// Copyright 2015-2017 Parity Technologies (UK) Ltd. // This file is part of Parity. // Parity is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // Parity is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // You should have received a copy of the GNU General Public License // along with Parity. If not, see . use std::collections::{VecDeque, HashSet}; use lru_cache::LruCache; use util::cache::MemoryLruCache; use util::journaldb::JournalDB; use util::hash::{H256}; use util::hashdb::HashDB; use state::Account; use header::BlockNumber; use util::{Arc, Address, Database, DBTransaction, UtilError, Mutex, Hashable}; use bloom_journal::{Bloom, BloomJournal}; use db::COL_ACCOUNT_BLOOM; use byteorder::{LittleEndian, ByteOrder}; pub const ACCOUNT_BLOOM_SPACE: usize = 1048576; pub const DEFAULT_ACCOUNT_PRESET: usize = 1000000; pub const ACCOUNT_BLOOM_HASHCOUNT_KEY: &'static [u8] = b"account_hash_count"; const STATE_CACHE_BLOCKS: usize = 12; // The percentage of supplied cache size to go to accounts. const ACCOUNT_CACHE_RATIO: usize = 90; /// Shared canonical state cache. struct AccountCache { /// DB Account cache. `None` indicates that account is known to be missing. // When changing the type of the values here, be sure to update `mem_used` and // `new`. accounts: LruCache>, /// Information on the modifications in recently committed blocks; specifically which addresses /// changed in which block. Ordered by block number. modifications: VecDeque, } /// Buffered account cache item. struct CacheQueueItem { /// Account address. address: Address, /// Acccount data or `None` if account does not exist. account: Option, /// Indicates that the account was modified before being /// added to the cache. modified: bool, } #[derive(Debug)] /// Accumulates a list of accounts changed in a block. struct BlockChanges { /// Block number. number: BlockNumber, /// Block hash. hash: H256, /// Parent block hash. parent: H256, /// A set of modified account addresses. accounts: HashSet
, /// Block is part of the canonical chain. is_canon: bool, } /// State database abstraction. /// Manages shared global state cache which reflects the canonical /// state as it is on the disk. All the entries in the cache are clean. /// A clone of `StateDB` may be created as canonical or not. /// For canonical clones local cache is accumulated and applied /// in `sync_cache` /// For non-canonical clones local cache is dropped. /// /// Global cache propagation. /// After a `State` object has been committed to the trie it /// propagates its local cache into the `StateDB` local cache /// using `add_to_account_cache` function. /// Then, after the block has been added to the chain the local cache in the /// `StateDB` is propagated into the global cache. pub struct StateDB { /// Backing database. db: Box, /// Shared canonical state cache. account_cache: Arc>, /// DB Code cache. Maps code hashes to shared bytes. code_cache: Arc>>>>, /// Local dirty cache. local_cache: Vec, /// Shared account bloom. Does not handle chain reorganizations. account_bloom: Arc>, cache_size: usize, /// Hash of the block on top of which this instance was created or /// `None` if cache is disabled parent_hash: Option, /// Hash of the committing block or `None` if not committed yet. commit_hash: Option, /// Number of the committing block or `None` if not committed yet. commit_number: Option, } impl StateDB { /// Create a new instance wrapping `JournalDB` and the maximum allowed size /// of the LRU cache in bytes. Actual used memory may (read: will) be higher due to bookkeeping. // TODO: make the cache size actually accurate by moving the account storage cache // into the `AccountCache` structure as its own `LruCache<(Address, H256), H256>`. pub fn new(db: Box, cache_size: usize) -> StateDB { let bloom = Self::load_bloom(db.backing()); let acc_cache_size = cache_size * ACCOUNT_CACHE_RATIO / 100; let code_cache_size = cache_size - acc_cache_size; let cache_items = acc_cache_size / ::std::mem::size_of::>(); StateDB { db: db, account_cache: Arc::new(Mutex::new(AccountCache { accounts: LruCache::new(cache_items), modifications: VecDeque::new(), })), code_cache: Arc::new(Mutex::new(MemoryLruCache::new(code_cache_size))), local_cache: Vec::new(), account_bloom: Arc::new(Mutex::new(bloom)), cache_size: cache_size, parent_hash: None, commit_hash: None, commit_number: None, } } /// Loads accounts bloom from the database /// This bloom is used to handle request for the non-existant account fast pub fn load_bloom(db: &Database) -> Bloom { let hash_count_entry = db.get(COL_ACCOUNT_BLOOM, ACCOUNT_BLOOM_HASHCOUNT_KEY) .expect("Low-level database error"); let hash_count_bytes = match hash_count_entry { Some(bytes) => bytes, None => return Bloom::new(ACCOUNT_BLOOM_SPACE, DEFAULT_ACCOUNT_PRESET), }; assert_eq!