openethereum/sync/src/chain.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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///
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/// BlockChain synchronization strategy.
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/// Syncs to peers and keeps up to date.
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/// This implementation uses ethereum protocol v63
///
/// Syncing strategy.
///
/// 1. A peer arrives with a total difficulty better than ours
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/// 2. Find a common best block between our an peer chain.
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/// Start with out best block and request headers from peer backwards until a common block is found
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/// 3. Download headers and block bodies from peers in parallel.
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/// As soon as a set of the blocks is fully downloaded at the head of the queue it is fed to the blockchain
/// 4. Maintain sync by handling NewBlocks/NewHashes messages
///
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use util::*;
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use std::mem::{replace};
use ethcore::views::{HeaderView};
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use ethcore::header::{BlockNumber, Header as BlockHeader};
use ethcore::client::{BlockChainClient, BlockStatus, BlockId, BlockChainInfo};
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use range_collection::{RangeCollection, ToUsize, FromUsize};
use ethcore::error::*;
use ethcore::transaction::SignedTransaction;
use ethcore::block::Block;
use ethminer::{Miner, MinerService, AccountDetails};
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use io::SyncIo;
use time;
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use super::SyncConfig;
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known_heap_size!(0, PeerInfo, Header, HeaderId);
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impl ToUsize for BlockNumber {
fn to_usize(&self) -> usize {
*self as usize
}
}
impl FromUsize for BlockNumber {
fn from_usize(s: usize) -> BlockNumber {
s as BlockNumber
}
}
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type PacketDecodeError = DecoderError;
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const PROTOCOL_VERSION: u8 = 63u8;
const MAX_BODIES_TO_SEND: usize = 256;
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const MAX_HEADERS_TO_SEND: usize = 512;
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const MAX_NODE_DATA_TO_SEND: usize = 1024;
const MAX_RECEIPTS_TO_SEND: usize = 1024;
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const MAX_RECEIPTS_HEADERS_TO_SEND: usize = 256;
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const MAX_HEADERS_TO_REQUEST: usize = 512;
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const MAX_BODIES_TO_REQUEST: usize = 256;
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const MIN_PEERS_PROPAGATION: usize = 4;
const MAX_PEERS_PROPAGATION: usize = 128;
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const MAX_PEER_LAG_PROPAGATION: BlockNumber = 20;
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const STATUS_PACKET: u8 = 0x00;
const NEW_BLOCK_HASHES_PACKET: u8 = 0x01;
const TRANSACTIONS_PACKET: u8 = 0x02;
const GET_BLOCK_HEADERS_PACKET: u8 = 0x03;
const BLOCK_HEADERS_PACKET: u8 = 0x04;
const GET_BLOCK_BODIES_PACKET: u8 = 0x05;
const BLOCK_BODIES_PACKET: u8 = 0x06;
const NEW_BLOCK_PACKET: u8 = 0x07;
const GET_NODE_DATA_PACKET: u8 = 0x0d;
const NODE_DATA_PACKET: u8 = 0x0e;
const GET_RECEIPTS_PACKET: u8 = 0x0f;
const RECEIPTS_PACKET: u8 = 0x10;
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const CONNECTION_TIMEOUT_SEC: f64 = 5f64;
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struct Header {
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/// Header data
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data: Bytes,
/// Block hash
hash: H256,
/// Parent hash
parent: H256,
}
/// Used to identify header by transactions and uncles hashes
#[derive(Eq, PartialEq, Hash)]
struct HeaderId {
transactions_root: H256,
uncles: H256
}
#[derive(Copy, Clone, Eq, PartialEq, Debug)]
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/// Sync state
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pub enum SyncState {
/// Initial chain sync has not started yet
NotSynced,
/// Initial chain sync complete. Waiting for new packets
Idle,
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/// Block downloading paused. Waiting for block queue to process blocks and free some space
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Waiting,
/// Downloading blocks
Blocks,
/// Downloading blocks learned from NewHashes packet
NewBlocks,
}
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/// Syncing status and statistics
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#[derive(Clone)]
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pub struct SyncStatus {
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/// State
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pub state: SyncState,
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/// Syncing protocol version. That's the maximum protocol version we connect to.
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pub protocol_version: u8,
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/// BlockChain height for the moment the sync started.
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pub start_block_number: BlockNumber,
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/// Last fully downloaded and imported block number (if any).
pub last_imported_block_number: Option<BlockNumber>,
/// Highest block number in the download queue (if any).
pub highest_block_number: Option<BlockNumber>,
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/// Total number of blocks for the sync process.
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pub blocks_total: BlockNumber,
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/// Number of blocks downloaded so far.
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pub blocks_received: BlockNumber,
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/// Total number of connected peers
pub num_peers: usize,
/// Total number of active peers
pub num_active_peers: usize,
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/// Heap memory used in bytes
pub mem_used: usize,
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}
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#[derive(PartialEq, Eq, Debug, Clone)]
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/// Peer data type requested
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enum PeerAsking {
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Nothing,
BlockHeaders,
BlockBodies,
}
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#[derive(Clone)]
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/// Syncing peer information
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struct PeerInfo {
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/// eth protocol version
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protocol_version: u32,
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/// Peer chain genesis hash
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genesis: H256,
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/// Peer network id
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network_id: U256,
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/// Peer best block hash
latest_hash: H256,
/// Peer best block number if known
latest_number: Option<BlockNumber>,
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/// Peer total difficulty
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difficulty: U256,
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/// Type of data currenty being requested from peer.
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asking: PeerAsking,
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/// A set of block numbers being requested
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asking_blocks: Vec<BlockNumber>,
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/// Holds requested header hash if currently requesting block header by hash
asking_hash: Option<H256>,
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/// Request timestamp
ask_time: f64,
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}
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/// Blockchain sync handler.
/// See module documentation for more details.
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pub struct ChainSync {
/// Sync state
state: SyncState,
/// Last block number for the start of sync
starting_block: BlockNumber,
/// Highest block number seen
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highest_block: Option<BlockNumber>,
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/// Set of block header numbers being downloaded
downloading_headers: HashSet<BlockNumber>,
/// Set of block body numbers being downloaded
downloading_bodies: HashSet<BlockNumber>,
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/// Set of block headers being downloaded by hash
downloading_hashes: HashSet<H256>,
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/// Downloaded headers.
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headers: Vec<(BlockNumber, Vec<Header>)>, //TODO: use BTreeMap once range API is sable. For now it is a vector sorted in descending order
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/// Downloaded bodies
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bodies: Vec<(BlockNumber, Vec<Bytes>)>, //TODO: use BTreeMap once range API is sable. For now it is a vector sorted in descending order
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/// Peer info
peers: HashMap<PeerId, PeerInfo>,
/// Used to map body to header
header_ids: HashMap<HeaderId, BlockNumber>,
/// Last impoted block number
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last_imported_block: Option<BlockNumber>,
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/// Last impoted block hash
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last_imported_hash: Option<H256>,
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/// Syncing total difficulty
syncing_difficulty: U256,
/// True if common block for our and remote chain has been found
have_common_block: bool,
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/// Last propagated block number
last_sent_block_number: BlockNumber,
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/// Max blocks to download ahead
max_download_ahead_blocks: usize,
/// Network ID
network_id: U256,
/// Miner
miner: Arc<Miner>,
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/// Fully-synced flag
is_fully_synced: bool,
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}
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type RlpResponseResult = Result<Option<(PacketId, RlpStream)>, PacketDecodeError>;
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impl ChainSync {
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/// Create a new instance of syncing strategy.
