2019-01-07 11:33:07 +01:00
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// Copyright 2015-2019 Parity Technologies (UK) Ltd.
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// This file is part of Parity Ethereum.
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2016-02-05 13:40:41 +01:00
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2019-01-07 11:33:07 +01:00
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// Parity Ethereum is free software: you can redistribute it and/or modify
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2016-02-05 13:40:41 +01:00
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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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2019-01-07 11:33:07 +01:00
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// Parity Ethereum is distributed in the hope that it will be useful,
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2016-02-05 13:40:41 +01:00
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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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2019-01-07 11:33:07 +01:00
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// along with Parity Ethereum. If not, see <http://www.gnu.org/licenses/>.
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2016-02-05 13:40:41 +01:00
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2017-09-25 19:45:33 +02:00
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extern crate either;
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2018-08-10 15:36:19 +02:00
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extern crate ethereum_types;
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2017-09-25 19:45:33 +02:00
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extern crate memmap;
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2018-08-10 15:36:19 +02:00
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extern crate parking_lot;
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extern crate primal;
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2016-07-13 19:59:59 +02:00
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2017-07-18 15:38:10 +02:00
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#[macro_use]
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extern crate crunchy;
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2016-01-30 23:02:55 +01:00
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#[macro_use]
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extern crate log;
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2017-09-25 19:45:33 +02:00
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2019-02-20 10:05:11 +01:00
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#[cfg(test)]
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extern crate rustc_hex;
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#[cfg(test)]
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extern crate serde_json;
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2018-03-14 12:26:20 +01:00
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#[cfg(test)]
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extern crate tempdir;
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2019-02-20 10:05:11 +01:00
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#[cfg(feature = "bench")]
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pub mod compute;
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#[cfg(not(feature = "bench"))]
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mod compute;
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2017-09-25 19:45:33 +02:00
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mod seed_compute;
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mod cache;
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mod keccak;
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mod shared;
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2016-01-17 12:00:34 +01:00
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2019-02-20 10:05:11 +01:00
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#[cfg(feature = "bench")]
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pub mod progpow;
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#[cfg(not(feature = "bench"))]
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mod progpow;
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2017-09-25 19:45:33 +02:00
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pub use cache::{NodeCacheBuilder, OptimizeFor};
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pub use compute::{ProofOfWork, quick_get_difficulty, slow_hash_block_number};
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use compute::Light;
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use ethereum_types::{U256, U512};
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use keccak::H256;
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use parking_lot::Mutex;
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pub use seed_compute::SeedHashCompute;
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pub use shared::ETHASH_EPOCH_LENGTH;
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use std::mem;
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use std::path::{Path, PathBuf};
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2016-07-13 19:59:59 +02:00
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use std::sync::Arc;
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2016-02-18 22:35:14 +01:00
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struct LightCache {
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recent_epoch: Option<u64>,
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recent: Option<Arc<Light>>,
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prev_epoch: Option<u64>,
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prev: Option<Arc<Light>>,
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}
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2016-02-29 19:30:13 +01:00
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/// Light/Full cache manager.
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pub struct EthashManager {
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nodecache_builder: NodeCacheBuilder,
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cache: Mutex<LightCache>,
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cache_dir: PathBuf,
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progpow_transition: u64,
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}
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impl EthashManager {
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/// Create a new new instance of ethash manager
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pub fn new<T: Into<Option<OptimizeFor>>>(cache_dir: &Path, optimize_for: T, progpow_transition: u64) -> EthashManager {
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EthashManager {
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cache_dir: cache_dir.to_path_buf(),
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nodecache_builder: NodeCacheBuilder::new(optimize_for.into().unwrap_or_default(), progpow_transition),
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progpow_transition: progpow_transition,
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cache: Mutex::new(LightCache {
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recent_epoch: None,
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recent: None,
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prev_epoch: None,
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prev: None,
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}),
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}
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}
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/// Calculate the light client data
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/// `block_number` - Block number to check
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/// `light` - The light client handler
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/// `header_hash` - The header hash to pack into the mix
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/// `nonce` - The nonce to pack into the mix
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pub fn compute_light(&self, block_number: u64, header_hash: &H256, nonce: u64) -> ProofOfWork {
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let epoch = block_number / ETHASH_EPOCH_LENGTH;
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let light = {
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let mut lights = self.cache.lock();
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let light = if block_number == self.progpow_transition {
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// we need to regenerate the cache to trigger algorithm change to progpow inside `Light`
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None
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} else {
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match lights.recent_epoch.clone() {
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Some(ref e) if *e == epoch => lights.recent.clone(),
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_ => match lights.prev_epoch.clone() {
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Some(e) if e == epoch => {
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// don't swap if recent is newer.
