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// Copyright 2015-2017 Parity Technologies (UK) Ltd.
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// 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
///
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/// Syncing strategy summary.
/// Split the chain into ranges of N blocks each. Download ranges sequentially. Split each range into subchains of M blocks. Download subchains in parallel.
/// State.
/// Sync state consists of the following data:
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/// - s: State enum which can be one of the following values: `ChainHead`, `Blocks`, `Idle`
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/// - H: A set of downloaded block headers
/// - B: A set of downloaded block bodies
/// - S: Set of block subchain start block hashes to download.
/// - l: Last imported / common block hash
/// - P: A set of connected peers. For each peer we maintain its last known total difficulty and starting block hash being requested if any.
/// General behaviour.
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/// We start with all sets empty, l is set to the best block in the block chain, s is set to `ChainHead`.
/// If at any moment a bad block is reported by the block queue, we set s to `ChainHead`, reset l to the best block in the block chain and clear H, B and S.
/// If at any moment P becomes empty, we set s to `ChainHead`, and clear H, B and S.
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///
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/// Workflow for `ChainHead` state.
/// In this state we try to get subchain headers with a single `GetBlockHeaders` request.
/// On `NewPeer` / On `Restart`:
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/// If peer's total difficulty is higher and there are less than 5 peers downloading, request N/M headers with interval M+1 starting from l
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/// On `BlockHeaders(R)`:
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/// If R is empty:
/// If l is equal to genesis block hash or l is more than 1000 blocks behind our best hash:
/// Remove current peer from P. set l to the best block in the block chain. Select peer with maximum total difficulty from P and restart.
/// Else
/// Set l to l’ s parent and restart.
/// Else if we already have all the headers in the block chain or the block queue:
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/// Set s to `Idle`,
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/// Else
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/// Set S to R, set s to `Blocks`.
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///
/// All other messages are ignored.
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///
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/// Workflow for `Blocks` state.
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/// In this state we download block headers and bodies from multiple peers.
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/// On `NewPeer` / On `Restart`:
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/// For all idle peers:
/// Find a set of 256 or less block hashes in H which are not in B and not being downloaded by other peers. If the set is not empty:
/// Request block bodies for the hashes in the set.
/// Else
/// Find an element in S which is not being downloaded by other peers. If found: Request M headers starting from the element.
///
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/// On `BlockHeaders(R)`:
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/// If R is empty remove current peer from P and restart.
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/// Validate received headers:
/// For each header find a parent in H or R or the blockchain. Restart if there is a block with unknown parent.
/// Find at least one header from the received list in S. Restart if there is none.
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/// Go to `CollectBlocks`.
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///
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/// On `BlockBodies(R)`:
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/// If R is empty remove current peer from P and restart.
/// Add bodies with a matching header in H to B.
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/// Go to `CollectBlocks`.
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///
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/// `CollectBlocks`:
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/// Find a chain of blocks C in H starting from h where h’ s parent equals to l. The chain ends with the first block which does not have a body in B.
/// Add all blocks from the chain to the block queue. Remove them from H and B. Set l to the hash of the last block from C.
/// Update and merge subchain heads in S. For each h in S find a chain of blocks in B starting from h. Remove h from S. if the chain does not include an element from S add the end of the chain to S.
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/// If H is empty and S contains a single element set s to `ChainHead`.
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/// Restart.
///
/// All other messages are ignored.
/// Workflow for Idle state.
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/// On `NewBlock`:
/// Import the block. If the block is unknown set s to `ChainHead` and restart.
/// On `NewHashes`:
/// Set s to `ChainHead` and restart.
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///
/// All other messages are ignored.