pub fn new(config: SyncConfig, miner: Arc<Miner>) -> ChainSync {
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ChainSync {
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state: SyncState::NotSynced,
starting_block: 0,
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highest_block: None,
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downloading_headers: HashSet::new(),
downloading_bodies: HashSet::new(),
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downloading_hashes: HashSet::new(),
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headers: Vec::new(),
bodies: Vec::new(),
peers: HashMap::new(),
header_ids: HashMap::new(),
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last_imported_block: None,
last_imported_hash: None,
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syncing_difficulty: U256::from(0u64),
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have_common_block: false,
last_sent_block_number: 0,
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max_download_ahead_blocks: max(MAX_HEADERS_TO_REQUEST, config.max_download_ahead_blocks),
network_id: config.network_id,
miner: miner,
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is_fully_synced: true,
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}
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}
/// @returns Synchonization status
pub fn status(&self) -> SyncStatus {
SyncStatus {
state: self.state.clone(),
protocol_version: 63,
start_block_number: self.starting_block,
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last_imported_block_number: self.last_imported_block,
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highest_block_number: self.highest_block,
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blocks_received: match self.last_imported_block { Some(x) if x > self.starting_block => x - self.starting_block, _ => 0 },
blocks_total: match self.highest_block { Some(x) if x > self.starting_block => x - self.starting_block, _ => 0 },
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num_peers: self.peers.len(),
num_active_peers: self.peers.values().filter(|p| p.asking != PeerAsking::Nothing).count(),
mem_used:
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// TODO: https://github.com/servo/heapsize/pull/50
// self.downloading_hashes.heap_size_of_children()
//+ self.downloading_bodies.heap_size_of_children()
//+ self.downloading_hashes.heap_size_of_children()
self.headers.heap_size_of_children()
+ self.bodies.heap_size_of_children()
+ self.peers.heap_size_of_children()
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+ self.header_ids.heap_size_of_children(),
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}
}
/// Abort all sync activity
pub fn abort(&mut self, io: &mut SyncIo) {
self.restart(io);
self.peers.clear();
}
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#[cfg_attr(feature="dev", allow(for_kv_map))] // Because it's not possible to get `values_mut()`
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/// Rest sync. Clear all downloaded data but keep the queue
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fn reset(&mut self) {
self.downloading_headers.clear();
self.downloading_bodies.clear();
self.headers.clear();
self.bodies.clear();
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for (_, ref mut p) in &mut self.peers {
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p.asking_blocks.clear();
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p.asking_hash = None;
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}
self.header_ids.clear();
self.syncing_difficulty = From::from(0u64);
self.state = SyncState::Idle;
}
/// Restart sync
pub fn restart(&mut self, io: &mut SyncIo) {
self.reset();
self.starting_block = 0;
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self.highest_block = None;
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self.have_common_block = false;
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self.starting_block = io.chain().chain_info().best_block_number;
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self.state = SyncState::NotSynced;
}
/// Called by peer to report status
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fn on_peer_status(&mut self, io: &mut SyncIo, peer_id: PeerId, r: &UntrustedRlp) -> Result<(), PacketDecodeError> {
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let peer = PeerInfo {
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protocol_version: try!(r.val_at(0)),
network_id: try!(r.val_at(1)),
difficulty: try!(r.val_at(2)),
latest_hash: try!(r.val_at(3)),
latest_number: None,
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genesis: try!(r.val_at(4)),
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asking: PeerAsking::Nothing,
asking_blocks: Vec::new(),
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asking_hash: None,
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ask_time: 0f64,
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};
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trace!(target: "sync", "New peer {} (protocol: {}, network: {:?}, difficulty: {:?}, latest:{}, genesis:{})", peer_id, peer.protocol_version, peer.network_id, peer.difficulty, peer.latest_hash, peer.genesis);
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if self.peers.contains_key(&peer_id) {
warn!("Unexpected status packet from {}:{}", peer_id, io.peer_info(peer_id));
return Ok(());
}
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let chain_info = io.chain().chain_info();
if peer.genesis != chain_info.genesis_hash {
io.disable_peer(peer_id);
trace!(target: "sync", "Peer {} genesis hash not matched", peer_id);
return Ok(());
}
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if peer.network_id != self.network_id {
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io.disable_peer(peer_id);
trace!(target: "sync", "Peer {} network id not matched", peer_id);
return Ok(());
}
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self.peers.insert(peer_id.clone(), peer);
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debug!(target: "sync", "Connected {}:{}", peer_id, io.peer_info(peer_id));
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self.sync_peer(io, peer_id, false);
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Ok(())
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}
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#[cfg_attr(feature="dev", allow(cyclomatic_complexity))]
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/// Called by peer once it has new block headers during sync
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fn on_peer_block_headers(&mut self, io: &mut SyncIo, peer_id: PeerId, r: &UntrustedRlp) -> Result<(), PacketDecodeError> {
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self.reset_peer_asking(peer_id, PeerAsking::BlockHeaders);
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let item_count = r.item_count();
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trace!(target: "sync", "{} -> BlockHeaders ({} entries)", peer_id, item_count);
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self.clear_peer_download(peer_id);
if self.state != SyncState::Blocks && self.state != SyncState::NewBlocks && self.state != SyncState::Waiting {
trace!(target: "sync", "Ignored unexpected block headers");
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return Ok(());
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}
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if self.state == SyncState::Waiting {
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trace!(target: "sync", "Ignored block headers while waiting");
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return Ok(());
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}
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for i in 0..item_count {
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let info: BlockHeader = try!(r.val_at(i));
let number = BlockNumber::from(info.number);
if (number <= self.current_base_block() && self.have_common_block) || self.headers.have_item(&number) {
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trace!(target: "sync", "Skipping existing block header");
continue;
}
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if self.highest_block == None || number > self.highest_block.unwrap() {
self.highest_block = Some(number);
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}
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let hash = info.hash();
match io.chain().block_status(BlockId::Hash(hash.clone())) {
BlockStatus::InChain | BlockStatus::Queued => {
if !self.have_common_block || self.current_base_block() < number {
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self.last_imported_block = Some(number);
self.last_imported_hash = Some(hash.clone());
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}
if !self.have_common_block {
self.have_common_block = true;
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trace!(target: "sync", "Found common header {} ({})", number, hash);
} else {
trace!(target: "sync", "Header already in chain {} ({})", number, hash);
}
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},
_ => {
if self.have_common_block {
//validate chain
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let base_hash = self.last_imported_hash.clone().unwrap();
if self.have_common_block && number == self.current_base_block() + 1 && info.parent_hash != base_hash {
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// Part of the forked chain. Restart to find common block again
debug!(target: "sync", "Mismatched block header {} {}, restarting sync", number, hash);
self.restart(io);
return Ok(());
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}
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if self.headers.find_item(&(number - 1)).map_or(false, |p| p.hash != info.parent_hash) {
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// mismatching parent id, delete the previous block and don't add this one
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debug!(target: "sync", "Mismatched block header {} {}", number, hash);
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self.remove_downloaded_blocks(number - 1);
continue;
}
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if self.headers.find_item(&(number + 1)).map_or(false, |p| p.parent != hash) {
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// mismatching parent id for the next block, clear following headers
debug!(target: "sync", "Mismatched block header {}", number + 1);
self.remove_downloaded_blocks(number + 1);
}
if self.have_common_block && number < self.current_base_block() + 1 {
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// unkown header
debug!(target: "sync", "Old block header {:?} ({}) is unknown, restarting sync", hash, number);
self.restart(io);
return Ok(());
}
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}
let hdr = Header {
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data: try!(r.at(i)).as_raw().to_vec(),
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hash: hash.clone(),
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parent: info.parent_hash,
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};
self.headers.insert_item(number, hdr);
let header_id = HeaderId {
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transactions_root: info.transactions_root,
uncles: info.uncles_hash
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};
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trace!(target: "sync", "Got header {} ({})", number, hash);
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if header_id.transactions_root == rlp::SHA3_NULL_RLP && header_id.uncles == rlp::SHA3_EMPTY_LIST_RLP {
//empty body, just mark as downloaded
let mut body_stream = RlpStream::new_list(2);
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body_stream.append_raw(&rlp::NULL_RLP, 1);
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body_stream.append_raw(&rlp::EMPTY_LIST_RLP, 1);
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self.bodies.insert_item(number, body_stream.out());
}
else {
self.header_ids.insert(header_id, number);
}
}
}
}
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self.collect_blocks(io);
self.continue_sync(io);
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Ok(())
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}
/// Called by peer once it has new block bodies
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fn on_peer_block_bodies(&mut self, io: &mut SyncIo, peer_id: PeerId, r: &UntrustedRlp) -> Result<(), PacketDecodeError> {
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use util::triehash::ordered_trie_root;
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self.reset_peer_asking(peer_id, PeerAsking::BlockBodies);
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let item_count = r.item_count();
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trace!(target: "sync", "{} -> BlockBodies ({} entries)", peer_id, item_count);
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self.clear_peer_download(peer_id);
if self.state != SyncState::Blocks && self.state != SyncState::NewBlocks && self.state != SyncState::Waiting {
trace!(target: "sync", "Ignored unexpected block bodies");
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return Ok(());
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}
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if self.state == SyncState::Waiting {
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trace!(target: "sync", "Ignored block bodies while waiting");
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return Ok(());
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}
for i in 0..item_count {
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let body = try!(r.at(i));