(hash_count_bytes.len(), 1); let hash_count = hash_count_bytes[0]; let mut bloom_parts = vec![0u64; ACCOUNT_BLOOM_SPACE / 8]; let mut key = [0u8; 8]; for i in 0..ACCOUNT_BLOOM_SPACE / 8 { LittleEndian::write_u64(&mut key, i as u64); bloom_parts[i] = db.get(COL_ACCOUNT_BLOOM, &key).expect("low-level database error") .and_then(|val| Some(LittleEndian::read_u64(&val[..]))) .unwrap_or(0u64); } let bloom = Bloom::from_parts(&bloom_parts, hash_count as u32); trace!(target: "account_bloom", "Bloom is {:?} full, hash functions count = {:?}", bloom.saturation(), hash_count); bloom } pub fn check_non_null_bloom(&self, address: &Address) -> bool { trace!(target: "account_bloom", "Check account bloom: {:?}", address); let bloom = self.account_bloom.lock(); bloom.check(&*address.sha3()) } pub fn note_non_null_account(&self, address: &Address) { trace!(target: "account_bloom", "Note account bloom: {:?}", address); let mut bloom = self.account_bloom.lock(); bloom.set(&*address.sha3()); } pub fn commit_bloom(batch: &mut DBTransaction, journal: BloomJournal) -> Result<(), UtilError> { assert!(journal.hash_functions <= 255); batch.put(COL_ACCOUNT_BLOOM, ACCOUNT_BLOOM_HASHCOUNT_KEY, &[journal.hash_functions as u8]); let mut key = [0u8; 8]; let mut val = [0u8; 8]; for (bloom_part_index, bloom_part_value) in journal.entries { LittleEndian::write_u64(&mut key, bloom_part_index as u64); LittleEndian::write_u64(&mut val, bloom_part_value); batch.put(COL_ACCOUNT_BLOOM, &key, &val); } Ok(()) } /// Journal all recent operations under the given era and ID. pub fn journal_under(&mut self, batch: &mut DBTransaction, now: u64, id: &H256) -> Result { { let mut bloom_lock = self.account_bloom.lock(); Self::commit_bloom(batch, bloom_lock.drain_journal())?; } let records = self.db.journal_under(batch, now, id)?; self.commit_hash = Some(id.clone()); self.commit_number = Some(now); Ok(records) } /// Mark a given candidate from an ancient era as canonical, enacting its removals from the /// backing database and reverting any non-canonical historical commit's insertions. pub fn mark_canonical(&mut self, batch: &mut DBTransaction, end_era: u64, canon_id: &H256) -> Result { self.db.mark_canonical(batch, end_era, canon_id) } /// Propagate local cache into the global cache and synchonize /// the global cache with the best block state. /// This function updates the global cache by removing entries /// that are invalidated by chain reorganization. `sync_cache` /// should be called after the block has been committed and the /// blockchain route has ben calculated. pub fn sync_cache(&mut self, enacted: &[H256], retracted: &[H256], is_best: bool) { trace!("sync_cache id = (#{:?}, {:?}), parent={:?}, best={}", self.commit_number, self.commit_hash, self.parent_hash, is_best); let mut cache = self.account_cache.lock(); let mut cache = &mut *cache; // Purge changes from re-enacted and retracted blocks. // Filter out commiting block if any. let mut clear = false; for block in enacted.iter().filter(|h| self.commit_hash.as_ref().map_or(true, |p| *h != p)) { clear = clear || { if let Some(ref mut m) = cache.modifications.iter_mut().find(|m| &m.hash == block) { trace!("Reverting enacted block {:?}", block); m.is_canon = true; for a in &m.accounts { trace!("Reverting enacted address {:?}", a); cache.accounts.remove(a); } false } else { true } }; } for block in retracted { clear = clear || { if let Some(ref mut m) = cache.modifications.iter_mut().find(|m| &m.hash == block) { trace!("Retracting block {:?}", block); m.is_canon = false; for a in &m.accounts { trace!("Retracted address {:?}", a); cache.accounts.remove(a); } false } else { true } }; } if clear { // We don't know anything about the block; clear everything trace!