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///
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use util ::* ;
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use rlp ::* ;
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use network ::* ;
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use ethcore ::header ::{ BlockNumber , Header as BlockHeader } ;
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use ethcore ::client ::{ BlockChainClient , BlockStatus , BlockId , BlockChainInfo , BlockImportError , BlockQueueInfo } ;
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use ethcore ::error ::* ;
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use ethcore ::snapshot ::{ ManifestData , RestorationStatus } ;
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use ethcore ::transaction ::PendingTransaction ;
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use sync_io ::SyncIo ;
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use time ;
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use super ::SyncConfig ;
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use block_sync ::{ BlockDownloader , BlockRequest , BlockDownloaderImportError as DownloaderImportError , DownloadAction } ;
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use rand ::Rng ;
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use snapshot ::{ Snapshot , ChunkType } ;
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use api ::{ EthProtocolInfo as PeerInfoDigest , WARP_SYNC_PROTOCOL_ID } ;
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use transactions_stats ::{ TransactionsStats , Stats as TransactionStats } ;
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known_heap_size! ( 0 , PeerInfo ) ;
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type PacketDecodeError = DecoderError ;
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const PROTOCOL_VERSION_63 : u8 = 63 ;
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const PROTOCOL_VERSION_62 : u8 = 62 ;
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const PROTOCOL_VERSION_1 : u8 = 1 ;
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const PROTOCOL_VERSION_2 : u8 = 2 ;
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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 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 MAX_NEW_HASHES : usize = 64 ;
const MAX_TX_TO_IMPORT : usize = 512 ;
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const MAX_NEW_BLOCK_AGE : BlockNumber = 20 ;
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const MAX_TRANSACTION_SIZE : usize = 300 * 1024 ;
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// Maximal number of transactions in sent in single packet.
const MAX_TRANSACTIONS_TO_PROPAGATE : usize = 64 ;
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// Min number of blocks to be behind for a snapshot sync
const SNAPSHOT_RESTORE_THRESHOLD : BlockNumber = 100000 ;
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const SNAPSHOT_MIN_PEERS : usize = 3 ;
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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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pub const ETH_PACKET_COUNT : u8 = 0x11 ;
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const GET_SNAPSHOT_MANIFEST_PACKET : u8 = 0x11 ;
const SNAPSHOT_MANIFEST_PACKET : u8 = 0x12 ;
const GET_SNAPSHOT_DATA_PACKET : u8 = 0x13 ;
const SNAPSHOT_DATA_PACKET : u8 = 0x14 ;
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const CONSENSUS_DATA_PACKET : u8 = 0x15 ;
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pub const SNAPSHOT_SYNC_PACKET_COUNT : u8 = 0x16 ;
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const MAX_SNAPSHOT_CHUNKS_DOWNLOAD_AHEAD : usize = 3 ;
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const MIN_SUPPORTED_SNAPSHOT_MANIFEST_VERSION : u64 = 1 ;
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const WAIT_PEERS_TIMEOUT_SEC : u64 = 5 ;
const STATUS_TIMEOUT_SEC : u64 = 5 ;
const HEADERS_TIMEOUT_SEC : u64 = 15 ;
const BODIES_TIMEOUT_SEC : u64 = 10 ;
const RECEIPTS_TIMEOUT_SEC : u64 = 10 ;
const FORK_HEADER_TIMEOUT_SEC : u64 = 3 ;
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const SNAPSHOT_MANIFEST_TIMEOUT_SEC : u64 = 5 ;
const SNAPSHOT_DATA_TIMEOUT_SEC : u64 = 120 ;
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#[ derive(Copy, Clone, Eq, PartialEq, Debug) ]
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/// Sync state
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pub enum SyncState {
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/// Collecting enough peers to start syncing.
WaitingPeers ,
/// Waiting for snapshot manifest download
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SnapshotManifest ,
/// Downloading snapshot data
SnapshotData ,
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/// Waiting for snapshot restoration progress.
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SnapshotWaiting ,
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/// Downloading new blocks
Blocks ,
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/// 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 ,
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/// Downloading blocks learned from `NewHashes` packet
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NewBlocks ,
}
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/// Syncing status and statistics
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#[ derive(Clone, Copy) ]
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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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/// The underlying p2p network version.
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pub network_id : u64 ,
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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 ,
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/// Total number of active peers.
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pub num_active_peers : usize ,
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/// Heap memory used in bytes.