let tx = try!(body.at(0));
let tx_root = ordered_trie_root(tx.iter().map(|r| r.as_raw().to_vec()).collect()); //TODO: get rid of vectors here
let uncles = try!(body.at(1)).as_raw().sha3();
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let header_id = HeaderId {
transactions_root: tx_root,
uncles: uncles
};
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match self.header_ids.get(&header_id).cloned() {
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Some(n) => {
self.header_ids.remove(&header_id);
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self.bodies.insert_item(n, body.as_raw().to_vec());
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trace!(target: "sync", "Got body {}", n);
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}
None => {
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trace!(target: "sync", "Ignored unknown/stale block body");
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}
}
}
self.collect_blocks(io);
self.continue_sync(io);
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Ok(())
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}
/// Called by peer once it has new block bodies
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#[cfg_attr(feature="dev", allow(cyclomatic_complexity))]
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fn on_peer_new_block(&mut self, io: &mut SyncIo, peer_id: PeerId, r: &UntrustedRlp) -> Result<(), PacketDecodeError> {
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let block_rlp = try!(r.at(0));
let header_rlp = try!(block_rlp.at(0));
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let h = header_rlp.as_raw().sha3();
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trace!(target: "sync", "{} -> NewBlock ({})", peer_id, h);
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if !self.have_common_block {
trace!(target: "sync", "NewBlock ignored while seeking");
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return Ok(());
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}
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let header: BlockHeader = try!(header_rlp.as_val());
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let mut unknown = false;
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{
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let peer = self.peers.get_mut(&peer_id).unwrap();
peer.latest_hash = header.hash();
peer.latest_number = Some(header.number());
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}
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// TODO: Decompose block and add to self.headers and self.bodies instead
if header.number <= From::from(self.current_base_block() + 1) {
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match io.chain().import_block(block_rlp.as_raw().to_vec()) {
Err(Error::Import(ImportError::AlreadyInChain)) => {
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trace!(target: "sync", "New block already in chain {:?}", h);
},
Err(Error::Import(ImportError::AlreadyQueued)) => {
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trace!(target: "sync", "New block already queued {:?}", h);
},
Ok(_) => {
if self.current_base_block() < header.number {
self.last_imported_block = Some(header.number);
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self.last_imported_hash = Some(header.hash());
self.remove_downloaded_blocks(header.number);
}
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trace!(target: "sync", "New block queued {:?} ({})", h, header.number);
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},
Err(Error::Block(BlockError::UnknownParent(p))) => {
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unknown = true;
trace!(target: "sync", "New block with unknown parent ({:?}) {:?}", p, h);
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},
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Err(e) => {
debug!(target: "sync", "Bad new block {:?} : {:?}", h, e);
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io.disable_peer(peer_id);
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}
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};
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}
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else {
unknown = true;
}
if unknown {
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trace!(target: "sync", "New block unknown {:?}", h);
//TODO: handle too many unknown blocks
let difficulty: U256 = try!(r.val_at(1));
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let peer_difficulty = self.peers.get_mut(&peer_id).unwrap().difficulty;
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if difficulty > peer_difficulty {
trace!(target: "sync", "Received block {:?} with no known parent. Peer needs syncing...", h);
self.sync_peer(io, peer_id, true);
}
}
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Ok(())
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}
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/// Handles NewHashes packet. Initiates headers download for any unknown hashes.
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fn on_peer_new_hashes(&mut self, io: &mut SyncIo, peer_id: PeerId, r: &UntrustedRlp) -> Result<(), PacketDecodeError> {
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if self.peers.get_mut(&peer_id).unwrap().asking != PeerAsking::Nothing {
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trace!(target: "sync", "Ignoring new hashes since we're already downloading.");
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return Ok(());
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}
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trace!(target: "sync", "{} -> NewHashes ({} entries)", peer_id, r.item_count());
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let hashes = r.iter().map(|item| (item.val_at::<H256>(0), item.val_at::<BlockNumber>(1)));
let mut max_height: BlockNumber = 0;
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for (rh, rd) in hashes {
let h = try!(rh);
let d = try!(rd);
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if self.downloading_hashes.contains(&h) {
continue;
}
match io.chain().block_status(BlockId::Hash(h.clone())) {
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BlockStatus::InChain => {
trace!(target: "sync", "New block hash already in chain {:?}", h);
},
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BlockStatus::Queued => {
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trace!(target: "sync", "New hash block already queued {:?}", h);
},
BlockStatus::Unknown => {
if d > max_height {
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trace!(target: "sync", "New unknown block hash {:?}", h);
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let peer = self.peers.get_mut(&peer_id).unwrap();
peer.latest_hash = h.clone();
peer.latest_number = Some(d);
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max_height = d;
}
},
BlockStatus::Bad =>{
debug!(target: "sync", "Bad new block hash {:?}", h);
io.disable_peer(peer_id);
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return Ok(());
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}
}
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};
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if max_height != 0 {
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self.sync_peer(io, peer_id, true);
}
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Ok(())
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}
/// Called by peer when it is disconnecting
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pub fn on_peer_aborting(&mut self, io: &mut SyncIo, peer: PeerId) {
trace!(target: "sync", "== Disconnecting {}", peer);
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if self.peers.contains_key(&peer) {
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debug!(target: "sync", "Disconnected {}", peer);
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self.clear_peer_download(peer);
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self.peers.remove(&peer);
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self.continue_sync(io);
}
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}
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/// Called when a new peer is connected
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pub fn on_peer_connected(&mut self, io: &mut SyncIo, peer: PeerId) {
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trace!(target: "sync", "== Connected {}", peer);
if let Err(e) = self.send_status(io) {
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debug!(target:"sync", "Error sending status request: {:?}", e);
io.disable_peer(peer);
}
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}
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/// Resume downloading
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fn continue_sync(&mut self, io: &mut SyncIo) {
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let mut peers: Vec<(PeerId, U256)> = self.peers.iter().map(|(k, p)| (*k, p.difficulty)).collect();
peers.sort_by(|&(_, d1), &(_, d2)| d1.cmp(&d2).reverse()); //TODO: sort by rating
for (p, _) in peers {
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self.sync_peer(io, p, false);
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}
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}
/// Called after all blocks have been donloaded
fn complete_sync(&mut self) {
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trace!(target: "sync", "Sync complete");
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self.reset();
self.state = SyncState::Idle;
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}
/// Enter waiting state
fn pause_sync(&mut self) {
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trace!(target: "sync", "Block queue full, pausing sync");
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self.state = SyncState::Waiting;
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}
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fn can_sync(&self) -> bool {
match self.state {
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SyncState::Idle | SyncState::NotSynced => true,
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_ => false
}
}
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/// Find something to do for a peer. Called for a new peer or when a peer is done with it's task.
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fn sync_peer(&mut self, io: &mut SyncIo, peer_id: PeerId, force: bool) {
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let (peer_latest, peer_difficulty) = {
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let peer = self.peers.get_mut(&peer_id).unwrap();
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if peer.asking != PeerAsking::Nothing {
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return;
}
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if self.state == SyncState::Waiting {
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trace!(target: "sync", "Waiting for block queue");
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return;
}
(peer.latest_hash.clone(), peer.difficulty.clone())
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};
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let td = io.chain().chain_info().pending_total_difficulty;
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let syncing_difficulty = max(self.syncing_difficulty, td);
if force || peer_difficulty > syncing_difficulty {
// start sync
self.syncing_difficulty = peer_difficulty;
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if self.can_sync() {
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self.state = SyncState::Blocks;
}
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trace!(target: "sync", "Starting sync with better chain");
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self.peers.get_mut(&peer_id).unwrap().asking_hash = Some(peer_latest.clone());
2016-02-12 13:07:02 +01:00
self.downloading_hashes.insert(peer_latest.clone());
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self.request_headers_by_hash(io, peer_id, &peer_latest, 1, 0, false);
}
2016-02-11 21:10:41 +01:00
else if self.state == SyncState::Blocks && io.chain().block_status(BlockId::Hash(peer_latest)) == BlockStatus::Unknown {
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self.request_blocks(io, peer_id, false);
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}
}
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fn current_base_block(&self) -> BlockNumber {
match self.last_imported_block { None => 0, Some(x) => x }
}
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fn find_block_bodies_hashes_to_request(&self, ignore_others: bool) -> (Vec<H256>, Vec<BlockNumber>) {
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let mut needed_bodies: Vec<H256> = Vec::new();
let mut needed_numbers: Vec<BlockNumber> = Vec::new();
2015-12-25 14:55:55 +01:00
2016-02-03 21:05:04 +01:00
if self.have_common_block && !self.headers.is_empty() && self.headers.range_iter().next().unwrap().0 == self.current_base_block() + 1 {
if let Some((start, ref items)) = self.headers.range_iter().next() {
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let mut index: BlockNumber = 0;
while index != items.len() as BlockNumber && needed_bodies.len() < MAX_BODIES_TO_REQUEST {
let block = start + index;
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if ignore_others || (!self.downloading_bodies.contains(&block) && !self.bodies.have_item(&block)) {
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needed_bodies.push(items[index as usize].hash.clone());
needed_numbers.push(block);
}
index += 1;
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}
}
}
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(needed_bodies, needed_numbers)
}
/// Find some headers or blocks to download for a peer.
