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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.
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use util ::* ;
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use util ::panics ::* ;
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use blockchain ::{ BlockChain , BlockProvider } ;
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use views ::BlockView ;
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use error ::* ;
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use header ::{ BlockNumber } ;
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use state ::State ;
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use spec ::Spec ;
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use engine ::Engine ;
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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 ;
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use extras ::TransactionAddress ;
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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) ]
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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
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}
/// Uniquely identifies transaction.
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#[ derive(Debug, PartialEq, Clone) ]
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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 {
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/// 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.
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fn block_body ( & self , id : BlockId ) -> Option < Bytes > ;
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/// Get raw block data by block header hash.
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fn block ( & self , id : BlockId ) -> Option < Bytes > ;
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/// Get block status by block header hash.
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fn block_status ( & self , id : BlockId ) -> BlockStatus ;
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/// Get block total difficulty.
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fn block_total_difficulty ( & self , id : BlockId ) -> Option < U256 > ;
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/// Get block hash.
fn block_hash ( & self , id : BlockId ) -> Option < H256 > ;
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/// Get address code.
fn code ( & self , address : & Address ) -> Option < Bytes > ;
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/// Get transaction with given hash.
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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 ;
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/// Get the best block header.
fn best_block_header ( & self ) -> Bytes {
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self . block_header ( BlockId ::Hash ( self . chain_info ( ) . best_block_hash ) ) . unwrap ( )
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}
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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 > > ;
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/// 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.
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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 {
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chain : Arc < RwLock < BlockChain > > ,
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engine : Arc < Box < Engine > > ,
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state_db : Mutex < JournalDB > ,
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block_queue : RwLock < BlockQueue > ,
report : RwLock < ClientReport > ,
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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 > > ,
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author : RwLock < Address > ,
extra_data : RwLock < Bytes > ,
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}
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const HISTORY : u64 = 1000 ;
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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
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dir . push ( format! ( " v {} -sec-pruned {} " , CLIENT_DB_VER_STR , if config . blockchain . prefer_journal { " " } else { " -archive " } ) ) ;
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let pj = config . blockchain . prefer_journal ;
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let path = dir . as_path ( ) ;
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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 ::from_prefs ( state_path . to_str ( ) . unwrap ( ) , pj ) ;
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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 ,
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engine : engine ,
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state_db : Mutex ::new ( state_db ) ,
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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 ) ,
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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 {
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let mut last_hashes = LastHashes ::new ( ) ;
last_hashes . resize ( 256 , H256 ::new ( ) ) ;
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last_hashes [ 0 ] = parent_hash ;
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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
}
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fn check_and_close_block ( & self , block : & PreverifiedBlock ) -> Result < ClosedBlock , ( ) > {
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let engine = self . engine . deref ( ) . deref ( ) ;
let header = & block . header ;
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// 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 {
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warn! ( target : " client " , " Block import failed for #{} ({}) \n Block 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 #{} ({}) \n Error: {:?} " , 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 #{} ({}) \n Error: {:?} " , 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 #{} ({}) \n Error: {:?} " , 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 {
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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 ( ) ;
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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 ( ) ) ;
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break ;
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}
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// Insert block
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let closed_block = closed_block . unwrap ( ) ;
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self . chain . write ( ) . unwrap ( ) . insert_block ( & block . bytes , closed_block . block ( ) . receipts ( ) . clone ( ) ) ;
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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 {
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self . prepare_sealing ( ) ;
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}
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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 {
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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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}
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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 ) {
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self . chain . read ( ) . unwrap ( ) . collect_garbage ( ) ;
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self . block_queue . read ( ) . unwrap ( ) . collect_garbage ( ) ;
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}
/// 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 > {
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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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}
}
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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.
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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 ;
}
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/// Get the extra_data that we will seal blocks wuth.
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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 ( ) ;
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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 ; } } ,
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self . build_last_hashes ( h . clone ( ) ) ,
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self . author ( ) ,
self . extra_data ( )
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) ;
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self . chain . read ( ) . unwrap ( ) . find_uncle_headers ( & h ) . into_iter ( ) . foreach ( | h | { b . push_uncle ( h ) . unwrap ( ) ; } ) ;
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// TODO: push transactions.
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let b = b . close ( ) ;
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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.
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pub fn sealing_block ( & self ) -> & Mutex < Option < ClosedBlock > > {
if self . sealing_block . lock ( ) . unwrap ( ) . is_none ( ) {
self . prepare_sealing ( ) ;
}
& self . sealing_block
}
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/// Submit `seal` as a valid solution for the header of `pow_hash`.
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/// Will check the seal, but not actually insert the block into the chain.
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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 {
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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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}
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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 | {
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let rlp = Rlp ::new ( & bytes ) ;
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let mut body = RlpStream ::new_list ( 2 ) ;
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body . append_raw ( rlp . at ( 1 ) . as_raw ( ) , 1 ) ;
body . append_raw ( rlp . at ( 2 ) . as_raw ( ) , 1 ) ;
body . out ( )
} )
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} )
}
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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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} )
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}
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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 ,
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Some ( hash ) = > self . block_queue . read ( ) . unwrap ( ) . block_status ( & hash ) ,
None = > BlockStatus ::Unknown
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}
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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 block_hash ( & self , id : BlockId ) -> Option < H256 > {
let chain = self . chain . read ( ) . unwrap ( ) ;
Self ::block_hash ( & chain , id )
}
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fn code ( & self , address : & Address ) -> Option < Bytes > {
self . state ( ) . code ( address )
}
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fn transaction ( & self , id : TransactionId ) -> Option < LocalizedTransaction > {
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let chain = self . chain . read ( ) . unwrap ( ) ;
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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 {
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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 > {
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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 > {
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None
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}
fn block_receipts ( & self , _hash : & H256 ) -> Option < Bytes > {
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None
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}
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fn import_block ( & self , bytes : Bytes ) -> ImportResult {
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{
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 {
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let chain = self . chain . read ( ) . unwrap ( ) ;
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BlockChainInfo {
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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
}
}
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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 ( ) ) )
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. 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 ) | {
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let mut log_index = 0 ;
receipts . into_iter ( )
. enumerate ( )
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. flat_map ( | ( index , receipt ) | {
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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 ) ,
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transaction_index : index ,
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log_index : log_index + i
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} )
. collect ::< Vec < LocalizedLogEntry > > ( )
} )
. collect ::< Vec < LocalizedLogEntry > > ( )
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} )
. collect ( )
}
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}
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impl MayPanic for Client {
fn on_panic < F > ( & self , closure : F ) where F : OnPanicListener {
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self . panic_handler . on_panic ( closure ) ;
}
}