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pub mem_used : usize ,
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/// Snapshot chunks
pub num_snapshot_chunks : usize ,
/// Snapshot chunks downloaded
pub snapshot_chunks_done : usize ,
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/// Last fully downloaded and imported ancient block number (if any).
pub last_imported_old_block_number : Option < BlockNumber > ,
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}
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impl SyncStatus {
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/// Indicates if snapshot download is in progress
pub fn is_snapshot_syncing ( & self ) -> bool {
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self . state = = SyncState ::SnapshotManifest
| | self . state = = SyncState ::SnapshotData
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| | self . state = = SyncState ::SnapshotWaiting
}
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/// Returns max no of peers to display in informants
pub fn current_max_peers ( & self , min_peers : u32 , max_peers : u32 ) -> u32 {
if self . num_peers as u32 > min_peers {
max_peers
} else {
min_peers
}
}
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/// Is it doing a major sync?
pub fn is_syncing ( & self , queue_info : BlockQueueInfo ) -> bool {
let is_syncing_state = match self . state { SyncState ::Idle | SyncState ::NewBlocks = > false , _ = > true } ;
let is_verifying = queue_info . unverified_queue_size + queue_info . verified_queue_size > 3 ;
is_verifying | | is_syncing_state
}
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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 ,
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ForkHeader ,
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BlockHeaders ,
BlockBodies ,
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BlockReceipts ,
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SnapshotManifest ,
SnapshotData ,
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}
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#[ derive(PartialEq, Eq, Debug, Clone, Copy) ]
/// Block downloader channel.
enum BlockSet {
/// New blocks better than out best blocks
NewBlocks ,
/// Missing old blocks
OldBlocks ,
}
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#[ derive(Clone, Eq, PartialEq) ]
enum ForkConfirmation {
/// Fork block confirmation pending.
Unconfirmed ,
/// Peers chain is too short to confirm the fork.
TooShort ,
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/// Fork is confirmed.
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Confirmed ,
}
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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 : u8 ,
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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 : u64 ,
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/// Peer best block hash
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latest_hash : H256 ,
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/// Peer total difficulty if known
difficulty : Option < 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 < H256 > ,
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/// Holds requested header hash if currently requesting block header by hash
asking_hash : Option < H256 > ,
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/// Holds requested snapshot chunk hash if any.
asking_snapshot_data : Option < H256 > ,
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/// Request timestamp
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ask_time : u64 ,
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/// Holds a set of transactions recently sent to this peer to avoid spamming.
last_sent_transactions : HashSet < H256 > ,
/// Pending request is expired and result should be ignored
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expired : bool ,
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/// Peer fork confirmation status
confirmation : ForkConfirmation ,
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/// Best snapshot hash
snapshot_hash : Option < H256 > ,
/// Best snapshot block number
snapshot_number : Option < BlockNumber > ,
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/// Block set requested
block_set : Option < BlockSet > ,
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}
impl PeerInfo {
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fn can_sync ( & self ) -> bool {
self . confirmation = = ForkConfirmation ::Confirmed & & ! self . expired
}
fn is_allowed ( & self ) -> bool {
self . confirmation ! = ForkConfirmation ::Unconfirmed & & ! self . expired
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}
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fn reset_asking ( & mut self ) {
self . asking_blocks . clear ( ) ;
self . asking_hash = None ;
// mark any pending requests as expired
if self . asking ! = PeerAsking ::Nothing & & self . is_allowed ( ) {
self . expired = true ;
}
}
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}
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#[ cfg(not(test)) ]
mod random {
use rand ;
pub fn new ( ) -> rand ::ThreadRng { rand ::thread_rng ( ) }
}
#[ cfg(test) ]
mod random {
use rand ::{ self , SeedableRng } ;
pub fn new ( ) -> rand ::XorShiftRng { rand ::XorShiftRng ::from_seed ( [ 0 , 1 , 2 , 3 ] ) }
}
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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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/// All connected peers
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peers : HashMap < PeerId , PeerInfo > ,
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/// Peers active for current sync round
active_peers : HashSet < PeerId > ,
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/// Block download process for new blocks
new_blocks : BlockDownloader ,
/// Block download process for ancient blocks
old_blocks : Option < BlockDownloader > ,
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/// Last propagated block number
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last_sent_block_number : BlockNumber ,
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/// Network ID
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network_id : u64 ,
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/// Optional fork block to check
fork_block : Option < ( BlockNumber , H256 ) > ,
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/// Snapshot downloader.
snapshot : Snapshot ,
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/// Connected peers pending Status message.