fn request_blocks(&mut self, io: &mut SyncIo, peer_id: PeerId, ignore_others: bool) {
self.clear_peer_download(peer_id);
if io.chain().queue_info().is_full() {
self.pause_sync();
return;
}
// check to see if we need to download any block bodies first
let (needed_bodies, needed_numbers) = self.find_block_bodies_hashes_to_request(ignore_others);
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if !needed_bodies.is_empty() {
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let (head, _) = self.headers.range_iter().next().unwrap();
if needed_numbers.first().unwrap() - head > self.max_download_ahead_blocks as BlockNumber {
trace!(target: "sync", "{}: Stalled download ({} vs {}), helping with downloading block bodies", peer_id, needed_numbers.first().unwrap(), head);
self.request_blocks(io, peer_id, true);
2016-03-01 22:03:29 +01:00
} else {
self.downloading_bodies.extend(needed_numbers.iter());
replace(&mut self.peers.get_mut(&peer_id).unwrap().asking_blocks, needed_numbers);
self.request_bodies(io, peer_id, needed_bodies);
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}
2016-03-01 22:03:29 +01:00
return;
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}
2016-03-01 22:03:29 +01:00
// check if need to download headers
let mut start = 0;
if !self.have_common_block {
// download backwards until common block is found 1 header at a time
let chain_info = io.chain().chain_info();
start = match self.last_imported_block {
Some(n) => n,
None => chain_info.best_block_number,
};
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if !self.headers.is_empty() {
start = min(start, self.headers.range_iter().next().unwrap().0 - 1);
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}
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if start == 0 {
self.have_common_block = true; //reached genesis
self.last_imported_hash = Some(chain_info.genesis_hash);
self.last_imported_block = Some(0);
}
}
if self.have_common_block {
let mut headers: Vec<BlockNumber> = Vec::new();
let mut prev = self.current_base_block() + 1;
let head = self.headers.range_iter().next().map(|(h, _)| h);
for (next, ref items) in self.headers.range_iter() {
if !headers.is_empty() {
break;
}
if next <= prev {
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prev = next + items.len() as BlockNumber;
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continue;
2015-12-22 22:19:50 +01:00
}
2016-03-01 22:03:29 +01:00
let mut block = prev;
while block < next && headers.len() < MAX_HEADERS_TO_REQUEST {
if ignore_others || !self.downloading_headers.contains(&(block as BlockNumber)) {
headers.push(block as BlockNumber);
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}
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block += 1;
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}
2016-03-01 22:03:29 +01:00
prev = next + items.len() as BlockNumber;
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}
2016-03-01 22:03:29 +01:00
if !headers.is_empty() {
start = headers[0];
if head.is_some() && start > head.unwrap() && start - head.unwrap() > self.max_download_ahead_blocks as BlockNumber {
trace!(target: "sync", "{}: Stalled download ({} vs {}), helping with downloading headers", peer_id, start, head.unwrap());
self.request_blocks(io, peer_id, true);
return;
}
let count = headers.len();
self.downloading_headers.extend(headers.iter());
replace(&mut self.peers.get_mut(&peer_id).unwrap().asking_blocks, headers);
assert!(!self.headers.have_item(&start));
self.request_headers_by_number(io, peer_id, start, count, 0, false);
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}
}
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else {
// continue search for common block
self.downloading_headers.insert(start);
self.request_headers_by_number(io, peer_id, start, 1, 0, false);
}
2015-12-22 22:19:50 +01:00
}
2016-01-09 18:40:13 +01:00
/// Clear all blocks/headers marked as being downloaded by a peer.
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fn clear_peer_download(&mut self, peer_id: PeerId) {
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let peer = self.peers.get_mut(&peer_id).unwrap();
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if let Some(hash) = peer.asking_hash.take() {
self.downloading_hashes.remove(&hash);
}
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for b in &peer.asking_blocks {
self.downloading_headers.remove(&b);
self.downloading_bodies.remove(&b);
}
peer.asking_blocks.clear();
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}
2015-12-24 17:18:47 +01:00
2016-01-09 18:40:13 +01:00
/// Checks if there are blocks fully downloaded that can be imported into the blockchain and does the import.
2015-12-24 17:18:47 +01:00
fn collect_blocks(&mut self, io: &mut SyncIo) {
if !self.have_common_block || self.headers.is_empty() || self.bodies.is_empty() {
return;
}
let mut restart = false;
// merge headers and bodies
{
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let headers = self.headers.range_iter().next().unwrap();
let bodies = self.bodies.range_iter().next().unwrap();
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if headers.0 != bodies.0 || headers.0 > self.current_base_block() + 1 {
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return;
}
2015-12-27 00:48:03 +01:00
let count = min(headers.1.len(), bodies.1.len());
let mut imported = 0;
for i in 0..count {
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let mut block_rlp = RlpStream::new_list(3);
block_rlp.append_raw(&headers.1[i].data, 1);
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let body = Rlp::new(&bodies.1[i]);
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block_rlp.append_raw(body.at(0).as_raw(), 1);
block_rlp.append_raw(body.at(1).as_raw(), 1);
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let h = &headers.1[i].hash;
2016-02-03 21:42:30 +01:00
// Perform basic block verification
if !Block::is_good(block_rlp.as_raw()) {
debug!(target: "sync", "Bad block rlp {:?} : {:?}", h, block_rlp.as_raw());
restart = true;
break;
}
2016-01-17 23:07:58 +01:00
match io.chain().import_block(block_rlp.out()) {
Err(Error::Import(ImportError::AlreadyInChain)) => {
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trace!(target: "sync", "Block already in chain {:?}", h);
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self.last_imported_block = Some(headers.0 + i as BlockNumber);
self.last_imported_hash = Some(h.clone());
2015-12-24 17:18:47 +01:00
},
Err(Error::Import(ImportError::AlreadyQueued)) => {
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trace!(target: "sync", "Block already queued {:?}", h);
2016-02-03 21:05:04 +01:00
self.last_imported_block = Some(headers.0 + i as BlockNumber);
self.last_imported_hash = Some(h.clone());
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},
Ok(_) => {
2015-12-24 17:18:47 +01:00
trace!(target: "sync", "Block queued {:?}", h);
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self.last_imported_block = Some(headers.0 + i as BlockNumber);
self.last_imported_hash = Some(h.clone());
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imported += 1;
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},
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Err(e) => {
debug!(target: "sync", "Bad block {:?} : {:?}", h, e);
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restart = true;
}
}
}
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trace!(target: "sync", "Imported {} of {}", imported, count);
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}
if restart {
self.restart(io);
return;
}
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self.headers.remove_head(&(self.last_imported_block.unwrap() + 1));
self.bodies.remove_head(&(self.last_imported_block.unwrap() + 1));
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if self.headers.is_empty() {
assert!(self.bodies.is_empty());
self.complete_sync();
}
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}
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/// Remove downloaded bocks/headers starting from specified number.
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/// Used to recover from an error and re-download parts of the chain detected as bad.
