openethereum/ethcore/src/client.rs

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// Copyright 2015, 2016 Ethcore (UK) Ltd.
// This file is part of Parity.
// Parity is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// Parity is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with Parity. If not, see <http://www.gnu.org/licenses/>.
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//! Blockchain database client.
use util::*;
use util::panics::*;
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use blockchain::{BlockChain, BlockProvider};
use views::BlockView;
use error::*;
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use header::{BlockNumber};
use state::State;
use spec::Spec;
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use engine::Engine;
use views::HeaderView;
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use block_queue::BlockQueue;
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use service::{NetSyncMessage, SyncMessage};
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use env_info::LastHashes;
use verification::*;
use block::*;
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use transaction::LocalizedTransaction;
use extras::TransactionAddress;
use filter::Filter;
use log_entry::LocalizedLogEntry;
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pub use block_queue::{BlockQueueConfig, BlockQueueInfo};
pub use blockchain::{TreeRoute, BlockChainConfig, CacheSize as BlockChainCacheSize};
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/// Uniquely identifies block.
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#[derive(Debug, PartialEq, Clone)]
pub enum BlockId {
/// Block's sha3.
/// Querying by hash is always faster.
Hash(H256),
/// Block number within canon blockchain.
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Number(BlockNumber),
/// Earliest block (genesis).
Earliest,
/// Latest mined block.
Latest
}
/// Uniquely identifies transaction.
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#[derive(Debug, PartialEq, Clone)]
pub enum TransactionId {
/// Transaction's sha3.
Hash(H256),
/// Block id and transaction index within this block.
/// Querying by block position is always faster.
Location(BlockId, usize)
}
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/// General block status
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#[derive(Debug, Eq, PartialEq)]
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pub enum BlockStatus {
/// Part of the blockchain.
InChain,
/// Queued for import.
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Queued,
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/// Known as bad.
Bad,
/// Unknown.
Unknown,
}
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/// Client configuration. Includes configs for all sub-systems.
#[derive(Debug, Default)]
pub struct ClientConfig {
/// Block queue configuration.
pub queue: BlockQueueConfig,
/// Blockchain configuration.
pub blockchain: BlockChainConfig,
}
/// Information about the blockchain gathered together.
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#[derive(Debug)]
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pub struct BlockChainInfo {
/// Blockchain difficulty.
pub total_difficulty: U256,
/// Block queue difficulty.
pub pending_total_difficulty: U256,
/// Genesis block hash.
pub genesis_hash: H256,
/// Best blockchain block hash.
pub best_block_hash: H256,
/// Best blockchain block number.
pub best_block_number: BlockNumber
}
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impl fmt::Display for BlockChainInfo {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "#{}.{}", self.best_block_number, self.best_block_hash)
}
}
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/// Blockchain database client. Owns and manages a blockchain and a block queue.
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pub trait BlockChainClient : Sync + Send {
/// Get raw block header data by block id.
fn block_header(&self, id: BlockId) -> Option<Bytes>;
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/// Get raw block body data by block id.
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/// Block body is an RLP list of two items: uncles and transactions.
fn block_body(&self, id: BlockId) -> Option<Bytes>;
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/// Get raw block data by block header hash.
fn block(&self, id: BlockId) -> Option<Bytes>;
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/// Get block status by block header hash.
fn block_status(&self, id: BlockId) -> BlockStatus;
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/// Get block total difficulty.
fn block_total_difficulty(&self, id: BlockId) -> Option<U256>;
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/// Get address code.
fn code(&self, address: &Address) -> Option<Bytes>;
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/// Get transaction with given hash.
fn transaction(&self, id: TransactionId) -> Option<LocalizedTransaction>;
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/// Get a tree route between `from` and `to`.
/// See `BlockChain::tree_route`.
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fn tree_route(&self, from: &H256, to: &H256) -> Option<TreeRoute>;
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/// Get latest state node
fn state_data(&self, hash: &H256) -> Option<Bytes>;
/// Get raw block receipts data by block header hash.
fn block_receipts(&self, hash: &H256) -> Option<Bytes>;
/// Import a block into the blockchain.
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fn import_block(&self, bytes: Bytes) -> ImportResult;
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/// Get block queue information.
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fn queue_info(&self) -> BlockQueueInfo;
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/// Clear block queue and abort all import activity.