/// Value is request timestamp.
handshaking_peers : HashMap < PeerId , u64 > ,
/// Sync start timestamp. Measured when first peer is connected
sync_start_time : Option < u64 > ,
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/// Transactions propagation statistics
transactions_stats : TransactionsStats ,
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/// Enable ancient block downloading
download_old_blocks : bool ,
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/// Enable warp sync.
enable_warp_sync : 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.
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pub fn new ( config : SyncConfig , chain : & BlockChainClient ) -> ChainSync {
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let chain_info = chain . chain_info ( ) ;
let mut sync = ChainSync {
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state : if config . warp_sync { SyncState ::WaitingPeers } else { SyncState ::Idle } ,
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starting_block : chain . chain_info ( ) . best_block_number ,
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highest_block : None ,
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peers : HashMap ::new ( ) ,
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handshaking_peers : HashMap ::new ( ) ,
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active_peers : HashSet ::new ( ) ,
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new_blocks : BlockDownloader ::new ( false , & chain_info . best_block_hash , chain_info . best_block_number ) ,
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old_blocks : None ,
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last_sent_block_number : 0 ,
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network_id : config . network_id ,
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fork_block : config . fork_block ,
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download_old_blocks : config . download_old_blocks ,
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snapshot : Snapshot ::new ( ) ,
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sync_start_time : None ,
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transactions_stats : TransactionsStats ::default ( ) ,
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enable_warp_sync : config . warp_sync ,
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} ;
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sync . update_targets ( chain ) ;
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sync
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}
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/// Returns synchonization status
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pub fn status ( & self ) -> SyncStatus {
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let last_imported_number = self . new_blocks . last_imported_block_number ( ) ;
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SyncStatus {
state : self . state . clone ( ) ,
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protocol_version : PROTOCOL_VERSION_63 ,
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network_id : self . network_id ,
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start_block_number : self . starting_block ,
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last_imported_block_number : Some ( last_imported_number ) ,
last_imported_old_block_number : self . old_blocks . as_ref ( ) . map ( | d | d . last_imported_block_number ( ) ) ,
highest_block_number : self . highest_block . map ( | n | max ( n , last_imported_number ) ) ,
blocks_received : if last_imported_number > self . starting_block { last_imported_number - self . starting_block } else { 0 } ,
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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 . values ( ) . filter ( | p | p . is_allowed ( ) ) . count ( ) ,
num_active_peers : self . peers . values ( ) . filter ( | p | p . is_allowed ( ) & & p . asking ! = PeerAsking ::Nothing ) . count ( ) ,
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num_snapshot_chunks : self . snapshot . total_chunks ( ) ,
snapshot_chunks_done : self . snapshot . done_chunks ( ) ,
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mem_used :
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self . new_blocks . heap_size ( )
+ self . old_blocks . as_ref ( ) . map_or ( 0 , | d | d . heap_size ( ) )
+ self . peers . heap_size_of_children ( ) ,
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}
}
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/// Returns information on peers connections
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pub fn peer_info ( & self , peer_id : & PeerId ) -> Option < PeerInfoDigest > {
self . peers . get ( peer_id ) . map ( | peer_data | {
PeerInfoDigest {
version : peer_data . protocol_version as u32 ,
difficulty : peer_data . difficulty ,
head : peer_data . latest_hash ,
}
} )
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}
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/// Returns transactions propagation statistics
pub fn transactions_stats ( & self ) -> & H256FastMap < TransactionStats > {
self . transactions_stats . stats ( )
}
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/// Updates transactions were received by a peer
pub fn transactions_received ( & mut self , hashes : Vec < H256 > , peer_id : PeerId ) {
if let Some ( mut peer_info ) = self . peers . get_mut ( & peer_id ) {
peer_info . last_sent_transactions . extend ( & hashes ) ;
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}
}
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/// Abort all sync activity
pub fn abort ( & mut self , io : & mut SyncIo ) {
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self . reset_and_continue ( io ) ;
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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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/// Reset sync. Clear all downloaded data but keep the queue
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fn reset ( & mut self , io : & mut SyncIo ) {
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self . new_blocks . reset ( ) ;
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let chain_info = io . chain ( ) . chain_info ( ) ;
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for ( _ , ref mut p ) in & mut self . peers {
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if p . block_set ! = Some ( BlockSet ::OldBlocks ) {
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p . reset_asking ( ) ;
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if p . difficulty . is_none ( ) {
// assume peer has up to date difficulty
p . difficulty = Some ( chain_info . pending_total_difficulty ) ;
}
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}
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}
self . state = SyncState ::Idle ;
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// Reactivate peers only if some progress has been made
// since the last sync round of if starting fresh.