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fn remove_downloaded_blocks(&mut self, start: BlockNumber) {
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let ids = self.header_ids.drain().filter(|&(_, v)| v < start).collect();
self.header_ids = ids;
let hdrs = self.downloading_headers.drain().filter(|v| *v < start).collect();
self.downloading_headers = hdrs;
let bodies = self.downloading_bodies.drain().filter(|v| *v < start).collect();
self.downloading_bodies = bodies;
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self.headers.remove_from(&start);
self.bodies.remove_from(&start);
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}
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/// Request headers from a peer by block hash
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fn request_headers_by_hash(&mut self, sync: &mut SyncIo, peer_id: PeerId, h: &H256, count: usize, skip: usize, reverse: bool) {
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trace!(target: "sync", "{} <- GetBlockHeaders: {} entries starting from {}", peer_id, count, h);
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let mut rlp = RlpStream::new_list(4);
rlp.append(h);
rlp.append(&count);
rlp.append(&skip);
rlp.append(&if reverse {1u32} else {0u32});
self.send_request(sync, peer_id, PeerAsking::BlockHeaders, GET_BLOCK_HEADERS_PACKET, rlp.out());
}
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/// Request headers from a peer by block number
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fn request_headers_by_number(&mut self, sync: &mut SyncIo, peer_id: PeerId, n: BlockNumber, count: usize, skip: usize, reverse: bool) {
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let mut rlp = RlpStream::new_list(4);
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trace!(target: "sync", "{} <- GetBlockHeaders: {} entries starting from {}", peer_id, count, n);
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rlp.append(&n);
rlp.append(&count);
rlp.append(&skip);
rlp.append(&if reverse {1u32} else {0u32});
self.send_request(sync, peer_id, PeerAsking::BlockHeaders, GET_BLOCK_HEADERS_PACKET, rlp.out());
}
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/// Request block bodies from a peer
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fn request_bodies(&mut self, sync: &mut SyncIo, peer_id: PeerId, hashes: Vec<H256>) {
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let mut rlp = RlpStream::new_list(hashes.len());
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trace!(target: "sync", "{} <- GetBlockBodies: {} entries", peer_id, hashes.len());
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for h in hashes {
rlp.append(&h);
}
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self.send_request(sync, peer_id, PeerAsking::BlockBodies, GET_BLOCK_BODIES_PACKET, rlp.out());
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}
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/// Reset peer status after request is complete.
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fn reset_peer_asking(&mut self, peer_id: PeerId, asking: PeerAsking) {
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let peer = self.peers.get_mut(&peer_id).unwrap();
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if peer.asking != asking {
warn!(target:"sync", "Asking {:?} while expected {:?}", peer.asking, asking);
}
else {
peer.asking = PeerAsking::Nothing;
}
}
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/// Generic request sender
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fn send_request(&mut self, sync: &mut SyncIo, peer_id: PeerId, asking: PeerAsking, packet_id: PacketId, packet: Bytes) {
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{
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let peer = self.peers.get_mut(&peer_id).unwrap();
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if peer.asking != PeerAsking::Nothing {
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warn!(target:"sync", "Asking {:?} while requesting {:?}", peer.asking, asking);
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}
}
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match sync.send(peer_id, packet_id, packet) {
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Err(e) => {
debug!(target:"sync", "Error sending request: {:?}", e);
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sync.disable_peer(peer_id);
}
Ok(_) => {
let mut peer = self.peers.get_mut(&peer_id).unwrap();
peer.asking = asking;
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peer.ask_time = time::precise_time_s();
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}
}
}
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/// Generic packet sender
fn send_packet(&mut self, sync: &mut SyncIo, peer_id: PeerId, packet_id: PacketId, packet: Bytes) {
if let Err(e) = sync.send(peer_id, packet_id, packet) {
debug!(target:"sync", "Error sending packet: {:?}", e);
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sync.disable_peer(peer_id);
}
}
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/// Called when peer sends us new transactions
fn on_peer_transactions(&mut self, io: &mut SyncIo, peer_id: PeerId, r: &UntrustedRlp) -> Result<(), PacketDecodeError> {
// accepting transactions once only fully synced
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if !self.is_fully_synced {
return Ok(());
}
let item_count = r.item_count();
trace!(target: "sync", "{} -> Transactions ({} entries)", peer_id, item_count);
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let mut transactions = Vec::with_capacity(item_count);
for i in 0..item_count {
let tx: SignedTransaction = try!(r.val_at(i));
transactions.push(tx);
}
let chain = io.chain();
let fetch_account = |a: &Address| AccountDetails {
nonce: chain.nonce(a),
balance: chain.balance(a)
};
let _ = self.miner.import_transactions(transactions, fetch_account);
Ok(())
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}
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/// Send Status message
fn send_status(&mut self, io: &mut SyncIo) -> Result<(), UtilError> {
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let mut packet = RlpStream::new_list(5);
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let chain = io.chain().chain_info();
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packet.append(&(PROTOCOL_VERSION as u32));
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packet.append(&self.network_id);
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packet.append(&chain.total_difficulty);
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packet.append(&chain.best_block_hash);
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packet.append(&chain.genesis_hash);
io.respond(STATUS_PACKET, packet.out())
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}
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/// Respond to GetBlockHeaders request
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fn return_block_headers(io: &SyncIo, r: &UntrustedRlp) -> RlpResponseResult {
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// Packet layout:
// [ block: { P , B_32 }, maxHeaders: P, skip: P, reverse: P in { 0 , 1 } ]
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let max_headers: usize = try!(r.val_at(1));
let skip: usize = try!(r.val_at(2));
let reverse: bool = try!(r.val_at(3));
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let last = io.chain().chain_info().best_block_number;
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let mut number = if try!(r.at(0)).size() == 32 {
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// id is a hash
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let hash: H256 = try!(r.val_at(0));
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trace!(target: "sync", "-> GetBlockHeaders (hash: {}, max: {}, skip: {}, reverse:{})", hash, max_headers, skip, reverse);
match io.chain().block_header(BlockId::Hash(hash)) {
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Some(hdr) => From::from(HeaderView::new(&hdr).number()),
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None => last
}
}
else {
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trace!(target: "sync", "-> GetBlockHeaders (number: {}, max: {}, skip: {}, reverse:{})", try!(r.val_at::<BlockNumber>(0)), max_headers, skip, reverse);
try!(r.val_at(0))
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};
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if reverse {
number = min(last, number);
} else {
number = max(0, number);
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}
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let max_count = min(MAX_HEADERS_TO_SEND, max_headers);
let mut count = 0;
let mut data = Bytes::new();
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let inc = (skip + 1) as BlockNumber;
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while number <= last && count < max_count {
if let Some(mut hdr) = io.chain().block_header(BlockId::Number(number)) {
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data.append(&mut hdr);
count += 1;
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}
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if reverse {
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if number <= inc || number == 0 {
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break;
}
number -= inc;
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}
else {
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number += inc;
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}
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}
let mut rlp = RlpStream::new_list(count as usize);
rlp.append_raw(&data, count as usize);
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trace!(target: "sync", "-> GetBlockHeaders: returned {} entries", count);
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Ok(Some((BLOCK_HEADERS_PACKET, rlp)))
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}
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/// Respond to GetBlockBodies request
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fn return_block_bodies(io: &SyncIo, r: &UntrustedRlp) -> RlpResponseResult {
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let mut count = r.item_count();
if count == 0 {
debug!(target: "sync", "Empty GetBlockBodies request, ignoring.");
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return Ok(None);
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}
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trace!(target: "sync", "-> GetBlockBodies: {} entries", count);
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count = min(count, MAX_BODIES_TO_SEND);
let mut added = 0usize;
let mut data = Bytes::new();
for i in 0..count {
if let Some(mut hdr) = io.chain().block_body(BlockId::Hash(try!(r.val_at::<H256>(i)))) {
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data.append(&mut hdr);
added += 1;
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}
}
let mut rlp = RlpStream::new_list(added);
rlp.append_raw(&data, added);
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trace!(target: "sync", "-> GetBlockBodies: returned {} entries", added);
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Ok(Some((BLOCK_BODIES_PACKET, rlp)))
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}
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/// Respond to GetNodeData request
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fn return_node_data(io: &SyncIo, r: &UntrustedRlp) -> RlpResponseResult {
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let mut count = r.item_count();
if count == 0 {
debug!(target: "sync", "Empty GetNodeData request, ignoring.");
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return Ok(None);
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}
count = min(count, MAX_NODE_DATA_TO_SEND);
let mut added = 0usize;
let mut data = Bytes::new();
for i in 0..count {
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if let Some(mut hdr) = io.chain().state_data(&try!(r.val_at::<H256>(i))) {
