e95b093483
* ethereum-types refactor in progress * ethereum-types refactor in progress * ethereum-types refactor in progress * ethereum-types refactor in progress * ethereum-types refactor finished * removed obsolete util/src/lib.rs * removed commented out code
335 lines
9.6 KiB
Rust
335 lines
9.6 KiB
Rust
// Copyright 2015-2017 Parity Technologies (UK) Ltd.
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// This file is part of Parity.
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// Parity is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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// Parity is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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// You should have received a copy of the GNU General Public License
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// along with Parity. If not, see <http://www.gnu.org/licenses/>.
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//! Disk-backed, ref-counted `JournalDB` implementation.
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use std::collections::HashMap;
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use std::sync::Arc;
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use heapsize::HeapSizeOf;
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use rlp::*;
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use hashdb::*;
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use overlaydb::OverlayDB;
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use memorydb::MemoryDB;
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use super::{DB_PREFIX_LEN, LATEST_ERA_KEY};
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use super::traits::JournalDB;
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use kvdb::{KeyValueDB, DBTransaction};
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use ethereum_types::H256;
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use error::UtilError;
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use bytes::Bytes;
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/// Implementation of the `HashDB` trait for a disk-backed database with a memory overlay
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/// and latent-removal semantics.
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///
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/// Like `OverlayDB`, there is a memory overlay; `commit()` must be called in order to
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/// write operations out to disk. Unlike `OverlayDB`, `remove()` operations do not take effect
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/// immediately. Rather some age (based on a linear but arbitrary metric) must pass before
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/// the removals actually take effect.
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///
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/// journal format:
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/// ```
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/// [era, 0] => [ id, [insert_0, ...], [remove_0, ...] ]
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/// [era, 1] => [ id, [insert_0, ...], [remove_0, ...] ]
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/// [era, n] => [ ... ]
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/// ```
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///
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/// when we make a new commit, we journal the inserts and removes.
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/// for each `end_era` that we journaled that we are no passing by,
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/// we remove all of its removes assuming it is canonical and all
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/// of its inserts otherwise.
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// TODO: store last_era, reclaim_period.
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pub struct RefCountedDB {
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forward: OverlayDB,
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backing: Arc<KeyValueDB>,
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latest_era: Option<u64>,
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inserts: Vec<H256>,
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removes: Vec<H256>,
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column: Option<u32>,
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}
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const PADDING : [u8; 10] = [ 0u8; 10 ];
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impl RefCountedDB {
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/// Create a new instance given a `backing` database.
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pub fn new(backing: Arc<KeyValueDB>, col: Option<u32>) -> RefCountedDB {
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let latest_era = backing.get(col, &LATEST_ERA_KEY).expect("Low-level database error.").map(|val| decode::<u64>(&val));
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RefCountedDB {
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forward: OverlayDB::new(backing.clone(), col),
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backing: backing,
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inserts: vec![],
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removes: vec![],
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latest_era: latest_era,
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column: col,
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}
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}
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}
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impl HashDB for RefCountedDB {
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fn keys(&self) -> HashMap<H256, i32> { self.forward.keys() }
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fn get(&self, key: &H256) -> Option<DBValue> { self.forward.get(key) }
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fn contains(&self, key: &H256) -> bool { self.forward.contains(key) }
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fn insert(&mut self, value: &[u8]) -> H256 { let r = self.forward.insert(value); self.inserts.push(r.clone()); r }
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fn emplace(&mut self, key: H256, value: DBValue) { self.inserts.push(key.clone()); self.forward.emplace(key, value); }
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fn remove(&mut self, key: &H256) { self.removes.push(key.clone()); }
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}
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impl JournalDB for RefCountedDB {
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fn boxed_clone(&self) -> Box<JournalDB> {
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Box::new(RefCountedDB {
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forward: self.forward.clone(),
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backing: self.backing.clone(),
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latest_era: self.latest_era,
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inserts: self.inserts.clone(),
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removes: self.removes.clone(),
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column: self.column.clone(),
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})
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}
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fn mem_used(&self) -> usize {
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self.inserts.heap_size_of_children() + self.removes.heap_size_of_children()
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}
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fn is_empty(&self) -> bool {
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self.latest_era.is_none()
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}
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fn backing(&self) -> &Arc<KeyValueDB> {
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&self.backing
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}
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fn latest_era(&self) -> Option<u64> { self.latest_era }
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fn state(&self, id: &H256) -> Option<Bytes> {
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self.backing.get_by_prefix(self.column, &id[0..DB_PREFIX_LEN]).map(|b| b.into_vec())
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}
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fn journal_under(&mut self, batch: &mut DBTransaction, now: u64, id: &H256) -> Result<u32, UtilError> {
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// record new commit's details.
