315 lines
7.9 KiB
Rust
315 lines
7.9 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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//! Reference-counted memory-based `HashDB` implementation.
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use std::mem;
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use std::collections::HashMap;
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use std::collections::hash_map::Entry;
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use heapsize::HeapSizeOf;
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use bigint::hash::{H256FastMap, H256};
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use rlp::NULL_RLP;
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use keccak::{KECCAK_NULL_RLP, keccak};
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use hashdb::*;
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/// Reference-counted memory-based `HashDB` implementation.
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///
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/// Use `new()` to create a new database. Insert items with `insert()`, remove items
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/// with `remove()`, check for existence with `contains()` and lookup a hash to derive
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/// the data with `get()`. Clear with `clear()` and purge the portions of the data
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/// that have no references with `purge()`.
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///
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/// # Example
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/// ```rust
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/// extern crate ethcore_util;
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/// use ethcore_util::hashdb::*;
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/// use ethcore_util::memorydb::*;
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/// fn main() {
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/// let mut m = MemoryDB::new();
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/// let d = "Hello world!".as_bytes();
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///
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/// let k = m.insert(d);
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/// assert!(m.contains(&k));
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/// assert_eq!(m.get(&k).unwrap(), d);
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///
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/// m.insert(d);
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/// assert!(m.contains(&k));
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///
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/// m.remove(&k);
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/// assert!(m.contains(&k));
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///
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/// m.remove(&k);
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/// assert!(!m.contains(&k));
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///
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/// m.remove(&k);
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/// assert!(!m.contains(&k));
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///
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/// m.insert(d);
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/// assert!(!m.contains(&k));
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/// m.insert(d);
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/// assert!(m.contains(&k));
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/// assert_eq!(m.get(&k).unwrap(), d);
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///
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/// m.remove(&k);
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/// assert!(!m.contains(&k));
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/// }
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/// ```
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#[derive(Default, Clone, PartialEq)]
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pub struct MemoryDB {
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data: H256FastMap<(DBValue, i32)>,
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}
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impl MemoryDB {
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/// Create a new instance of the memory DB.
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pub fn new() -> MemoryDB {
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MemoryDB {
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data: H256FastMap::default(),
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}
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}
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/// Clear all data from the database.
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///
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/// # Examples
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/// ```rust
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/// extern crate ethcore_util;
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/// use ethcore_util::hashdb::*;
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/// use ethcore_util::memorydb::*;
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/// fn main() {
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/// let mut m = MemoryDB::new();
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/// let hello_bytes = "Hello world!".as_bytes();
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/// let hash = m.insert(hello_bytes);
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/// assert!(m.contains(&hash));
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/// m.clear();
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/// assert!(!m.contains(&hash));
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/// }
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/// ```
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pub fn clear(&mut self) {
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self.data.clear();
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}
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/// Purge all zero-referenced data from the database.
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pub fn purge(&mut self) {
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self.data.retain(|_, &mut (_, rc)| rc != 0);
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}
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/// Return the internal map of hashes to data, clearing the current state.
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pub fn drain(&mut self) -> H256FastMap<(DBValue, i32)> {
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mem::replace(&mut self.data, H256FastMap::default())
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}
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/// Grab the raw information associated with a key. Returns None if the key
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/// doesn't exist.
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///
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/// Even when Some is returned, the data is only guaranteed to be useful
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/// when the refs > 0.
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pub fn raw(&self, key: &H256) -> Option<(DBValue, i32)> {
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if key == &KECCAK_NULL_RLP {
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return Some((DBValue::from_slice(&NULL_RLP), 1));
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}
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self.data.get(key).cloned()
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}
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/// Returns the size of allocated heap memory
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pub fn mem_used(&self) -> usize {
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self.data.heap_size_of_children()
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}
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/// Remove an element and delete it from storage if reference count reaches zero.
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/// If the value was purged, return the old value.
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pub fn remove_and_purge(&mut self, key: &H256) -> Option<DBValue> {
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if key == &KECCAK_NULL_RLP {
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return None;
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}
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match self.data.entry(key.clone()) {
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Entry::Occupied(mut entry) =>
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if entry.get().1 == 1 {
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Some(entry.remove().0)
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} else {
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entry.get_mut().1 -= 1;
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None
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},
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Entry::Vacant(entry) => {
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entry.insert((DBValue::new(), -1));
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None
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}
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}
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}
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/// Consolidate all the entries of `other` into `self`.