data.append(&mut hdr);
added += 1;
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}
}
let mut rlp = RlpStream::new_list(added);
rlp.append_raw(&data, added);
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Ok(Some((NODE_DATA_PACKET, rlp)))
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}
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fn return_receipts(io: &SyncIo, rlp: &UntrustedRlp) -> RlpResponseResult {
let mut count = rlp.item_count();
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if count == 0 {
debug!(target: "sync", "Empty GetReceipts request, ignoring.");
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return Ok(None);
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}
count = min(count, MAX_RECEIPTS_HEADERS_TO_SEND);
let mut added_headers = 0usize;
let mut added_receipts = 0usize;
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let mut data = Bytes::new();
for i in 0..count {
if let Some(mut receipts_bytes) = io.chain().block_receipts(&try!(rlp.val_at::<H256>(i))) {
data.append(&mut receipts_bytes);
added_receipts += receipts_bytes.len();
added_headers += 1;
if added_receipts > MAX_RECEIPTS_TO_SEND { break; }
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}
}
let mut rlp_result = RlpStream::new_list(added_headers);
rlp_result.append_raw(&data, added_headers);
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Ok(Some((RECEIPTS_PACKET, rlp_result)))
}
fn return_rlp<FRlp, FError>(&self, io: &mut SyncIo, rlp: &UntrustedRlp, rlp_func: FRlp, error_func: FError) -> Result<(), PacketDecodeError>
where FRlp : Fn(&SyncIo, &UntrustedRlp) -> RlpResponseResult,
FError : FnOnce(UtilError) -> String
{
let response = rlp_func(io, rlp);
match response {
Err(e) => Err(e),
Ok(Some((packet_id, rlp_stream))) => {
io.respond(packet_id, rlp_stream.out()).unwrap_or_else(
|e| debug!(target: "sync", "{:?}", error_func(e)));
Ok(())
}
_ => Ok(())
}
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}
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/// Dispatch incoming requests and responses
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pub fn on_packet(&mut self, io: &mut SyncIo, peer: PeerId, packet_id: u8, data: &[u8]) {
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let rlp = UntrustedRlp::new(data);
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if packet_id != STATUS_PACKET && !self.peers.contains_key(&peer) {
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debug!(target:"sync", "Unexpected packet from unregistered peer: {}:{}", peer, io.peer_info(peer));
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return;
}
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let result = match packet_id {
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STATUS_PACKET => self.on_peer_status(io, peer, &rlp),
TRANSACTIONS_PACKET => self.on_peer_transactions(io, peer, &rlp),
BLOCK_HEADERS_PACKET => self.on_peer_block_headers(io, peer, &rlp),
BLOCK_BODIES_PACKET => self.on_peer_block_bodies(io, peer, &rlp),
NEW_BLOCK_PACKET => self.on_peer_new_block(io, peer, &rlp),
NEW_BLOCK_HASHES_PACKET => self.on_peer_new_hashes(io, peer, &rlp),
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GET_BLOCK_BODIES_PACKET => self.return_rlp(io, &rlp,
ChainSync::return_block_bodies,
|e| format!("Error sending block bodies: {:?}", e)),
GET_BLOCK_HEADERS_PACKET => self.return_rlp(io, &rlp,
ChainSync::return_block_headers,
|e| format!("Error sending block headers: {:?}", e)),
GET_RECEIPTS_PACKET => self.return_rlp(io, &rlp,
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ChainSync::return_receipts,
|e| format!("Error sending receipts: {:?}", e)),
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GET_NODE_DATA_PACKET => self.return_rlp(io, &rlp,
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ChainSync::return_node_data,
|e| format!("Error sending nodes: {:?}", e)),
2016-02-15 00:51:50 +01:00
2016-02-03 21:05:04 +01:00
_ => {
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debug!(target: "sync", "Unknown packet {}", packet_id);
Ok(())
}
};
result.unwrap_or_else(|e| {
debug!(target:"sync", "{} -> Malformed packet {} : {}", peer, packet_id, e);
})
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}
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2016-02-03 21:42:30 +01:00
pub fn maintain_peers(&self, io: &mut SyncIo) {
let tick = time::precise_time_s();
for (peer_id, peer) in &self.peers {
if peer.asking != PeerAsking::Nothing && (tick - peer.ask_time) > CONNECTION_TIMEOUT_SEC {
io.disconnect_peer(*peer_id);
}
}
}
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fn check_resume(&mut self, io: &mut SyncIo) {
if !io.chain().queue_info().is_full() && self.state == SyncState::Waiting {
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self.state = SyncState::Blocks;
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self.continue_sync(io);
}
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}
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/// creates rlp to send for the tree defined by 'from' and 'to' hashes
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fn create_new_hashes_rlp(chain: &BlockChainClient, from: &H256, to: &H256) -> Option<Bytes> {
match chain.tree_route(from, to) {
Some(route) => {
match route.blocks.len() {
0 => None,
_ => {
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let mut rlp_stream = RlpStream::new_list(route.blocks.len());
for block_hash in route.blocks {
let mut hash_rlp = RlpStream::new_list(2);
let difficulty = chain.block_total_difficulty(BlockId::Hash(block_hash.clone())).expect("Mallformed block without a difficulty on the chain!");
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hash_rlp.append(&block_hash);
hash_rlp.append(&difficulty);
rlp_stream.append_raw(&hash_rlp.out(), 1);
}
Some(rlp_stream.out())
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}
}
},
None => None
}
}
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/// creates latest block rlp for the given client
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fn create_latest_block_rlp(chain: &BlockChainClient) -> Bytes {
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let mut rlp_stream = RlpStream::new_list(2);
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rlp_stream.append_raw(&chain.block(BlockId::Hash(chain.chain_info().best_block_hash)).unwrap(), 1);
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rlp_stream.append(&chain.chain_info().total_difficulty);
rlp_stream.out()
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}
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/// returns peer ids that have less blocks than our chain
fn get_lagging_peers(&mut self, chain_info: &BlockChainInfo, io: &SyncIo) -> Vec<(PeerId, BlockNumber)> {
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let latest_hash = chain_info.best_block_hash;
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let latest_number = chain_info.best_block_number;
self.peers.iter_mut().filter_map(|(&id, ref mut peer_info)|
match io.chain().block_status(BlockId::Hash(peer_info.latest_hash.clone())) {
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BlockStatus::InChain => {
if peer_info.latest_number.is_none() {
peer_info.latest_number = Some(HeaderView::new(&io.chain().block_header(BlockId::Hash(peer_info.latest_hash.clone())).unwrap()).number());
}
if peer_info.latest_hash != latest_hash && latest_number > peer_info.latest_number.unwrap() {
Some((id, peer_info.latest_number.unwrap()))
} else { None }
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},
_ => None
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})
.collect::<Vec<_>>()
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}
/// propagates latest block to lagging peers
fn propagate_blocks(&mut self, chain_info: &BlockChainInfo, io: &mut SyncIo) -> usize {
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let updated_peers = {
let lagging_peers = self.get_lagging_peers(chain_info, io);
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// sqrt(x)/x scaled to max u32
let fraction = (self.peers.len() as f64).powf(-0.5).mul(u32::max_value() as f64).round() as u32;
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let lucky_peers = match lagging_peers.len() {
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0 ... MIN_PEERS_PROPAGATION => lagging_peers,
_ => lagging_peers.into_iter().filter(|_| ::rand::random::<u32>() < fraction).collect::<Vec<_>>()
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};
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// taking at max of MAX_PEERS_PROPAGATION
lucky_peers.iter().map(|&(id, _)| id.clone()).take(min(lucky_peers.len(), MAX_PEERS_PROPAGATION)).collect::<Vec<PeerId>>()
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};
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let mut sent = 0;
for peer_id in updated_peers {
let rlp = ChainSync::create_latest_block_rlp(io.chain());
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self.send_packet(io, peer_id, NEW_BLOCK_PACKET, rlp);
self.peers.get_mut(&peer_id).unwrap().latest_hash = chain_info.best_block_hash.clone();
self.peers.get_mut(&peer_id).unwrap().latest_number = Some(chain_info.best_block_number);
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sent = sent + 1;
}
sent
}
/// propagates new known hashes to all peers
fn propagate_new_hashes(&mut self, chain_info: &BlockChainInfo, io: &mut SyncIo) -> usize {
let updated_peers = self.get_lagging_peers(chain_info, io);
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let mut sent = 0;
let last_parent = HeaderView::new(&io.chain().block_header(BlockId::Hash(chain_info.best_block_hash.clone())).unwrap()).parent_hash();
for (peer_id, peer_number) in updated_peers {
let mut peer_best = self.peers.get(&peer_id).unwrap().latest_hash.clone();
if chain_info.best_block_number - peer_number > MAX_PEERS_PROPAGATION as BlockNumber {
// If we think peer is too far behind just send one latest hash
peer_best = last_parent.clone();
}
sent = sent + match ChainSync::create_new_hashes_rlp(io.chain(), &peer_best, &chain_info.best_block_hash) {
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Some(rlp) => {
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{
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let peer = self.peers.get_mut(&peer_id).unwrap();
peer.latest_hash = chain_info.best_block_hash.clone();
peer.latest_number = Some(chain_info.best_block_number);
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}
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self.send_packet(io, peer_id, NEW_BLOCK_HASHES_PACKET, rlp);
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1
},
None => 0
}
}
sent
}
fn propagate_latest_blocks(&mut self, io: &mut SyncIo) {
let chain_info = io.chain().chain_info();
if (((chain_info.best_block_number as i64) - (self.last_sent_block_number as i64)).abs() as BlockNumber) < MAX_PEER_LAG_PROPAGATION {
let blocks = self.propagate_blocks(&chain_info, io);
let hashes = self.propagate_new_hashes(&chain_info, io);
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if blocks != 0 || hashes != 0 {
trace!(target: "sync", "Sent latest {} blocks and {} hashes to peers.", blocks, hashes);
}
}
self.last_sent_block_number = chain_info.best_block_number;
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}
/// Maintain other peers. Send out any new blocks and transactions
pub fn maintain_sync(&mut self, io: &mut SyncIo) {
self.check_resume(io);
}
/// called when block is imported to chain, updates transactions queue and propagates the blocks
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pub fn chain_new_blocks(&mut self, io: &mut SyncIo, imported: &[H256], invalid: &[H256], enacted: &[H256], retracted: &[H256], is_last: bool) {
// Set the state in which it can accept transactions from the net
self.is_fully_synced = is_last;
if self.is_fully_synced {
// Notify miner
self.miner.chain_new_blocks(io.chain(), imported, invalid, enacted, retracted);
}
// Propagate latests blocks
self.propagate_latest_blocks(io);
// TODO [todr] propagate transactions?
