// 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 . //! Disk-backed `HashDB` implementation. use std::collections::HashMap; use std::collections::hash_map::Entry; use std::sync::Arc; use rlp::{encode, decode}; use hashdb::*; use super::memorydb::*; use super::{DB_PREFIX_LEN, LATEST_ERA_KEY}; use traits::JournalDB; use kvdb::{KeyValueDB, DBTransaction}; use ethereum_types::H256; use error::{BaseDataError, UtilError}; use bytes::Bytes; /// Implementation of the `HashDB` trait for a disk-backed database with a memory overlay /// and latent-removal semantics. /// /// Like `OverlayDB`, there is a memory overlay; `commit()` must be called in order to /// write operations out to disk. Unlike `OverlayDB`, `remove()` operations do not take effect /// immediately. As this is an "archive" database, nothing is ever removed. This means /// that the states of any block the node has ever processed will be accessible. pub struct ArchiveDB { overlay: MemoryDB, backing: Arc, latest_era: Option, column: Option, } impl ArchiveDB { /// Create a new instance from a key-value db. pub fn new(backing: Arc, column: Option) -> ArchiveDB { let latest_era = backing.get(column, &LATEST_ERA_KEY) .expect("Low-level database error.") .map(|val| decode::(&val).expect("decoding db value failed")); ArchiveDB { overlay: MemoryDB::new(), backing, latest_era, column, } } fn payload(&self, key: &H256) -> Option { self.backing.get(self.column, key).expect("Low-level database error. Some issue with your hard disk?") } } impl HashDB for ArchiveDB { fn keys(&self) -> HashMap { let mut ret: HashMap = self.backing.iter(self.column) .map(|(key, _)| (H256::from_slice(&*key), 1)) .collect(); for (key, refs) in self.overlay.keys() { match ret.entry(key) { Entry::Occupied(mut entry) => { *entry.get_mut() += refs; }, Entry::Vacant(entry) => { entry.insert(refs); } } } ret } fn get(&self, key: &H256) -> Option { if let Some((d, rc)) = self.overlay.raw(key) { if rc > 0 { return Some(d); } } self.payload(key) } fn contains(&self, key: &H256) -> bool { self.get(key).is_some() } fn insert(&mut self, value: &[u8]) -> H256 { self.overlay.insert(value) } fn emplace(&mut self, key: H256, value: DBValue) { self.overlay.emplace(key, value); } fn remove(&mut self, key: &H256) { self.overlay.remove(key); } } impl JournalDB for ArchiveDB { fn boxed_clone(&self) -> Box { Box::new(ArchiveDB { overlay: self.overlay.clone(), backing: self.backing.clone(), latest_era: self.latest_era, column: self.column.clone(), }) } fn mem_used(&self) -> usize { self.overlay.mem_used() } fn is_empty(&self) -> bool { self.latest_era.is_none() } fn journal_under(&mut self, batch: &mut DBTransaction, now: u64, _id: &H256) -> Result { let mut inserts = 0usize; let mut deletes = 0usize; for i in self.overlay.drain() { let (key, (value, rc)) = i; if rc > 0 { batch.put(self.column, &key, &value); inserts += 1; } if rc < 0 { assert!(rc == -1); deletes += 1; } } if self.latest_era.map_or(true, |e| now > e) { batch.put(self.column, &LATEST_ERA_KEY, &encode(&now)); self.latest_era = Some(now); } Ok((inserts + deletes) as u32) } fn mark_canonical(&mut self, _batch: &mut DBTransaction, _end_era: u64, _canon_id: &H256) -> Result { // keep everything! it's an archive, after all. Ok(0) } fn inject(&mut self, batch: &mut DBTransaction) -> Result { let mut inserts = 0usize; let mut deletes = 0usize; for i in self.overlay.drain() { let (key, (value, rc)) = i; if rc > 0 { if self.backing.get(self.column, &key)?.is_some() { return Err(BaseDataError::AlreadyExists(key).into()); } batch.put(self.column, &key, &value); inserts += 1; } if rc < 0 { assert!