("Wiping cache"); cache.accounts.clear(); cache.modifications.clear(); } // Propagate cache only if committing on top of the latest canonical state // blocks are ordered by number and only one block with a given number is marked as canonical // (contributed to canonical state cache) if let (Some(ref number), Some(ref hash), Some(ref parent)) = (self.commit_number, self.commit_hash, self.parent_hash) { if cache.modifications.len() == STATE_CACHE_BLOCKS { cache.modifications.pop_back(); } let mut modifications = HashSet::new(); trace!("committing {} cache entries", self.local_cache.len()); for account in self.local_cache.drain(..) { if account.modified { modifications.insert(account.address.clone()); } if is_best { if let Some(&mut Some(ref mut existing)) = cache.accounts.get_mut(&account.address) { if let Some(new) = account.account { if account.modified { existing.overwrite_with(new); } continue; } } cache.accounts.insert(account.address, account.account); } } // Save modified accounts. These are ordered by the block number. let block_changes = BlockChanges { accounts: modifications, number: *number, hash: hash.clone(), is_canon: is_best, parent: parent.clone(), }; let insert_at = cache.modifications.iter().enumerate().find(|&(_, m)| m.number < *number).map(|(i, _)| i); trace!("inserting modifications at {:?}", insert_at); if let Some(insert_at) = insert_at { cache.modifications.insert(insert_at, block_changes); } else { cache.modifications.push_back(block_changes); } } } /// Returns an interface to HashDB. pub fn as_hashdb(&self) -> &HashDB { self.db.as_hashdb() } /// Returns an interface to mutable HashDB. pub fn as_hashdb_mut(&mut self) -> &mut HashDB { self.db.as_hashdb_mut() } /// Clone the database. pub fn boxed_clone(&self) -> StateDB { StateDB { db: self.db.boxed_clone(), account_cache: self.account_cache.clone(), code_cache: self.code_cache.clone(), local_cache: Vec::new(), account_bloom: self.account_bloom.clone(), cache_size: self.cache_size, parent_hash: None, commit_hash: None, commit_number: None, } } /// Clone the database for a canonical state. pub fn boxed_clone_canon(&self, parent: &H256) -> StateDB { StateDB { db: self.db.boxed_clone(), account_cache: self.account_cache.clone(), code_cache: self.code_cache.clone(), local_cache: Vec::new(), account_bloom: self.account_bloom.clone(), cache_size: self.cache_size, parent_hash: Some(parent.clone()), commit_hash: None, commit_number: None, } } /// Check if pruning is enabled on the database. pub fn is_pruned(&self) -> bool { self.db.is_pruned() } /// Heap size used. pub fn mem_used(&self) -> usize { // TODO: account for LRU-cache overhead; this is a close approximation. self.db.mem_used() + { let accounts = self.account_cache.lock().accounts.len(); let code_size = self.code_cache.lock().current_size(); code_size + accounts * ::std::mem::size_of::>() } } /// Returns underlying `JournalDB`. pub fn journal_db(&self) -> &JournalDB { &*self.db } /// Add a local cache entry. /// The entry will be propagated to the global cache in `sync_cache`. /// `modified` indicates that the entry was changed since being read from disk or global cache. /// `data` can be set to an existing (`Some`), or non-existing account (`None`). pub fn add_to_account_cache(&mut self, addr: Address, data: Option, modified: bool) { self.local_cache.push(CacheQueueItem { address: addr, account: data, modified: modified, }) } /// Add a global code cache entry. This doesn't need to worry about canonicality because /// it simply maps hashes to raw code and will always be correct in the absence of /// hash collisions. pub fn cache_code(&self, hash: H256, code: Arc>) { let mut cache = self.code_cache.lock(); cache.insert(hash, code); } /// Get basic copy of the cached account. Does not include storage. /// Returns 'None' if cache is disabled or if the account is not cached. pub fn get_cached_account(&self, addr: &Address) -> Option> { let mut cache = self.account_cache.lock(); if !Self::is_allowed(addr, &self.parent_hash, &cache.modifications) { return None; } cache.accounts.get_mut(addr).map(|a| a.as_ref().map(|a| a.clone_basic())) } /// Get cached code based on