}
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pub fn chain_new_head(&mut self, io: &mut SyncIo) {
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self.miner.prepare_sealing(io.chain());
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}
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}
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#[cfg(test)]
mod tests {
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use tests::helpers::*;
use super::*;
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use ::SyncConfig;
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use util::*;
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use super::{PeerInfo, PeerAsking};
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use ethcore::header::*;
use ethcore::client::*;
use ethminer::{Miner, MinerService};
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fn get_dummy_block(order: u32, parent_hash: H256) -> Bytes {
let mut header = Header::new();
header.gas_limit = x!(0);
header.difficulty = x!(order * 100);
header.timestamp = (order * 10) as u64;
header.number = order as u64;
header.parent_hash = parent_hash;
header.state_root = H256::zero();
let mut rlp = RlpStream::new_list(3);
rlp.append(&header);
rlp.append_raw(&rlp::EMPTY_LIST_RLP, 1);
rlp.append_raw(&rlp::EMPTY_LIST_RLP, 1);
rlp.out()
}
fn get_dummy_blocks(order: u32, parent_hash: H256) -> Bytes {
let mut rlp = RlpStream::new_list(1);
rlp.append_raw(&get_dummy_block(order, parent_hash), 1);
let difficulty: U256 = x!(100 * order);
rlp.append(&difficulty);
rlp.out()
}
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fn get_dummy_hashes() -> Bytes {
let mut rlp = RlpStream::new_list(5);
for _ in 0..5 {
let mut hash_d_rlp = RlpStream::new_list(2);
let hash: H256 = H256::from(0u64);
let diff: U256 = U256::from(1u64);
hash_d_rlp.append(&hash);
hash_d_rlp.append(&diff);
rlp.append_raw(&hash_d_rlp.out(), 1);
}
rlp.out()
}
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#[test]
fn return_receipts_empty() {
let mut client = TestBlockChainClient::new();
let mut queue = VecDeque::new();
let io = TestIo::new(&mut client, &mut queue, None);
let result = ChainSync::return_receipts(&io, &UntrustedRlp::new(&[0xc0]));
assert!(result.is_ok());
}
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#[test]
fn return_receipts() {
let mut client = TestBlockChainClient::new();
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let mut queue = VecDeque::new();
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let mut io = TestIo::new(&mut client, &mut queue, None);
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let mut receipt_list = RlpStream::new_list(4);
receipt_list.append(&H256::from("0000000000000000000000000000000000000000000000005555555555555555"));
receipt_list.append(&H256::from("ff00000000000000000000000000000000000000000000000000000000000000"));
receipt_list.append(&H256::from("fff0000000000000000000000000000000000000000000000000000000000000"));
receipt_list.append(&H256::from("aff0000000000000000000000000000000000000000000000000000000000000"));
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let receipts_request = receipt_list.out();
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// it returns rlp ONLY for hashes started with "f"
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let result = ChainSync::return_receipts(&io, &UntrustedRlp::new(&receipts_request.clone()));
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assert!(result.is_ok());
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let rlp_result = result.unwrap();
assert!(rlp_result.is_some());
// the length of two rlp-encoded receipts
assert_eq!(603, rlp_result.unwrap().1.out().len());
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let mut sync = dummy_sync_with_peer(H256::new());
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io.sender = Some(2usize);
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sync.on_packet(&mut io, 0usize, super::GET_RECEIPTS_PACKET, &receipts_request);
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assert_eq!(1, io.queue.len());
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}
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#[test]
fn return_nodes() {
let mut client = TestBlockChainClient::new();
let mut queue = VecDeque::new();
let mut io = TestIo::new(&mut client, &mut queue, None);
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let mut node_list = RlpStream::new_list(3);
node_list.append(&H256::from("0000000000000000000000000000000000000000000000005555555555555555"));
node_list.append(&H256::from("ffffffffffffffffffffffffffffffffffffffffffffaaaaaaaaaaaaaaaaaaaa"));
node_list.append(&H256::from("aff0000000000000000000000000000000000000000000000000000000000000"));
let node_request = node_list.out();
// it returns rlp ONLY for hashes started with "f"
let result = ChainSync::return_node_data(&io, &UntrustedRlp::new(&node_request.clone()));
assert!(result.is_ok());
let rlp_result = result.unwrap();
assert!(rlp_result.is_some());
// the length of one rlp-encoded hashe
assert_eq!(34, rlp_result.unwrap().1.out().len());
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let mut sync = dummy_sync_with_peer(H256::new());
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io.sender = Some(2usize);
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sync.on_packet(&mut io, 0usize, super::GET_NODE_DATA_PACKET, &node_request);
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assert_eq!(1, io.queue.len());
}
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fn dummy_sync_with_peer(peer_latest_hash: H256) -> ChainSync {
let mut sync = ChainSync::new(SyncConfig::default(), Miner::new());
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sync.peers.insert(0,
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PeerInfo {
protocol_version: 0,
genesis: H256::zero(),
network_id: U256::zero(),
latest_hash: peer_latest_hash,
latest_number: None,
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difficulty: U256::zero(),
asking: PeerAsking::Nothing,
asking_blocks: Vec::<BlockNumber>::new(),
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asking_hash: None,
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ask_time: 0f64,
});
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sync
}
#[test]
fn finds_lagging_peers() {
let mut client = TestBlockChainClient::new();
client.add_blocks(100, EachBlockWith::Uncle);
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let mut queue = VecDeque::new();
let mut sync = dummy_sync_with_peer(client.block_hash_delta_minus(10));
let chain_info = client.chain_info();
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let io = TestIo::new(&mut client, &mut queue, None);
let lagging_peers = sync.get_lagging_peers(&chain_info, &io);
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assert_eq!(1, lagging_peers.len())
}
#[test]
fn calculates_tree_for_lagging_peer() {
let mut client = TestBlockChainClient::new();
client.add_blocks(15, EachBlockWith::Uncle);
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let start = client.block_hash_delta_minus(4);
let end = client.block_hash_delta_minus(2);
// wrong way end -> start, should be None
let rlp = ChainSync::create_new_hashes_rlp(&client, &end, &start);
assert!(rlp.is_none());
let rlp = ChainSync::create_new_hashes_rlp(&client, &start, &end).unwrap();
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// size of three rlp encoded hash-difficulty
assert_eq!(107, rlp.len());
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}
#[test]
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fn sends_new_hashes_to_lagging_peer() {
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let mut client = TestBlockChainClient::new();
client.add_blocks(100, EachBlockWith::Uncle);
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let mut queue = VecDeque::new();
let mut sync = dummy_sync_with_peer(client.block_hash_delta_minus(5));
let chain_info = client.chain_info();
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let mut io = TestIo::new(&mut client, &mut queue, None);
let peer_count = sync.propagate_new_hashes(&chain_info, &mut io);
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// 1 message should be send
assert_eq!(1, io.queue.len());
// 1 peer should be updated
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assert_eq!(1, peer_count);
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// NEW_BLOCK_HASHES_PACKET
assert_eq!(0x01, io.queue[0].packet_id);
}
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#[test]
fn sends_latest_block_to_lagging_peer() {
let mut client = TestBlockChainClient::new();
client.add_blocks(100, EachBlockWith::Uncle);
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let mut queue = VecDeque::new();
let mut sync = dummy_sync_with_peer(client.block_hash_delta_minus(5));
