let slot_snapshot_paths = snapshot_utils::get_snapshot_paths(&config.snapshot_path); let num_to_remove = slot_snapshot_paths.len().saturating_sub(MAX_CACHE_ENTRIES); for slot_files in &slot_snapshot_paths[..num_to_remove] { let r = snapshot_utils::remove_snapshot(slot_files.slot, &config.snapshot_path); if r.is_err() { warn!("Couldn't remove snapshot at: {:?}", config.snapshot_path); } } } pub fn generate_accounts_package( &self, root: Slot, slots_to_snapshot: &[Slot], accounts_package_sender: &AccountsPackageSender, ) -> Result<()> { let config = self.snapshot_config.as_ref().unwrap(); // Add a snapshot for the new root let bank = self .get(root) .cloned() .expect("root must exist in BankForks"); let storages: Vec<_> = bank.get_snapshot_storages(); let mut add_snapshot_time = Measure::start("add-snapshot-ms"); snapshot_utils::add_snapshot( &config.snapshot_path, &bank, &storages, config.snapshot_version, )?; add_snapshot_time.stop(); inc_new_counter_info!("add-snapshot-ms", add_snapshot_time.as_ms() as usize); // Package the relevant snapshots let slot_snapshot_paths = snapshot_utils::get_snapshot_paths(&config.snapshot_path); let latest_slot_snapshot_paths = slot_snapshot_paths .last() .expect("no snapshots found in config snapshot_path"); // We only care about the last bank's snapshot. // We'll ask the bank for MAX_CACHE_ENTRIES (on the rooted path) worth of statuses let package = snapshot_utils::package_snapshot( &bank, latest_slot_snapshot_paths, &config.snapshot_path, slots_to_snapshot, &config.snapshot_package_output_path, storages, config.compression.clone(), config.snapshot_version, )?; accounts_package_sender.send(package)?; Ok(()) } fn prune_non_root(&mut self, root: Slot, largest_confirmed_root: Option) { let descendants = self.descendants(); self.banks.retain(|slot, _| { *slot == root || descendants[&root].contains(slot) || (*slot < root && *slot >= largest_confirmed_root.unwrap_or(root) && descendants[slot].contains(&root)) }); datapoint_debug!( "bank_forks_purge_non_root", ("num_banks_retained", self.banks.len(), i64), ); } pub fn set_snapshot_config(&mut self, snapshot_config: Option) { self.snapshot_config = snapshot_config; } pub fn snapshot_config(&self) -> &Option { &self.snapshot_config } pub fn set_accounts_hash_interval_slots(&mut self, accounts_interval_slots: u64) { self.accounts_hash_interval_slots = accounts_interval_slots; } } #[cfg(test)] mod tests { use super::*; use crate::genesis_utils::{create_genesis_config, GenesisConfigInfo}; use solana_sdk::hash::Hash; use solana_sdk::pubkey::Pubkey; #[test] fn test_bank_forks_new() { let GenesisConfigInfo { genesis_config, .. } = create_genesis_config(10_000); let bank = Bank::new(&genesis_config); let mut bank_forks = BankForks::new(bank); let child_bank = Bank::new_from_parent(&bank_forks[0u64], &Pubkey::default(), 1); child_bank.register_tick(&Hash::default()); bank_forks.insert(child_bank); assert_eq!(bank_forks[1u64].tick_height(), 1); assert_eq!(bank_forks.working_bank().tick_height(), 1); } #[test] fn test_bank_forks_new_from_banks() { let GenesisConfigInfo { genesis_config, .. } = create_genesis_config(10_000); let bank = Arc::new(Bank::new(&genesis_config)); let child_bank = Arc::new(Bank::new_from_parent(&bank, &Pubkey::default(), 1)); let bank_forks = BankForks::new_from_banks(&[bank.clone(), child_bank.clone()], 0); assert_eq!(bank_forks.root(), 0); assert_eq!(bank_forks.working_bank().slot(), 1); let bank_forks = BankForks::new_from_banks(&[child_bank, bank], 0); assert_eq!(bank_forks.root(), 0); assert_eq!(bank_forks.working_bank().slot(), 1); } #[test] fn test_bank_forks_descendants() { let GenesisConfigInfo { genesis_config, .. } = create_genesis_config(10_000); let bank = Bank::new(&genesis_config); let mut bank_forks = BankForks::new(bank); let bank0 = bank_forks[0].clone(); let bank = Bank::new_from_parent(&bank0, &Pubkey::default(), 1); bank_forks.insert(bank); let bank = Bank::new_from_parent(&bank0, &Pubkey::default(), 2); bank_forks.insert(bank); let descendants = bank_forks.descendants(); let children: HashSet = [1u64, 2u64].to_vec().into_iter().collect(); assert_eq!(children, *descendants.get(&0).unwrap()); assert!(descendants[&1].is_empty()); assert!(descendants[&2].is_empty()); } #[test] fn test_bank_forks_ancestors() { let GenesisConfigInfo { genesis_config, .. } = create_genesis_config(10_000); let bank = Bank::new(&genesis_config); let mut bank_forks = BankForks::new(bank); let bank0 = bank_forks[0].clone(); let bank = Bank::new_from_parent(&bank0, &Pubkey::default(), 1); bank_forks.insert(bank); let bank = Bank::new_from_parent(&bank0, &Pubkey::default(), 2); bank_forks.insert(bank); let ancestors = bank_forks.ancestors(); assert!(ancestors[&0].is_empty()); let parents: Vec = ancestors[&1].iter().cloned().collect(); assert_eq!(parents, vec![0]); let parents: Vec = ancestors[&2].iter().cloned().collect(); assert_eq!(parents, vec![0]); } #[test] fn test_bank_forks_frozen_banks() { let GenesisConfigInfo { genesis_config, .. } = create_genesis_config(10_000); let bank = Bank::new(&genesis_config); let mut bank_forks = BankForks::new(bank); let child_bank = Bank::new_from_parent(&bank_forks[0u64], &Pubkey::default(), 1); bank_forks.insert(child_bank); assert!(bank_forks.frozen_banks().get(&0).is_some()); assert!(bank_forks.frozen_banks().get(&1).is_none()); } #[test] fn test_bank_forks_active_banks() { let GenesisConfigInfo { genesis_config, .. } = create_genesis_config(10_000); let bank = Bank::new(&genesis_config); let mut bank_forks = BankForks::new(bank); let child_bank = Bank::new_from_parent(&bank_forks[0u64], &Pubkey::default(), 1); bank_forks.insert(child_bank); assert_eq!(bank_forks.active_banks(), vec![1]); } }