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let mut index = 0usize;
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let mut last;
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while self.backing.get(self.column, {
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let mut r = RlpStream::new_list(3);
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r.append(&now);
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r.append(&index);
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r.append(&&PADDING[..]);
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last = r.drain();
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&last
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})?.is_some() {
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index += 1;
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}
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let mut r = RlpStream::new_list(3);
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r.append(id);
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r.append_list(&self.inserts);
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r.append_list(&self.removes);
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batch.put(self.column, &last, r.as_raw());
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let ops = self.inserts.len() + self.removes.len();
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trace!(target: "rcdb", "new journal for time #{}.{} => {}: inserts={:?}, removes={:?}", now, index, id, self.inserts, self.removes);
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self.inserts.clear();
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self.removes.clear();
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if self.latest_era.map_or(true, |e| now > e) {
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batch.put(self.column, &LATEST_ERA_KEY, &encode(&now));
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self.latest_era = Some(now);
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}
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Ok(ops as u32)
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}
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fn mark_canonical(&mut self, batch: &mut DBTransaction, end_era: u64, canon_id: &H256) -> Result<u32, UtilError> {
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// apply old commits' details
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let mut index = 0usize;
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let mut last;
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while let Some(rlp_data) = {
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self.backing.get(self.column, {
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let mut r = RlpStream::new_list(3);
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r.append(&end_era);
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r.append(&index);
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r.append(&&PADDING[..]);
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last = r.drain();
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&last
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})?
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} {
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let rlp = Rlp::new(&rlp_data);
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let our_id: H256 = rlp.val_at(0);
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let to_remove: Vec<H256> = rlp.list_at(if *canon_id == our_id {2} else {1});
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trace!(target: "rcdb", "delete journal for time #{}.{}=>{}, (canon was {}): deleting {:?}", end_era, index, our_id, canon_id, to_remove);
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for i in &to_remove {
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self.forward.remove(i);
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}
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batch.delete(self.column, &last);
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index += 1;
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}
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let r = self.forward.commit_to_batch(batch)?;
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Ok(r)
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}
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fn inject(&mut self, batch: &mut DBTransaction) -> Result<u32, UtilError> {
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self.inserts.clear();
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for remove in self.removes.drain(..) {
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self.forward.remove(&remove);
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}
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self.forward.commit_to_batch(batch)
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}
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fn consolidate(&mut self, mut with: MemoryDB) {
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for (key, (value, rc)) in with.drain() {
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for _ in 0..rc {
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self.emplace(key, value.clone());
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}
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for _ in rc..0 {
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self.remove(&key);
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}
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}
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}
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}
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#[cfg(test)]
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mod tests {
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use keccak::keccak;
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use hashdb::{HashDB, DBValue};
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use super::*;
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use {JournalDB, kvdb_memorydb};
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fn new_db() -> RefCountedDB {
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let backing = Arc::new(kvdb_memorydb::create(0));
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RefCountedDB::new(backing, None)
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}
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#[test]
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fn long_history() {
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// history is 3
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let mut jdb = new_db();
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let h = jdb.insert(b"foo");
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jdb.commit_batch(0, &keccak(b"0"), None).unwrap();
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assert!(jdb.contains(&h));
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jdb.remove(&h);
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jdb.commit_batch(1, &keccak(b"1"), None).unwrap();
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assert!(jdb.contains(&h));
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jdb.commit_batch(2, &keccak(b"2"), None).unwrap();
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assert!(jdb.contains(&h));