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if lights.recent_epoch > lights.prev_epoch {
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None
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} else {
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// swap
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let t = lights.prev_epoch;
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lights.prev_epoch = lights.recent_epoch;
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lights.recent_epoch = t;
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let t = lights.prev.clone();
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lights.prev = lights.recent.clone();
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lights.recent = t;
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lights.recent.clone()
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}
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2016-10-28 16:10:30 +02:00
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}
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_ => None,
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},
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}
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};
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2016-02-18 22:35:14 +01:00
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match light {
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None => {
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2018-01-10 22:19:03 +01:00
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let light = match self.nodecache_builder.light_from_file(
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&self.cache_dir,
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block_number,
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) {
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Ok(light) => Arc::new(light),
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Err(e) => {
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debug!("Light cache file not found for {}:{}", block_number, e);
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let mut light = self.nodecache_builder.light(
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&self.cache_dir,
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block_number,
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);
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if let Err(e) = light.to_file() {
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warn!("Light cache file write error: {}", e);
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}
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Arc::new(light)
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}
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};
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lights.prev_epoch = mem::replace(&mut lights.recent_epoch, Some(epoch));
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lights.prev = mem::replace(&mut lights.recent, Some(light.clone()));
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light
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}
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Some(light) => light,
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}
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};
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light.compute(header_hash, nonce, block_number)
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2016-01-17 12:00:34 +01:00
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}
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}
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2016-02-18 22:35:14 +01:00
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2018-08-10 15:36:19 +02:00
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/// Convert an Ethash boundary to its original difficulty. Basically just `f(x) = 2^256 / x`.
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pub fn boundary_to_difficulty(boundary: ðereum_types::H256) -> U256 {
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difficulty_to_boundary_aux(&**boundary)
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}
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/// Convert an Ethash difficulty to the target boundary. Basically just `f(x) = 2^256 / x`.
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pub fn difficulty_to_boundary(difficulty: &U256) -> ethereum_types::H256 {
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difficulty_to_boundary_aux(difficulty).into()
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}
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fn difficulty_to_boundary_aux<T: Into<U512>>(difficulty: T) -> ethereum_types::U256 {
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let difficulty = difficulty.into();
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assert!(!difficulty.is_zero());
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if difficulty == U512::one() {
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U256::max_value()
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} else {
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// difficulty > 1, so result should never overflow 256 bits
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U256::from((U512::one() << 256) / difficulty)
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}
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}
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2016-02-18 22:35:14 +01:00
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#[test]
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fn test_lru() {
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2018-03-14 12:26:20 +01:00
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use tempdir::TempDir;
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let tempdir = TempDir::new("").unwrap();
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let ethash = EthashManager::new(tempdir.path(), None, u64::max_value());
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let hash = [0u8; 32];
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ethash.compute_light(1, &hash, 1);
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ethash.compute_light(50000, &hash, 1);
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2016-07-13 19:59:59 +02:00
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assert_eq!(ethash.cache.lock().recent_epoch.unwrap(), 1);
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assert_eq!(ethash.cache.lock().prev_epoch.unwrap(), 0);
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ethash.compute_light(1, &hash, 1);
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assert_eq!(ethash.cache.lock().recent_epoch.unwrap(), 0);
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assert_eq!(ethash.cache.lock().prev_epoch.unwrap(), 1);
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2016-02-18 22:35:14 +01:00
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ethash.compute_light(70000, &hash, 1);
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2016-07-13 19:59:59 +02:00
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assert_eq!(ethash.cache.lock().recent_epoch.unwrap(), 2);
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assert_eq!(ethash.cache.lock().prev_epoch.unwrap(), 0);
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2016-02-18 22:35:14 +01:00
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}
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2017-07-18 14:14:42 +02:00
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2018-08-10 15:36:19 +02:00
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#[test]
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fn test_difficulty_to_boundary() {
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use ethereum_types::H256;
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use std::str::FromStr;
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assert_eq!(difficulty_to_boundary(&U256::from(1)), H256::from(U256::max_value()));
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assert_eq!(difficulty_to_boundary(&U256::from(2)), H256::from_str("8000000000000000000000000000000000000000000000000000000000000000").unwrap());
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assert_eq!(difficulty_to_boundary(&U256::from(4)), H256::from_str("4000000000000000000000000000000000000000000000000000000000000000").unwrap());
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assert_eq!(difficulty_to_boundary(&U256::from(32)), H256::from_str("0800000000000000000000000000000000000000000000000000000000000000").unwrap());
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}
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#[test]
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fn test_difficulty_to_boundary_regression() {
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use ethereum_types::H256;
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// the last bit was originally being truncated when performing the conversion
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// https://github.com/paritytech/parity-ethereum/issues/8397
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for difficulty in 1..9 {
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assert_eq!(U256::from(difficulty), boundary_to_difficulty(&difficulty_to_boundary(&difficulty.into())));
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assert_eq!(H256::from(difficulty), difficulty_to_boundary(&boundary_to_difficulty(&difficulty.into())));
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assert_eq!(U256::from(difficulty), boundary_to_difficulty(&boundary_to_difficulty(&difficulty.into()).into()));
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assert_eq!(H256::from(difficulty), difficulty_to_boundary(&difficulty_to_boundary(&difficulty.into()).into()));
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}
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}
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#[test]
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#[should_panic]
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fn test_difficulty_to_boundary_panics_on_zero() {
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difficulty_to_boundary(&U256::from(0));
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}
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#[test]
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#[should_panic]
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fn test_boundary_to_difficulty_panics_on_zero() {
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boundary_to_difficulty(ðereum_types::H256::from(0));
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}
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