let chain_info = client.chain_info();
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let mut io = TestIo::new(&mut client, &mut queue, None);
let peer_count = sync.propagate_blocks(&chain_info, &mut io);
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// 1 message should be send
assert_eq!(1, io.queue.len());
// 1 peer should be updated
assert_eq!(1, peer_count);
// NEW_BLOCK_PACKET
assert_eq!(0x07, io.queue[0].packet_id);
}
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#[test]
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fn handles_peer_new_block_mallformed() {
let mut client = TestBlockChainClient::new();
client.add_blocks(10, EachBlockWith::Uncle);
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let block_data = get_dummy_block(11, client.chain_info().best_block_hash);
let mut queue = VecDeque::new();
let mut sync = dummy_sync_with_peer(client.block_hash_delta_minus(5));
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sync.have_common_block = true;
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let mut io = TestIo::new(&mut client, &mut queue, None);
let block = UntrustedRlp::new(&block_data);
let result = sync.on_peer_new_block(&mut io, 0, &block);
assert!(result.is_err());
}
#[test]
fn handles_peer_new_block() {
let mut client = TestBlockChainClient::new();
client.add_blocks(10, EachBlockWith::Uncle);
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let block_data = get_dummy_blocks(11, client.chain_info().best_block_hash);
let mut queue = VecDeque::new();
let mut sync = dummy_sync_with_peer(client.block_hash_delta_minus(5));
let mut io = TestIo::new(&mut client, &mut queue, None);
let block = UntrustedRlp::new(&block_data);
let result = sync.on_peer_new_block(&mut io, 0, &block);
assert!(result.is_ok());
}
#[test]
fn handles_peer_new_block_empty() {
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let mut client = TestBlockChainClient::new();
client.add_blocks(10, EachBlockWith::Uncle);
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let mut queue = VecDeque::new();
let mut sync = dummy_sync_with_peer(client.block_hash_delta_minus(5));
let mut io = TestIo::new(&mut client, &mut queue, None);
let empty_data = vec![];
let block = UntrustedRlp::new(&empty_data);
let result = sync.on_peer_new_block(&mut io, 0, &block);
assert!(result.is_err());
}
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#[test]
fn handles_peer_new_hashes() {
let mut client = TestBlockChainClient::new();
client.add_blocks(10, EachBlockWith::Uncle);
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let mut queue = VecDeque::new();
let mut sync = dummy_sync_with_peer(client.block_hash_delta_minus(5));
let mut io = TestIo::new(&mut client, &mut queue, None);
let hashes_data = get_dummy_hashes();
let hashes_rlp = UntrustedRlp::new(&hashes_data);
let result = sync.on_peer_new_hashes(&mut io, 0, &hashes_rlp);
assert!(result.is_ok());
}
#[test]
fn handles_peer_new_hashes_empty() {
let mut client = TestBlockChainClient::new();
client.add_blocks(10, EachBlockWith::Uncle);
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let mut queue = VecDeque::new();
let mut sync = dummy_sync_with_peer(client.block_hash_delta_minus(5));
let mut io = TestIo::new(&mut client, &mut queue, None);
let empty_hashes_data = vec![];
let hashes_rlp = UntrustedRlp::new(&empty_hashes_data);
let result = sync.on_peer_new_hashes(&mut io, 0, &hashes_rlp);
assert!(result.is_ok());
}
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// idea is that what we produce when propagading latest hashes should be accepted in
// on_peer_new_hashes in our code as well
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#[test]
fn hashes_rlp_mutually_acceptable() {
let mut client = TestBlockChainClient::new();
client.add_blocks(100, EachBlockWith::Uncle);
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let mut queue = VecDeque::new();
let mut sync = dummy_sync_with_peer(client.block_hash_delta_minus(5));
let chain_info = client.chain_info();
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let mut io = TestIo::new(&mut client, &mut queue, None);
sync.propagate_new_hashes(&chain_info, &mut io);
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let data = &io.queue[0].data.clone();
let result = sync.on_peer_new_hashes(&mut io, 0, &UntrustedRlp::new(&data));
assert!(result.is_ok());
}
// idea is that what we produce when propagading latest block should be accepted in
// on_peer_new_block in our code as well
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#[test]
fn block_rlp_mutually_acceptable() {
let mut client = TestBlockChainClient::new();
client.add_blocks(100, EachBlockWith::Uncle);
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let mut queue = VecDeque::new();
let mut sync = dummy_sync_with_peer(client.block_hash_delta_minus(5));
let chain_info = client.chain_info();
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let mut io = TestIo::new(&mut client, &mut queue, None);
sync.propagate_blocks(&chain_info, &mut io);
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let data = &io.queue[0].data.clone();
let result = sync.on_peer_new_block(&mut io, 0, &UntrustedRlp::new(&data));
assert!(result.is_ok());
}
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#[test]
fn should_add_transactions_to_queue() {
// given
let mut client = TestBlockChainClient::new();
client.add_blocks(98, EachBlockWith::Uncle);
client.add_blocks(1, EachBlockWith::UncleAndTransaction);
client.add_blocks(1, EachBlockWith::Transaction);
let mut sync = dummy_sync_with_peer(client.block_hash_delta_minus(5));
let good_blocks = vec![client.block_hash_delta_minus(2)];
let retracted_blocks = vec![client.block_hash_delta_minus(1)];
let mut queue = VecDeque::new();
let mut io = TestIo::new(&mut client, &mut queue, None);
// when
sync.chain_new_blocks(&mut io, &[], &[], &[], &good_blocks);
assert_eq!(sync.miner.status().transactions_in_future_queue, 0);
assert_eq!(sync.miner.status().transactions_in_pending_queue, 1);
sync.chain_new_blocks(&mut io, &good_blocks, &[], &[], &retracted_blocks);
// then
let status = sync.miner.status();
assert_eq!(status.transactions_in_pending_queue, 1);
assert_eq!(status.transactions_in_future_queue, 0);
}
#[test]
fn should_not_add_transactions_to_queue_if_not_synced() {
// given
let mut client = TestBlockChainClient::new();
client.add_blocks(98, EachBlockWith::Uncle);
client.add_blocks(1, EachBlockWith::UncleAndTransaction);
client.add_blocks(1, EachBlockWith::Transaction);
let mut sync = dummy_sync_with_peer(client.block_hash_delta_minus(5));
let good_blocks = vec![client.block_hash_delta_minus(2)];
let retracted_blocks = vec![client.block_hash_delta_minus(1)];
let mut queue = VecDeque::new();
let mut io = TestIo::new(&mut client, &mut queue, None);
// when
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sync.chain_new_blocks(&mut io, &[], &[], &[], &good_blocks, false);
assert_eq!(sync.miner.status().transaction_queue_future, 0);
assert_eq!(sync.miner.status().transaction_queue_pending, 0);
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sync.chain_new_blocks(&mut io, &good_blocks, &[], &[], &retracted_blocks, false);
// then
let status = sync.miner.status();
assert_eq!(status.transaction_queue_pending, 0);
assert_eq!(status.transaction_queue_future, 0);
}
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#[test]
fn returns_requested_block_headers() {
let mut client = TestBlockChainClient::new();
client.add_blocks(100, EachBlockWith::Uncle);
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let mut queue = VecDeque::new();
let io = TestIo::new(&mut client, &mut queue, None);
let mut rlp = RlpStream::new_list(4);
rlp.append(&0u64);
rlp.append(&10u64);
rlp.append(&0u64);
rlp.append(&0u64);
let data = rlp.out();
let response = ChainSync::return_block_headers(&io, &UntrustedRlp::new(&data));
assert!(response.is_ok());
let (_, rlp_stream) = response.unwrap().unwrap();
let response_data = rlp_stream.out();
let rlp = UntrustedRlp::new(&response_data);
assert!(rlp.at(0).is_ok());
assert!(rlp.at(9).is_ok());
}
#[test]
fn returns_requested_block_headers_reverse() {
let mut client = TestBlockChainClient::new();
client.add_blocks(100, EachBlockWith::Uncle);
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let mut queue = VecDeque::new();
let io = TestIo::new(&mut client, &mut queue, None);
let mut rlp = RlpStream::new_list(4);
rlp.append(&15u64);
rlp.append(&15u64);
rlp.append(&0u64);
rlp.append(&1u64);
let data = rlp.out();
let response = ChainSync::return_block_headers(&io, &UntrustedRlp::new(&data));
assert!(response.is_ok());
let (_, rlp_stream) = response.unwrap().unwrap();
let response_data = rlp_stream.out();
let rlp = UntrustedRlp::new(&response_data);
assert!(rlp.at(0).is_ok());
assert!(rlp.at(14).is_ok());
assert!(!rlp.at(15).is_ok());
}
}