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fn clear_queue(&self);
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/// Get blockchain information.
fn chain_info(&self) -> BlockChainInfo;
/// Get the best block header.
fn best_block_header(&self) -> Bytes {
self.block_header(BlockId::Hash(self.chain_info().best_block_hash)).unwrap()
}
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/// Returns numbers of blocks containing given bloom.
fn blocks_with_bloom(&self, bloom: &H2048, from_block: BlockId, to_block: BlockId) -> Option<Vec<BlockNumber>>;
/// Returns logs matching given filter.
fn logs(&self, filter: Filter) -> Vec<LocalizedLogEntry>;
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}
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#[derive(Default, Clone, Debug, Eq, PartialEq)]
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/// Report on the status of a client.
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pub struct ClientReport {
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/// How many blocks have been imported so far.
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pub blocks_imported: usize,
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/// How many transactions have been applied so far.
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pub transactions_applied: usize,
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/// How much gas has been processed so far.
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pub gas_processed: U256,
}
impl ClientReport {
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/// Alter internal reporting to reflect the additional `block` has been processed.
pub fn accrue_block(&mut self, block: &PreverifiedBlock) {
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self.blocks_imported += 1;
self.transactions_applied += block.transactions.len();
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self.gas_processed = self.gas_processed + block.header.gas_used;
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}
}
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/// Blockchain database client backed by a persistent database. Owns and manages a blockchain and a block queue.
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/// Call `import_block()` to import a block asynchronously; `flush_queue()` flushes the queue.
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pub struct Client {
chain: Arc<RwLock<BlockChain>>,
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engine: Arc<Box<Engine>>,
state_db: Mutex<JournalDB>,
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block_queue: RwLock<BlockQueue>,
report: RwLock<ClientReport>,
import_lock: Mutex<()>,
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panic_handler: Arc<PanicHandler>,
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// for sealing...
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sealing_block: Mutex<Option<ClosedBlock>>,
author: RwLock<Address>,
extra_data: RwLock<Bytes>,
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}
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const HISTORY: u64 = 2000000;
const CLIENT_DB_VER_STR: &'static str = "4.0";
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impl Client {
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/// Create a new client with given spec and DB path.
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pub fn new(config: ClientConfig, spec: Spec, path: &Path, message_channel: IoChannel<NetSyncMessage> ) -> Result<Arc<Client>, Error> {
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let mut dir = path.to_path_buf();
dir.push(H64::from(spec.genesis_header().hash()).hex());
//TODO: sec/fat: pruned/full versioning
dir.push(format!("v{}-sec-pruned", CLIENT_DB_VER_STR));
let path = dir.as_path();
let gb = spec.genesis_block();
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let chain = Arc::new(RwLock::new(BlockChain::new(config.blockchain, &gb, path)));
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let mut state_path = path.to_path_buf();
state_path.push("state");
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let engine = Arc::new(try!(spec.to_engine()));
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let mut state_db = JournalDB::new(state_path.to_str().unwrap());
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if state_db.is_empty() && engine.spec().ensure_db_good(&mut state_db) {
state_db.commit(0, &engine.spec().genesis_header().hash(), None).expect("Error commiting genesis state to state DB");
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}
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let block_queue = BlockQueue::new(config.queue, engine.clone(), message_channel);
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let panic_handler = PanicHandler::new_in_arc();
panic_handler.forward_from(&block_queue);
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Ok(Arc::new(Client {
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chain: chain,
engine: engine,
state_db: Mutex::new(state_db),
block_queue: RwLock::new(block_queue),
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report: RwLock::new(Default::default()),
import_lock: Mutex::new(()),
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panic_handler: panic_handler,
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sealing_block: Mutex::new(None),
author: RwLock::new(Address::new()),
extra_data: RwLock::new(Vec::new()),
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}))
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}
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/// Flush the block import queue.
pub fn flush_queue(&self) {
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self.block_queue.write().unwrap().flush();
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}
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fn build_last_hashes(&self, parent_hash: H256) -> LastHashes {
let mut last_hashes = LastHashes::new();
last_hashes.resize(256, H256::new());
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last_hashes[0] = parent_hash;
let chain = self.chain.read().unwrap();
for i in 0..255 {
match chain.block_details(&last_hashes[i]) {
Some(details) => {
last_hashes[i + 1] = details.parent.clone();
},
None => break,
}
}
last_hashes
}
fn check_and_close_block(&self, block: &PreverifiedBlock) -> Result<ClosedBlock, ()> {
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let engine = self.engine.deref().deref();
let header = &block.header;
// Check the block isn't so old we won't be able to enact it.