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pub fn consolidate(&mut self, mut other: Self) {
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for (key, (value, rc)) in other.drain() {
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match self.data.entry(key) {
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Entry::Occupied(mut entry) => {
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if entry.get().1 < 0 {
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entry.get_mut().0 = value;
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}
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entry.get_mut().1 += rc;
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}
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Entry::Vacant(entry) => {
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entry.insert((value, rc));
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}
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}
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}
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}
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}
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impl HashDB for MemoryDB {
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fn get(&self, key: &H256) -> Option<DBValue> {
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if key == &KECCAK_NULL_RLP {
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return Some(DBValue::from_slice(&NULL_RLP));
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}
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match self.data.get(key) {
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Some(&(ref d, rc)) if rc > 0 => Some(d.clone()),
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_ => None
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}
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}
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fn keys(&self) -> HashMap<H256, i32> {
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self.data.iter()
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.filter_map(|(k, v)| if v.1 != 0 {
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Some((*k, v.1))
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} else {
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None
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})
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.collect()
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}
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fn contains(&self, key: &H256) -> bool {
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if key == &KECCAK_NULL_RLP {
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return true;
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}
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match self.data.get(key) {
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Some(&(_, x)) if x > 0 => true,
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_ => false
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}
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}
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fn insert(&mut self, value: &[u8]) -> H256 {
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if value == &NULL_RLP {
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return KECCAK_NULL_RLP.clone();
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}
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let key = keccak(value);
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match self.data.entry(key) {
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Entry::Occupied(mut entry) => {
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let &mut (ref mut old_value, ref mut rc) = entry.get_mut();
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if *rc >= -0x80000000i32 && *rc <= 0 {
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*old_value = DBValue::from_slice(value);
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}
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*rc += 1;
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},
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Entry::Vacant(entry) => {
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entry.insert((DBValue::from_slice(value), 1));
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},
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}
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key
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}
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fn emplace(&mut self, key: H256, value: DBValue) {
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if &*value == &NULL_RLP {
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return;
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}
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match self.data.entry(key) {
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Entry::Occupied(mut entry) => {
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let &mut (ref mut old_value, ref mut rc) = entry.get_mut();
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if *rc >= -0x80000000i32 && *rc <= 0 {
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*old_value = value;
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}
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*rc += 1;
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},
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Entry::Vacant(entry) => {
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entry.insert((value, 1));
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},
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}
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}
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fn remove(&mut self, key: &H256) {
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if key == &KECCAK_NULL_RLP {
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return;
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}
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match self.data.entry(*key) {
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Entry::Occupied(mut entry) => {
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let &mut (_, ref mut rc) = entry.get_mut();
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*rc -= 1;
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},
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Entry::Vacant(entry) => {
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entry.insert((DBValue::new(), -1));
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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 super::*;
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#[test]
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fn memorydb_remove_and_purge() {
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let hello_bytes = b"Hello world!";
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let hello_key = keccak(hello_bytes);
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let mut m = MemoryDB::new();
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m.remove(&hello_key);
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assert_eq!(m.raw(&hello_key).unwrap().1, -1);
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m.purge();
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assert_eq!(m.raw(&hello_key).unwrap().1, -1);
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m.insert(hello_bytes);
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assert_eq!(m.raw(&hello_key).unwrap().1, 0);
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m.purge();
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assert_eq!(m.raw(&hello_key), None);
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let mut m = MemoryDB::new();
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assert!(m.remove_and_purge(&hello_key).is_none());
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assert_eq!(m.raw(&hello_key).unwrap().1, -1);
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m.insert(hello_bytes);
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m.insert(hello_bytes);
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assert_eq!(m.raw(&hello_key).unwrap().1, 1);
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assert_eq!(&*m.remove_and_purge(&hello_key).unwrap(), hello_bytes);
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assert_eq!(m.raw(&hello_key), None);
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assert!(m.remove_and_purge(&hello_key).is_none());
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}
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#[test]
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fn consolidate() {
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let mut main = MemoryDB::new();
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let mut other = MemoryDB::new();
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let remove_key = other.insert(b"doggo");
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main.remove(&remove_key);
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let insert_key = other.insert(b"arf");
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main.emplace(insert_key, DBValue::from_slice(b"arf"));
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let negative_remove_key = other.insert(b"negative");
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other.remove(&negative_remove_key); // ref cnt: 0
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other.remove(&negative_remove_key); // ref cnt: -1
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main.remove(&negative_remove_key); // ref cnt: -1
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main.consolidate(other);
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let overlay = main.drain();
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assert_eq!(overlay.get(&remove_key).unwrap(), &(DBValue::from_slice(b"doggo"), 0));
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assert_eq!(overlay.get(&insert_key).unwrap(), &(DBValue::from_slice(b"arf"), 2));
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assert_eq!(overlay.get(&negative_remove_key).unwrap(), &(DBValue::from_slice(b"negative"), -2));
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}
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}
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