3fe21f5931
* Ethcore-specific rpc methods * Initializing ethcore-rpc
402 lines
14 KiB
Rust
402 lines
14 KiB
Rust
// Copyright 2015, 2016 Ethcore (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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use rayon::prelude::*;
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use std::sync::atomic::AtomicBool;
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use util::*;
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use ethcore::views::{BlockView, HeaderView};
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use ethcore::client::{BlockChainClient, BlockId};
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use ethcore::block::{ClosedBlock, IsBlock};
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use ethcore::error::*;
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use ethcore::transaction::SignedTransaction;
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use super::{MinerService, MinerStatus, TransactionQueue, AccountDetails};
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/// Keeps track of transactions using priority queue and holds currently mined block.
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pub struct Miner {
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transaction_queue: Mutex<TransactionQueue>,
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// for sealing...
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force_sealing: bool,
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sealing_enabled: AtomicBool,
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sealing_block_last_request: Mutex<u64>,
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sealing_work: Mutex<UsingQueue<ClosedBlock>>,
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gas_floor_target: RwLock<U256>,
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author: RwLock<Address>,
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extra_data: RwLock<Bytes>,
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}
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impl Default for Miner {
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fn default() -> Miner {
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Miner {
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transaction_queue: Mutex::new(TransactionQueue::new()),
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force_sealing: false,
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sealing_enabled: AtomicBool::new(false),
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sealing_block_last_request: Mutex::new(0),
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sealing_work: Mutex::new(UsingQueue::new(5)),
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gas_floor_target: RwLock::new(U256::zero()),
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author: RwLock::new(Address::default()),
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extra_data: RwLock::new(Vec::new()),
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}
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}
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}
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impl Miner {
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/// Creates new instance of miner
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pub fn new(force_sealing: bool) -> Arc<Miner> {
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Arc::new(Miner {
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transaction_queue: Mutex::new(TransactionQueue::new()),
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force_sealing: force_sealing,
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sealing_enabled: AtomicBool::new(force_sealing),
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sealing_block_last_request: Mutex::new(0),
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sealing_work: Mutex::new(UsingQueue::new(5)),
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gas_floor_target: RwLock::new(U256::zero()),
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author: RwLock::new(Address::default()),
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extra_data: RwLock::new(Vec::new()),
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})
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}
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/// Set the author that we will seal blocks as.
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pub fn set_author(&self, author: Address) {
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*self.author.write().unwrap() = author;
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}
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/// Set the extra_data that we will seal blocks with.
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pub fn set_extra_data(&self, extra_data: Bytes) {
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*self.extra_data.write().unwrap() = extra_data;
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}
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/// Set the gas limit we wish to target when sealing a new block.
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pub fn set_gas_floor_target(&self, target: U256) {
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*self.gas_floor_target.write().unwrap() = target;
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}
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/// Set minimal gas price of transaction to be accepted for mining.
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pub fn set_minimal_gas_price(&self, min_gas_price: U256) {
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self.transaction_queue.lock().unwrap().set_minimal_gas_price(min_gas_price);
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}
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/// Prepares new block for sealing including top transactions from queue.
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#[cfg_attr(feature="dev", allow(match_same_arms))]
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fn prepare_sealing(&self, chain: &BlockChainClient) {
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trace!(target: "miner", "prepare_sealing: entering");
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let transactions = self.transaction_queue.lock().unwrap().top_transactions();
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let mut sealing_work = self.sealing_work.lock().unwrap();
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let best_hash = chain.best_block_header().sha3();
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/*
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// check to see if last ClosedBlock in would_seals is actually same parent block.
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// if so
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// duplicate, re-open and push any new transactions.
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// if at least one was pushed successfully, close and enqueue new ClosedBlock;
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// otherwise, leave everything alone.
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// otherwise, author a fresh block.
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*/
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let (b, invalid_transactions) = match sealing_work.pop_if(|b| b.block().fields().header.parent_hash() == &best_hash) {
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Some(old_block) => {
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trace!(target: "miner", "Already have previous work; updating and returning");
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// add transactions to old_block
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let e = chain.engine();
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let mut invalid_transactions = HashSet::new();
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let mut block = old_block.reopen(e);
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let block_number = block.block().fields().header.number();
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// TODO: push new uncles, too.
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// TODO: refactor with chain.prepare_sealing
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for tx in transactions {
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let hash = tx.hash();
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let res = block.push_transaction(tx, None);
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match res {
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Err(Error::Execution(ExecutionError::BlockGasLimitReached { gas_limit, gas_used, .. })) => {
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trace!(target: "miner", "Skipping adding transaction to block because of gas limit: {:?}", hash);
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// Exit early if gas left is smaller then min_tx_gas
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let min_tx_gas: U256 = x!(21000); // TODO: figure this out properly.