let best_block_number = self.chain.read().unwrap().best_block_number();
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if best_block_number >= HISTORY && header.number() <= best_block_number - HISTORY {
warn!(target: "client", "Block import failed for #{} ({})\nBlock is ancient (current best block: #{}).", header.number(), header.hash(), best_block_number);
return Err(());
}
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// Verify Block Family
let verify_family_result = verify_block_family(&header, &block.bytes, engine, self.chain.read().unwrap().deref());
if let Err(e) = verify_family_result {
warn!(target: "client", "Stage 3 block verification failed for #{} ({})\nError: {:?}", header.number(), header.hash(), e);
return Err(());
};
// Check if Parent is in chain
let chain_has_parent = self.chain.read().unwrap().block_header(&header.parent_hash);
if let None = chain_has_parent {
warn!(target: "client", "Block import failed for #{} ({}): Parent not found ({}) ", header.number(), header.hash(), header.parent_hash);
return Err(());
};
// Enact Verified Block
let parent = chain_has_parent.unwrap();
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let last_hashes = self.build_last_hashes(header.parent_hash.clone());
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let db = self.state_db.lock().unwrap().clone();
let enact_result = enact_verified(&block, engine, db, &parent, last_hashes);
if let Err(e) = enact_result {
warn!(target: "client", "Block import failed for #{} ({})\nError: {:?}", header.number(), header.hash(), e);
return Err(());
};
// Final Verification
let closed_block = enact_result.unwrap();
if let Err(e) = verify_block_final(&header, closed_block.block().header()) {
warn!(target: "client", "Stage 4 block verification failed for #{} ({})\nError: {:?}", header.number(), header.hash(), e);
return Err(());
}
Ok(closed_block)
}
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/// This is triggered by a message coming from a block queue when the block is ready for insertion
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pub fn import_verified_blocks(&self, io: &IoChannel<NetSyncMessage>) -> usize {
let max_blocks_to_import = 128;
let mut good_blocks = Vec::with_capacity(max_blocks_to_import);
let mut bad_blocks = HashSet::new();
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let _import_lock = self.import_lock.lock();
let blocks = self.block_queue.write().unwrap().drain(max_blocks_to_import);
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let original_best = self.chain_info().best_block_hash;
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for block in blocks {
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let header = &block.header;
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if bad_blocks.contains(&header.parent_hash) {
bad_blocks.insert(header.hash());
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continue;
}
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let closed_block = self.check_and_close_block(&block);
if let Err(_) = closed_block {
bad_blocks.insert(header.hash());
break;
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}
// Insert block
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let closed_block = closed_block.unwrap();
self.chain.write().unwrap().insert_block(&block.bytes, closed_block.block().receipts().clone());
good_blocks.push(header.hash());
let ancient = if header.number() >= HISTORY {
let n = header.number() - HISTORY;
let chain = self.chain.read().unwrap();
Some((n, chain.block_hash(n).unwrap()))
} else {
None
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};
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// Commit results
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closed_block.drain()
.commit(header.number(), &header.hash(), ancient)
.expect("State DB commit failed.");
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self.report.write().unwrap().accrue_block(&block);
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trace!(target: "client", "Imported #{} ({})", header.number(), header.hash());
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}
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let imported = good_blocks.len();
let bad_blocks = bad_blocks.into_iter().collect::<Vec<H256>>();
{
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let mut block_queue = self.block_queue.write().unwrap();
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block_queue.mark_as_bad(&bad_blocks);
block_queue.mark_as_good(&good_blocks);
}
{
let block_queue = self.block_queue.read().unwrap();
if !good_blocks.is_empty() && block_queue.queue_info().is_empty() {
io.send(NetworkIoMessage::User(SyncMessage::NewChainBlocks {
good: good_blocks,
bad: bad_blocks,
})).unwrap();
}
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}
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if self.chain_info().best_block_hash != original_best {
self.prepare_sealing();
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}
imported
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}
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/// Get a copy of the best block's state.
pub fn state(&self) -> State {
State::from_existing(self.state_db.lock().unwrap().clone(), HeaderView::new(&self.best_block_header()).state_root(), self.engine.account_start_nonce())
}
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/// Get info on the cache.