hash. #[cfg_attr(feature="dev", allow(map_clone))] pub fn get_cached_code(&self, hash: &H256) -> Option>> { let mut cache = self.code_cache.lock(); cache.get_mut(hash).map(|code| code.clone()) } /// Get value from a cached account. /// Returns 'None' if cache is disabled or if the account is not cached. pub fn get_cached(&self, a: &Address, f: F) -> Option where F: FnOnce(Option<&mut Account>) -> U { let mut cache = self.account_cache.lock(); if !Self::is_allowed(a, &self.parent_hash, &cache.modifications) { return None; } cache.accounts.get_mut(a).map(|c| f(c.as_mut())) } /// Query how much memory is set aside for the accounts cache (in bytes). pub fn cache_size(&self) -> usize { self.cache_size } /// Check if the account can be returned from cache by matching current block parent hash against canonical /// state and filtering out account modified in later blocks. fn is_allowed(addr: &Address, parent_hash: &Option, modifications: &VecDeque) -> bool { let mut parent = match *parent_hash { None => { trace!("Cache lookup skipped for {:?}: no parent hash", addr); return false; } Some(ref parent) => parent, }; if modifications.is_empty() { return true; } // Ignore all accounts modified in later blocks // Modifications contains block ordered by the number // We search for our parent in that list first and then for // all its parent until we hit the canonical block, // checking against all the intermediate modifications. for m in modifications { if &m.hash == parent { if m.is_canon { return true; } parent = &m.parent; } if m.accounts.contains(addr) { trace!("Cache lookup skipped for {:?}: modified in a later block", addr); return false; } } trace!("Cache lookup skipped for {:?}: parent hash is unknown", addr); false } } #[cfg(test)] mod tests { use util::{U256, H256, FixedHash, Address, DBTransaction}; use tests::helpers::*; use state::Account; use util::log::init_log; #[test] fn state_db_smoke() { init_log(); let mut state_db_result = get_temp_state_db(); let state_db = state_db_result.take(); let root_parent = H256::random(); let address = Address::random(); let h0 = H256::random(); let h1a = H256::random(); let h1b = H256::random(); let h2a = H256::random(); let h2b = H256::random(); let h3a = H256::random(); let h3b = H256::random(); let mut batch = DBTransaction::new(state_db.journal_db().backing()); // blocks [ 3a(c) 2a(c) 2b 1b 1a(c) 0 ] // balance [ 5 5 4 3 2 2 ] let mut s = state_db.boxed_clone_canon(&root_parent); s.add_to_account_cache(address, Some(Account::new_basic(2.into(), 0.into())), false); s.journal_under(&mut batch, 0, &h0).unwrap(); s.sync_cache(&[], &[], true); let mut s = state_db.boxed_clone_canon(&h0); s.journal_under(&mut batch, 1, &h1a).unwrap(); s.sync_cache(&[], &[], true); let mut s = state_db.boxed_clone_canon(&h0); s.add_to_account_cache(address, Some(Account::new_basic(3.into(), 0.into())), true); s.journal_under(&mut batch, 1, &h1b).unwrap(); s.sync_cache(&[], &[], false); let mut s = state_db.boxed_clone_canon(&h1b); s.add_to_account_cache(address, Some(Account::new_basic(4.into(), 0.into())), true); s.journal_under(&mut batch, 2, &h2b).unwrap(); s.sync_cache(&[], &[], false); let mut s = state_db.boxed_clone_canon(&h1a); s.add_to_account_cache(address, Some(Account::new_basic(5.into(), 0.into())), true); s.journal_under(&mut batch, 2, &h2a).unwrap(); s.sync_cache(&[], &[], true); let mut s = state_db.boxed_clone_canon(&h2a); s.journal_under(&mut batch, 3, &h3a).unwrap(); s.sync_cache(&[], &[], true); let s = state_db.boxed_clone_canon(&h3a); assert_eq!(s.get_cached_account(&address).unwrap().unwrap().balance(), &U256::from(5)); let s = state_db.boxed_clone_canon(&h1a); assert!(s.get_cached_account(&address).is_none()); let s = state_db.boxed_clone_canon(&h2b); assert!(s.get_cached_account(&address).is_none()); let s = state_db.boxed_clone_canon(&h1b); assert!(s.get_cached_account(&address).is_none()); // reorg to 3b // blocks [ 3b(c) 3a 2a 2b(c) 1b 1a 0 ] let mut s = state_db.boxed_clone_canon(&h2b); s.journal_under(&mut batch, 3, &h3b).unwrap(); s.sync_cache(&[h1b.clone(), h2b.clone(), h3b.clone()], &[h1a.clone(), h2a.clone(), h3a.clone()], true); let s = state_db.boxed_clone_canon(&h3a); assert!(s.get_cached_account(&address).is_none()); } }