(rc == -1); if self.backing.get(self.column, &key)?.is_none() { return Err(BaseDataError::NegativelyReferencedHash(key).into()); } batch.delete(self.column, &key); deletes += 1; } } Ok((inserts + deletes) as u32) } fn latest_era(&self) -> Option { self.latest_era } fn state(&self, id: &H256) -> Option { self.backing.get_by_prefix(self.column, &id[0..DB_PREFIX_LEN]).map(|b| b.into_vec()) } fn is_pruned(&self) -> bool { false } fn backing(&self) -> &Arc { &self.backing } fn consolidate(&mut self, with: MemoryDB) { self.overlay.consolidate(with); } } #[cfg(test)] mod tests { use keccak::keccak; use hashdb::{HashDB, DBValue}; use super::*; use {kvdb_memorydb, JournalDB}; #[test] fn insert_same_in_fork() { // history is 1 let mut jdb = ArchiveDB::new(Arc::new(kvdb_memorydb::create(0)), None); let x = jdb.insert(b"X"); jdb.commit_batch(1, &keccak(b"1"), None).unwrap(); jdb.commit_batch(2, &keccak(b"2"), None).unwrap(); jdb.commit_batch(3, &keccak(b"1002a"), Some((1, keccak(b"1")))).unwrap(); jdb.commit_batch(4, &keccak(b"1003a"), Some((2, keccak(b"2")))).unwrap(); jdb.remove(&x); jdb.commit_batch(3, &keccak(b"1002b"), Some((1, keccak(b"1")))).unwrap(); let x = jdb.insert(b"X"); jdb.commit_batch(4, &keccak(b"1003b"), Some((2, keccak(b"2")))).unwrap(); jdb.commit_batch(5, &keccak(b"1004a"), Some((3, keccak(b"1002a")))).unwrap(); jdb.commit_batch(6, &keccak(b"1005a"), Some((4, keccak(b"1003a")))).unwrap(); assert!(jdb.contains(&x)); } #[test] fn long_history() { // history is 3 let mut jdb = ArchiveDB::new(Arc::new(kvdb_memorydb::create(0)), None); let h = jdb.insert(b"foo"); jdb.commit_batch(0, &keccak(b"0"), None).unwrap(); assert!(jdb.contains(&h)); jdb.remove(&h); jdb.commit_batch(1, &keccak(b"1"), None).unwrap(); assert!(jdb.contains(&h)); jdb.commit_batch(2, &keccak(b"2"), None).unwrap(); assert!(jdb.contains(&h)); jdb.commit_batch(3, &keccak(b"3"), Some((0, keccak(b"0")))).unwrap(); assert!(jdb.contains(&h)); jdb.commit_batch(4, &keccak(b"4"), Some((1, keccak(b"1")))).unwrap(); assert!(jdb.contains(&h)); } #[test] #[should_panic] fn multiple_owed_removal_not_allowed() { let mut jdb = ArchiveDB::new(Arc::new(kvdb_memorydb::create(0)), None); let h = jdb.insert(b"foo"); jdb.commit_batch(0, &keccak(b"0"), None).unwrap(); assert!(jdb.contains(&h)); jdb.remove(&h); jdb.remove(&h); // commit_batch would call journal_under(), // and we don't allow multiple owned removals. jdb.commit_batch(1, &keccak(b"1"), None).unwrap(); } #[test] fn complex() { // history is 1 let mut jdb = ArchiveDB::new(Arc::new(kvdb_memorydb::create(0)), None); let foo = jdb.insert(b"foo"); let bar = jdb.insert(b"bar"); jdb.commit_batch(0, &keccak(b"0"), None).unwrap(); assert!(jdb.contains(&foo)); assert!(jdb.contains(&bar)); jdb.remove(&foo); jdb.remove(&bar); let baz = jdb.insert(b"baz"); jdb.commit_batch(1, &keccak(b"1"), Some((0, keccak(b"0")))).unwrap(); assert!(jdb.contains(&foo)); assert!(jdb.contains(&bar)); assert!(jdb.contains(&baz)); let foo = jdb.insert(b"foo"); jdb.remove(&baz); jdb.commit_batch(2, &keccak(b"2"), Some((1, keccak(b"1")))).unwrap(); assert!(jdb.contains(&foo)); assert!(jdb.contains(&baz)); jdb.remove(&foo); jdb.commit_batch(3, &keccak(b"3"), Some((2, keccak(b"2")))).unwrap(); assert!(jdb.contains(&foo)); jdb.commit_batch(4, &keccak(b"4"), Some((3, keccak(b"3")))).unwrap(); } #[test] fn fork() { // history is 1 let mut jdb = ArchiveDB::new(Arc::new(kvdb_memorydb::create(0)), None); let foo = jdb.insert(b"foo"); let bar = jdb.insert(b"bar"); jdb.commit_batch(0, &keccak(b"0"), None).unwrap(); assert!(jdb.contains(&foo)); assert!(jdb.contains(&bar)); jdb.remove(&foo); let baz = jdb.insert(b"baz"); jdb.commit_batch(1, &keccak(b"1a"), Some((0, keccak(b"0")))).unwrap(); jdb.remove(&bar); jdb.commit_batch(1, &keccak(b"1b"), Some((0, keccak(b"0")))).unwrap(); assert!(jdb.contains(&foo)); assert!(jdb.contains(&bar)); assert!(jdb.contains(&baz)); jdb.commit_batch(2, &keccak(b"2b"), Some((1, keccak(b"1b")))).unwrap(); assert!