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pub fn blockchain_cache_info(&self) -> BlockChainCacheSize {
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self.chain.read().unwrap().cache_size()
}
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/// Get the report.
pub fn report(&self) -> ClientReport {
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self.report.read().unwrap().clone()
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}
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/// Tick the client.
pub fn tick(&self) {
self.chain.read().unwrap().collect_garbage();
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self.block_queue.read().unwrap().collect_garbage();
}
/// Set up the cache behaviour.
pub fn configure_cache(&self, pref_cache_size: usize, max_cache_size: usize) {
self.chain.write().unwrap().configure_cache(pref_cache_size, max_cache_size);
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}
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fn block_hash(chain: &BlockChain, id: BlockId) -> Option<H256> {
match id {
BlockId::Hash(hash) => Some(hash),
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BlockId::Number(number) => chain.block_hash(number),
BlockId::Earliest => chain.block_hash(0),
BlockId::Latest => Some(chain.best_block_hash())
}
}
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fn block_number(&self, id: BlockId) -> Option<BlockNumber> {
match id {
BlockId::Number(number) => Some(number),
BlockId::Hash(ref hash) => self.chain.read().unwrap().block_number(hash),
BlockId::Earliest => Some(0),
BlockId::Latest => Some(self.chain.read().unwrap().best_block_number())
}
}
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/// Get the author that we will seal blocks as.
pub fn author(&self) -> Address {
self.author.read().unwrap().clone()
}
/// Set the author that we will seal blocks as.
pub fn set_author(&self, author: Address) {
*self.author.write().unwrap() = author;
}
/// Get the extra_data that we will seal blocks wuth.
pub fn extra_data(&self) -> Bytes {
self.extra_data.read().unwrap().clone()
}
/// Set the extra_data that we will seal blocks with.
pub fn set_extra_data(&self, extra_data: Bytes) {
*self.extra_data.write().unwrap() = extra_data;
}
/// New chain head event. Restart mining operation.
pub fn prepare_sealing(&self) {
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let h = self.chain.read().unwrap().best_block_hash();
let mut b = OpenBlock::new(
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self.engine.deref().deref(),
self.state_db.lock().unwrap().clone(),
match self.chain.read().unwrap().block_header(&h) { Some(ref x) => x, None => {return;} },
self.build_last_hashes(h.clone()),
self.author(),
self.extra_data()
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);
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self.chain.read().unwrap().find_uncle_headers(&h).unwrap().into_iter().foreach(|h| { b.push_uncle(h).unwrap(); });
// TODO: push transactions.
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let b = b.close();
trace!("Sealing: number={}, hash={}, diff={}", b.hash(), b.block().header().difficulty(), b.block().header().number());
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*self.sealing_block.lock().unwrap() = Some(b);
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}
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/// Grab the `ClosedBlock` that we want to be sealed. Comes as a mutex that you have to lock.
pub fn sealing_block(&self) -> &Mutex<Option<ClosedBlock>> {
if self.sealing_block.lock().unwrap().is_none() {
self.prepare_sealing();
}
&self.sealing_block
}
/// Submit `seal` as a valid solution for the header of `pow_hash`.
/// Will check the seal, but not actually insert the block into the chain.
pub fn submit_seal(&self, pow_hash: H256, seal: Vec<Bytes>) -> Result<(), Error> {
let mut maybe_b = self.sealing_block.lock().unwrap();
match *maybe_b {
Some(ref b) if b.hash() == pow_hash => {}
_ => { return Err(Error::PowHashInvalid); }
}
let b = maybe_b.take();
match b.unwrap().try_seal(self.engine.deref().deref(), seal) {
Err(old) => {
*maybe_b = Some(old);
Err(Error::PowInvalid)
}
Ok(sealed) => {
// TODO: commit DB from `sealed.drain` and make a VerifiedBlock to skip running the transactions twice.
try!(self.import_block(sealed.rlp_bytes()));
Ok(())
}
}
}
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}
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// TODO: need MinerService MinerIoHandler
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impl BlockChainClient for Client {
fn block_header(&self, id: BlockId) -> Option<Bytes> {
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let chain = self.chain.read().unwrap();
Self::block_hash(&chain, id).and_then(|hash| chain.block(&hash).map(|bytes| BlockView::new(&bytes).rlp().at(0).as_raw().to_vec()))
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}
fn block_body(&self, id: BlockId) -> Option<Bytes> {
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let chain = self.chain.read().unwrap();
Self::block_hash(&chain, id).and_then(|hash| {
chain.block(&hash).map(|bytes| {
let rlp = Rlp::new(&bytes);
let mut body = RlpStream::new_list(2);
body.append_raw(rlp.at(1).as_raw(), 1);
body.append_raw(rlp.at(2).as_raw(), 1);
body.out()
})
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})
}
fn block(&self, id: BlockId) -> Option<Bytes> {
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let chain = self.chain.read().unwrap();
Self::block_hash(&chain, id).and_then(|hash| {
chain.block(&hash)
})
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}