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if gas_limit - gas_used < min_tx_gas {
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break;
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}
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},
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Err(Error::Transaction(TransactionError::AlreadyImported)) => {} // already have transaction - ignore
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Err(e) => {
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invalid_transactions.insert(hash);
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trace!(target: "miner",
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"Error adding transaction to block: number={}. transaction_hash={:?}, Error: {:?}",
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block_number, hash, e);
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},
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_ => {} // imported ok
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}
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}
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(Some(block.close()), invalid_transactions)
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}
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None => {
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// block not found - create it.
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trace!(target: "miner", "No existing work - making new block");
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chain.prepare_sealing(
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self.author(),
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self.gas_floor_target(),
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self.extra_data(),
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transactions,
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)
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}
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};
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let mut queue = self.transaction_queue.lock().unwrap();
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queue.remove_all(
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&invalid_transactions.into_iter().collect::<Vec<H256>>(),
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|a: &Address| AccountDetails {
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nonce: chain.nonce(a),
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balance: chain.balance(a),
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}
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);
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if let Some(block) = b {
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if sealing_work.peek_last_ref().map_or(true, |pb| pb.block().fields().header.hash() != block.block().fields().header.hash()) {
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trace!(target: "miner", "Pushing a new, refreshed or borrowed pending {}...", block.block().fields().header.hash());
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sealing_work.push(block);
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}
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}
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trace!(target: "miner", "prepare_sealing: leaving (last={:?})", sealing_work.peek_last_ref().map(|b| b.block().fields().header.hash()));
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}
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fn update_gas_limit(&self, chain: &BlockChainClient) {
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let gas_limit = HeaderView::new(&chain.best_block_header()).gas_limit();
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let mut queue = self.transaction_queue.lock().unwrap();
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queue.set_gas_limit(gas_limit);
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}
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}
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const SEALING_TIMEOUT_IN_BLOCKS : u64 = 5;
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impl MinerService for Miner {
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fn clear_and_reset(&self, chain: &BlockChainClient) {
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self.transaction_queue.lock().unwrap().clear();
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self.update_sealing(chain);
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}
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fn status(&self) -> MinerStatus {
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let status = self.transaction_queue.lock().unwrap().status();
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let sealing_work = self.sealing_work.lock().unwrap();
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MinerStatus {
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transactions_in_pending_queue: status.pending,
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transactions_in_future_queue: status.future,
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transactions_in_pending_block: sealing_work.peek_last_ref().map_or(0, |b| b.transactions().len()),
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}
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}
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fn sensible_gas_price(&self) -> U256 {
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// 10% above our minimum.
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*self.transaction_queue.lock().unwrap().minimal_gas_price() * x!(110) / x!(100)
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}
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/// Get the author that we will seal blocks as.
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fn author(&self) -> Address {
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*self.author.read().unwrap()
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}
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/// Get the extra_data that we will seal blocks with.
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fn extra_data(&self) -> Bytes {
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self.extra_data.read().unwrap().clone()
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}
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/// Get the gas limit we wish to target when sealing a new block.
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fn gas_floor_target(&self) -> U256 {
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*self.gas_floor_target.read().unwrap()
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}
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fn import_transactions<T>(&self, transactions: Vec<SignedTransaction>, fetch_account: T) -> Vec<Result<(), Error>>
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where T: Fn(&Address) -> AccountDetails {
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let mut transaction_queue = self.transaction_queue.lock().unwrap();
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transaction_queue.add_all(transactions, fetch_account)
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}
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fn pending_transactions_hashes(&self) -> Vec<H256> {
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let transaction_queue = self.transaction_queue.lock().unwrap();
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transaction_queue.pending_hashes()
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}
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fn transaction(&self, hash: &H256) -> Option<SignedTransaction> {
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let queue = self.transaction_queue.lock().unwrap();
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queue.find(hash)
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}
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fn pending_transactions(&self) -> Vec<SignedTransaction> {
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let queue = self.transaction_queue.lock().unwrap();
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queue.top_transactions()
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}
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fn last_nonce(&self, address: &Address) -> Option<U256> {
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self.transaction_queue.lock().unwrap().last_nonce(address)
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}
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fn update_sealing(&self, chain: &BlockChainClient) {
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if self.sealing_enabled.load(atomic::Ordering::Relaxed) {
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let current_no = chain.chain_info().best_block_number;
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let last_request = *self.sealing_block_last_request.lock().unwrap();
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let should_disable_sealing = !self.force_sealing && current_no > last_request && current_no - last_request > SEALING_TIMEOUT_IN_BLOCKS;
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if should_disable_sealing {
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trace!(target: "miner", "Miner sleeping (current {}, last {})", current_no, last_request);
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self.sealing_enabled.store(false, atomic::Ordering::Relaxed);
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self.sealing_work.lock().unwrap().reset();
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} else if self.sealing_enabled.load(atomic::Ordering::Relaxed) {
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self.prepare_sealing(chain);
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}
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}
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}
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fn map_sealing_work<F, T>(&self, chain: &BlockChainClient, f: F) -> Option<T> where F: FnOnce(&ClosedBlock) -> T {
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trace!(target: "miner", "map_sealing_work: entering");