(jdb.contains(&foo)); } #[test] fn overwrite() { // history is 1 let mut jdb = ArchiveDB::new(Arc::new(kvdb_memorydb::create(0)), None); let foo = jdb.insert(b"foo"); jdb.commit_batch(0, &keccak(b"0"), None).unwrap(); assert!(jdb.contains(&foo)); jdb.remove(&foo); jdb.commit_batch(1, &keccak(b"1"), Some((0, keccak(b"0")))).unwrap(); jdb.insert(b"foo"); assert!(jdb.contains(&foo)); jdb.commit_batch(2, &keccak(b"2"), Some((1, keccak(b"1")))).unwrap(); assert!(jdb.contains(&foo)); jdb.commit_batch(3, &keccak(b"2"), Some((0, keccak(b"2")))).unwrap(); assert!(jdb.contains(&foo)); } #[test] fn fork_same_key() { // history is 1 let mut jdb = ArchiveDB::new(Arc::new(kvdb_memorydb::create(0)), None); jdb.commit_batch(0, &keccak(b"0"), None).unwrap(); let foo = jdb.insert(b"foo"); jdb.commit_batch(1, &keccak(b"1a"), Some((0, keccak(b"0")))).unwrap(); jdb.insert(b"foo"); jdb.commit_batch(1, &keccak(b"1b"), Some((0, keccak(b"0")))).unwrap(); assert!(jdb.contains(&foo)); jdb.commit_batch(2, &keccak(b"2a"), Some((1, keccak(b"1a")))).unwrap(); assert!(jdb.contains(&foo)); } #[test] fn reopen() { let shared_db = Arc::new(kvdb_memorydb::create(0)); let bar = H256::random(); let foo = { let mut jdb = ArchiveDB::new(shared_db.clone(), None); // history is 1 let foo = jdb.insert(b"foo"); jdb.emplace(bar.clone(), DBValue::from_slice(b"bar")); jdb.commit_batch(0, &keccak(b"0"), None).unwrap(); foo }; { let mut jdb = ArchiveDB::new(shared_db.clone(), None); jdb.remove(&foo); jdb.commit_batch(1, &keccak(b"1"), Some((0, keccak(b"0")))).unwrap(); } { let mut jdb = ArchiveDB::new(shared_db, None); assert!(jdb.contains(&foo)); assert!(jdb.contains(&bar)); jdb.commit_batch(2, &keccak(b"2"), Some((1, keccak(b"1")))).unwrap(); } } #[test] fn reopen_remove() { let shared_db = Arc::new(kvdb_memorydb::create(0)); let foo = { let mut jdb = ArchiveDB::new(shared_db.clone(), None); // history is 1 let foo = jdb.insert(b"foo"); jdb.commit_batch(0, &keccak(b"0"), None).unwrap(); jdb.commit_batch(1, &keccak(b"1"), Some((0, keccak(b"0")))).unwrap(); // foo is ancient history. jdb.insert(b"foo"); jdb.commit_batch(2, &keccak(b"2"), Some((1, keccak(b"1")))).unwrap(); foo }; { let mut jdb = ArchiveDB::new(shared_db, None); jdb.remove(&foo); jdb.commit_batch(3, &keccak(b"3"), Some((2, keccak(b"2")))).unwrap(); assert!(jdb.contains(&foo)); jdb.remove(&foo); jdb.commit_batch(4, &keccak(b"4"), Some((3, keccak(b"3")))).unwrap(); jdb.commit_batch(5, &keccak(b"5"), Some((4, keccak(b"4")))).unwrap(); } } #[test] fn reopen_fork() { let shared_db = Arc::new(kvdb_memorydb::create(0)); let (foo, _, _) = { let mut jdb = ArchiveDB::new(shared_db.clone(), None); // history is 1 let foo = jdb.insert(b"foo"); let bar = jdb.insert(b"bar"); jdb.commit_batch(0, &keccak(b"0"), None).unwrap(); jdb.remove(&foo); let baz = jdb.insert(b"baz"); jdb.commit_batch(1, &keccak(b"1a"), Some((0, keccak(b"0")))).unwrap(); jdb.remove(&bar); jdb.commit_batch(1, &keccak(b"1b"), Some((0, keccak(b"0")))).unwrap(); (foo, bar, baz) }; { let mut jdb = ArchiveDB::new(shared_db, None); jdb.commit_batch(2, &keccak(b"2b"), Some((1, keccak(b"1b")))).unwrap(); assert!(jdb.contains(&foo)); } } #[test] fn returns_state() { let shared_db = Arc::new(kvdb_memorydb::create(0)); let key = { let mut jdb = ArchiveDB::new(shared_db.clone(), None); let key = jdb.insert(b"foo"); jdb.commit_batch(0, &keccak(b"0"), None).unwrap(); key }; { let jdb = ArchiveDB::new(shared_db, None); let state = jdb.state(&key); assert!(state.is_some()); } } #[test] fn inject() { let mut jdb = ArchiveDB::new(Arc::new(kvdb_memorydb::create(0)), None); let key = jdb.insert(b"dog"); jdb.inject_batch().unwrap(); assert_eq!(jdb.get(&key).unwrap(), DBValue::from_slice(b"dog")); jdb.remove(&key); jdb.inject_batch().unwrap(); assert!(jdb.get(&key).is_none()); } }