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jdb.commit_batch(3, &keccak(b"3"), Some((0, keccak(b"0")))).unwrap();
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assert!(jdb.contains(&h));
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jdb.commit_batch(4, &keccak(b"4"), Some((1, keccak(b"1")))).unwrap();
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assert!(!jdb.contains(&h));
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}
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#[test]
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fn latest_era_should_work() {
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// history is 3
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let mut jdb = new_db();
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assert_eq!(jdb.latest_era(), None);
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let h = jdb.insert(b"foo");
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jdb.commit_batch(0, &keccak(b"0"), None).unwrap();
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assert_eq!(jdb.latest_era(), Some(0));
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jdb.remove(&h);
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jdb.commit_batch(1, &keccak(b"1"), None).unwrap();
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assert_eq!(jdb.latest_era(), Some(1));
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jdb.commit_batch(2, &keccak(b"2"), None).unwrap();
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assert_eq!(jdb.latest_era(), Some(2));
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jdb.commit_batch(3, &keccak(b"3"), Some((0, keccak(b"0")))).unwrap();
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assert_eq!(jdb.latest_era(), Some(3));
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jdb.commit_batch(4, &keccak(b"4"), Some((1, keccak(b"1")))).unwrap();
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assert_eq!(jdb.latest_era(), Some(4));
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}
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#[test]
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fn complex() {
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// history is 1
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let mut jdb = new_db();
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let foo = jdb.insert(b"foo");
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let bar = jdb.insert(b"bar");
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jdb.commit_batch(0, &keccak(b"0"), None).unwrap();
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assert!(jdb.contains(&foo));
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assert!(jdb.contains(&bar));
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jdb.remove(&foo);
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jdb.remove(&bar);
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let baz = jdb.insert(b"baz");
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jdb.commit_batch(1, &keccak(b"1"), Some((0, keccak(b"0")))).unwrap();
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assert!(jdb.contains(&foo));
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assert!(jdb.contains(&bar));
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assert!(jdb.contains(&baz));
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let foo = jdb.insert(b"foo");
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jdb.remove(&baz);
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jdb.commit_batch(2, &keccak(b"2"), Some((1, keccak(b"1")))).unwrap();
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assert!(jdb.contains(&foo));
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assert!(!jdb.contains(&bar));
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assert!(jdb.contains(&baz));
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jdb.remove(&foo);
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jdb.commit_batch(3, &keccak(b"3"), Some((2, keccak(b"2")))).unwrap();
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assert!(jdb.contains(&foo));
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assert!(!jdb.contains(&bar));
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assert!(!jdb.contains(&baz));
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jdb.commit_batch(4, &keccak(b"4"), Some((3, keccak(b"3")))).unwrap();
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assert!(!jdb.contains(&foo));
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assert!(!jdb.contains(&bar));
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assert!(!jdb.contains(&baz));
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}
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#[test]
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fn fork() {
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// history is 1
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let mut jdb = new_db();
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let foo = jdb.insert(b"foo");
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let bar = jdb.insert(b"bar");
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jdb.commit_batch(0, &keccak(b"0"), None).unwrap();
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assert!(jdb.contains(&foo));
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assert!(jdb.contains(&bar));
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jdb.remove(&foo);
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let baz = jdb.insert(b"baz");
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jdb.commit_batch(1, &keccak(b"1a"), Some((0, keccak(b"0")))).unwrap();
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jdb.remove(&bar);
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jdb.commit_batch(1, &keccak(b"1b"), Some((0, keccak(b"0")))).unwrap();
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assert!(jdb.contains(&foo));
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assert!(jdb.contains(&bar));
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assert!(jdb.contains(&baz));
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jdb.commit_batch(2, &keccak(b"2b"), Some((1, keccak(b"1b")))).unwrap();
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assert!(jdb.contains(&foo));
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assert!(!jdb.contains(&baz));
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assert!(!jdb.contains(&bar));
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}
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#[test]
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fn inject() {
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let mut jdb = new_db();
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let key = jdb.insert(b"dog");
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jdb.inject_batch().unwrap();
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assert_eq!(jdb.get(&key).unwrap(), DBValue::from_slice(b"dog"));
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jdb.remove(&key);
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jdb.inject_batch().unwrap();
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assert!(jdb.get(&key).is_none());
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}
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}
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