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let have_work = self.sealing_work.lock().unwrap().peek_last_ref().is_some();
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trace!(target: "miner", "map_sealing_work: have_work={}", have_work);
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if !have_work {
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self.sealing_enabled.store(true, atomic::Ordering::Relaxed);
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self.prepare_sealing(chain);
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}
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let mut sealing_block_last_request = self.sealing_block_last_request.lock().unwrap();
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let best_number = chain.chain_info().best_block_number;
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if *sealing_block_last_request != best_number {
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trace!(target: "miner", "map_sealing_work: Miner received request (was {}, now {}) - waking up.", *sealing_block_last_request, best_number);
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*sealing_block_last_request = best_number;
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}
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let mut sealing_work = self.sealing_work.lock().unwrap();
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let ret = sealing_work.use_last_ref();
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trace!(target: "miner", "map_sealing_work: leaving use_last_ref={:?}", ret.as_ref().map(|b| b.block().fields().header.hash()));
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ret.map(f)
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}
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fn submit_seal(&self, chain: &BlockChainClient, pow_hash: H256, seal: Vec<Bytes>) -> Result<(), Error> {
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if let Some(b) = self.sealing_work.lock().unwrap().take_used_if(|b| &b.hash() == &pow_hash) {
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match chain.try_seal(b.lock(), seal) {
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Err(_) => {
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Err(Error::PowInvalid)
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}
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Ok(sealed) => {
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// TODO: commit DB from `sealed.drain` and make a VerifiedBlock to skip running the transactions twice.
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try!(chain.import_block(sealed.rlp_bytes()));
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Ok(())
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}
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}
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} else {
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Err(Error::PowHashInvalid)
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}
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}
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fn chain_new_blocks(&self, chain: &BlockChainClient, imported: &[H256], invalid: &[H256], enacted: &[H256], retracted: &[H256]) {
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fn fetch_transactions(chain: &BlockChainClient, hash: &H256) -> Vec<SignedTransaction> {
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let block = chain
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.block(BlockId::Hash(*hash))
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// Client should send message after commit to db and inserting to chain.
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.expect("Expected in-chain blocks.");
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let block = BlockView::new(&block);
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block.transactions()
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}
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// First update gas limit in transaction queue
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self.update_gas_limit(chain);
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// Then import all transactions...
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{
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let out_of_chain = retracted
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.par_iter()
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.map(|h| fetch_transactions(chain, h));
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out_of_chain.for_each(|txs| {
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// populate sender
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for tx in &txs {
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let _sender = tx.sender();
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}
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let mut transaction_queue = self.transaction_queue.lock().unwrap();
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let _ = transaction_queue.add_all(txs, |a| AccountDetails {
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nonce: chain.nonce(a),
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balance: chain.balance(a)
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});
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});
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}
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// ...and after that remove old ones
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{
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let in_chain = {
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let mut in_chain = HashSet::new();
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in_chain.extend(imported);
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in_chain.extend(enacted);
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in_chain.extend(invalid);
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in_chain
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.into_iter()
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.collect::<Vec<H256>>()
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};
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let in_chain = in_chain
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.par_iter()
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.map(|h: &H256| fetch_transactions(chain, h));
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in_chain.for_each(|txs| {
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let hashes = txs.iter().map(|tx| tx.hash()).collect::<Vec<H256>>();
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let mut transaction_queue = self.transaction_queue.lock().unwrap();
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transaction_queue.remove_all(&hashes, |a| AccountDetails {
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nonce: chain.nonce(a),
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balance: chain.balance(a)
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});
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});
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}
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self.update_sealing(chain);
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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 MinerService;
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use super::{Miner};
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use util::*;
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use ethcore::client::{TestBlockChainClient, EachBlockWith};
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use ethcore::block::*;
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// TODO [ToDr] To uncomment when TestBlockChainClient can actually return a ClosedBlock.
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#[ignore]
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#[test]
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fn should_prepare_block_to_seal() {
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// given
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let client = TestBlockChainClient::default();
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let miner = Miner::default();
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// when
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let sealing_work = miner.map_sealing_work(&client, |_| ());
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assert!(sealing_work.is_some(), "Expected closed block");
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}
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#[ignore]
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#[test]
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fn should_still_work_after_a_couple_of_blocks() {
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// given
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let client = TestBlockChainClient::default();
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let miner = Miner::default();
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let res = miner.map_sealing_work(&client, |b| b.block().fields().header.hash());
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assert!(res.is_some());
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assert!(miner.submit_seal(&client, res.unwrap(), vec![]).is_ok());
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// two more blocks mined, work requested.
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client.add_blocks(1, EachBlockWith::Uncle);
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miner.map_sealing_work(&client, |b| b.block().fields().header.hash());
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client.add_blocks(1, EachBlockWith::Uncle);
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miner.map_sealing_work(&client, |b| b.block().fields().header.hash());
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// solution to original work submitted.
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assert!(miner.submit_seal(&client, res.unwrap(), vec![]).is_ok());
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}
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}
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