fn block_status(&self, id: BlockId) -> BlockStatus {
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let chain = self.chain.read().unwrap();
match Self::block_hash(&chain, id) {
Some(ref hash) if chain.is_known(hash) => BlockStatus::InChain,
Some(hash) => self.block_queue.read().unwrap().block_status(&hash),
None => BlockStatus::Unknown
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}
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}
fn block_total_difficulty(&self, id: BlockId) -> Option<U256> {
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let chain = self.chain.read().unwrap();
Self::block_hash(&chain, id).and_then(|hash| chain.block_details(&hash)).map(|d| d.total_difficulty)
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}
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fn code(&self, address: &Address) -> Option<Bytes> {
self.state().code(address)
}
fn transaction(&self, id: TransactionId) -> Option<LocalizedTransaction> {
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let chain = self.chain.read().unwrap();
match id {
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TransactionId::Hash(ref hash) => chain.transaction_address(hash),
TransactionId::Location(id, index) => Self::block_hash(&chain, id).map(|hash| TransactionAddress {
block_hash: hash,
index: index
})
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}.and_then(|address| chain.transaction(&address))
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}
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fn tree_route(&self, from: &H256, to: &H256) -> Option<TreeRoute> {
let chain = self.chain.read().unwrap();
match chain.is_known(from) && chain.is_known(to) {
true => Some(chain.tree_route(from.clone(), to.clone())),
false => None
}
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}
fn state_data(&self, _hash: &H256) -> Option<Bytes> {
None
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}
fn block_receipts(&self, _hash: &H256) -> Option<Bytes> {
None
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}
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fn import_block(&self, bytes: Bytes) -> ImportResult {
{
let header = BlockView::new(&bytes).header_view();
if self.chain.read().unwrap().is_known(&header.sha3()) {
return Err(x!(ImportError::AlreadyInChain));
}
if self.block_status(BlockId::Hash(header.parent_hash())) == BlockStatus::Unknown {
return Err(x!(BlockError::UnknownParent(header.parent_hash())));
}
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}
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self.block_queue.write().unwrap().import_block(bytes)
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}
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fn queue_info(&self) -> BlockQueueInfo {
self.block_queue.read().unwrap().queue_info()
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}
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fn clear_queue(&self) {
self.block_queue.write().unwrap().clear();
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}
fn chain_info(&self) -> BlockChainInfo {
let chain = self.chain.read().unwrap();
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BlockChainInfo {
total_difficulty: chain.best_block_total_difficulty(),
pending_total_difficulty: chain.best_block_total_difficulty(),
genesis_hash: chain.genesis_hash(),
best_block_hash: chain.best_block_hash(),
best_block_number: From::from(chain.best_block_number())
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}
}
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fn blocks_with_bloom(&self, bloom: &H2048, from_block: BlockId, to_block: BlockId) -> Option<Vec<BlockNumber>> {
match (self.block_number(from_block), self.block_number(to_block)) {
(Some(from), Some(to)) => Some(self.chain.read().unwrap().blocks_with_bloom(bloom, from, to)),
_ => None
}
}
fn logs(&self, filter: Filter) -> Vec<LocalizedLogEntry> {
let mut blocks = filter.bloom_possibilities().iter()
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.filter_map(|bloom| self.blocks_with_bloom(bloom, filter.from_block.clone(), filter.to_block.clone()))
.flat_map(|m| m)
// remove duplicate elements
.collect::<HashSet<u64>>()
.into_iter()
.collect::<Vec<u64>>();
blocks.sort();
blocks.into_iter()
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.filter_map(|number| self.chain.read().unwrap().block_hash(number).map(|hash| (number, hash)))
.filter_map(|(number, hash)| self.chain.read().unwrap().block_receipts(&hash).map(|r| (number, hash, r.receipts)))
.filter_map(|(number, hash, receipts)| self.chain.read().unwrap().block(&hash).map(|ref b| (number, hash, receipts, BlockView::new(b).transaction_hashes())))
.flat_map(|(number, hash, receipts, hashes)| {
let mut log_index = 0;
receipts.into_iter()
.enumerate()
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.flat_map(|(index, receipt)| {
log_index += receipt.logs.len();
receipt.logs.into_iter()
.enumerate()
.filter(|tuple| filter.matches(&tuple.1))
.map(|(i, log)| LocalizedLogEntry {
entry: log,
block_hash: hash.clone(),
block_number: number as usize,
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transaction_hash: hashes.get(index).cloned().unwrap_or_else(H256::new),
transaction_index: index,
log_index: log_index + i
})
.collect::<Vec<LocalizedLogEntry>>()
})
.collect::<Vec<LocalizedLogEntry>>()
})
.collect()
}
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}
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impl MayPanic for Client {
fn on_panic<F>(&self, closure: F) where F: OnPanicListener {
self.panic_handler.on_panic(closure);
}
}