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self . active_peers = self . peers . keys ( ) . cloned ( ) . collect ( ) ;
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}
/// Restart sync
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pub fn reset_and_continue ( & mut self , io : & mut SyncIo ) {
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trace! ( target : " sync " , " Restarting " ) ;
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if self . state = = SyncState ::SnapshotData {
debug! ( target :" sync " , " Aborting snapshot restore " ) ;
io . snapshot_service ( ) . abort_restore ( ) ;
}
self . snapshot . clear ( ) ;
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self . reset ( io ) ;
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self . continue_sync ( io ) ;
}
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/// Remove peer from active peer set. Peer will be reactivated on the next sync
/// round.
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fn deactivate_peer ( & mut self , _io : & mut SyncIo , peer_id : PeerId ) {
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trace! ( target : " sync " , " Deactivating peer {} " , peer_id ) ;
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self . active_peers . remove ( & peer_id ) ;
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}
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fn maybe_start_snapshot_sync ( & mut self , io : & mut SyncIo ) {
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if ! self . enable_warp_sync {
return ;
}
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if self . state ! = SyncState ::WaitingPeers & & self . state ! = SyncState ::Blocks & & self . state ! = SyncState ::Waiting {
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return ;
}
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// Make sure the snapshot block is not too far away from best block and network best block and
// that it is higher than fork detection block
let our_best_block = io . chain ( ) . chain_info ( ) . best_block_number ;
let fork_block = self . fork_block . as_ref ( ) . map ( | & ( n , _ ) | n ) . unwrap_or ( 0 ) ;
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let ( best_hash , max_peers , snapshot_peers ) = {
//collect snapshot infos from peers
let snapshots = self . peers . iter ( )
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. filter ( | & ( _ , p ) | p . is_allowed ( ) & & p . snapshot_number . map_or ( false , | sn |
our_best_block < sn & & ( sn - our_best_block ) > SNAPSHOT_RESTORE_THRESHOLD & &
sn > fork_block & &
self . highest_block . map_or ( true , | highest | highest > = sn & & ( highest - sn ) < = SNAPSHOT_RESTORE_THRESHOLD )
) )
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. filter_map ( | ( p , peer ) | peer . snapshot_hash . map ( | hash | ( p , hash . clone ( ) ) ) ) ;
let mut snapshot_peers = HashMap ::new ( ) ;
let mut max_peers : usize = 0 ;
let mut best_hash = None ;
for ( p , hash ) in snapshots {
let peers = snapshot_peers . entry ( hash ) . or_insert_with ( Vec ::new ) ;
peers . push ( * p ) ;
if peers . len ( ) > max_peers {
max_peers = peers . len ( ) ;
best_hash = Some ( hash ) ;
}
}
( best_hash , max_peers , snapshot_peers )
} ;
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let timeout = ( self . state = = SyncState ::WaitingPeers ) & & self . sync_start_time . map_or ( false , | t | ( ( time ::precise_time_ns ( ) - t ) / 1_000_000_000 ) > WAIT_PEERS_TIMEOUT_SEC ) ;
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if let ( Some ( hash ) , Some ( peers ) ) = ( best_hash , best_hash . map_or ( None , | h | snapshot_peers . get ( & h ) ) ) {
if max_peers > = SNAPSHOT_MIN_PEERS {
trace! ( target : " sync " , " Starting confirmed snapshot sync {:?} with {:?} " , hash , peers ) ;
self . start_snapshot_sync ( io , peers ) ;
} else if timeout {
trace! ( target : " sync " , " Starting unconfirmed snapshot sync {:?} with {:?} " , hash , peers ) ;
self . start_snapshot_sync ( io , peers ) ;
}
} else if timeout {
trace! ( target : " sync " , " No snapshots found, starting full sync " ) ;
self . state = SyncState ::Idle ;
self . continue_sync ( io ) ;
}
}
fn start_snapshot_sync ( & mut self , io : & mut SyncIo , peers : & [ PeerId ] ) {
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if ! self . snapshot . have_manifest ( ) {
for p in peers {
if self . peers . get ( p ) . map_or ( false , | p | p . asking = = PeerAsking ::Nothing ) {
self . request_snapshot_manifest ( io , * p ) ;
}
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}
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self . state = SyncState ::SnapshotManifest ;
trace! ( target : " sync " , " New snapshot sync with {:?} " , peers ) ;
} else {
self . state = SyncState ::SnapshotData ;
trace! ( target : " sync " , " Resumed snapshot sync with {:?} " , peers ) ;
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}
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}
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/// Restart sync disregarding the block queue status. May end up re-downloading up to QUEUE_SIZE blocks
pub fn restart ( & mut self , io : & mut SyncIo ) {
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self . update_targets ( io . chain ( ) ) ;
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self . reset_and_continue ( io ) ;
}
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/// Update sync after the blockchain has been changed externally.
pub fn update_targets ( & mut self , chain : & BlockChainClient ) {
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// Do not assume that the block queue/chain still has our last_imported_block
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let chain = chain . chain_info ( ) ;
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self . new_blocks = BlockDownloader ::new ( false , & chain . best_block_hash , chain . best_block_number ) ;
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self . old_blocks = None ;
if self . download_old_blocks {
if let ( Some ( ancient_block_hash ) , Some ( ancient_block_number ) ) = ( chain . ancient_block_hash , chain . ancient_block_number ) {
trace! ( target : " sync " , " Downloading old blocks from {:?} (#{}) till {:?} (#{:?}) " , ancient_block_hash , ancient_block_number , chain . first_block_hash , chain . first_block_number ) ;
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let mut downloader = BlockDownloader ::with_unlimited_reorg ( true , & ancient_block_hash , ancient_block_number ) ;
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if let Some ( hash ) = chain . first_block_hash {
trace! ( target : " sync " , " Downloader target set to {:?} " , hash ) ;
downloader . set_target ( & hash ) ;
}
self . old_blocks = Some ( downloader ) ;
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}
}
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}
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/// 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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self . handshaking_peers . remove ( & peer_id ) ;
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let protocol_version : u8 = r . val_at ( 0 ) ? ;
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let warp_protocol = io . protocol_version ( & WARP_SYNC_PROTOCOL_ID , peer_id ) ! = 0 ;
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let peer = PeerInfo {
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protocol_version : protocol_version ,
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network_id : r . val_at ( 1 ) ? ,
difficulty : Some ( r . val_at ( 2 ) ? ) ,
latest_hash : r . val_at ( 3 ) ? ,
genesis : 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 : 0 ,
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last_sent_transactions : HashSet ::new ( ) ,
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expired : false ,
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confirmation : if self . fork_block . is_none ( ) { ForkConfirmation ::Confirmed } else { ForkConfirmation ::Unconfirmed } ,
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asking_snapshot_data : None ,
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snapshot_hash : if warp_protocol { Some ( r . val_at ( 5 ) ? ) } else { None } ,
snapshot_number : if warp_protocol { Some ( r . val_at ( 6 ) ? ) } else { None } ,
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block_set : None ,
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} ;
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if self . sync_start_time . is_none ( ) {
self . sync_start_time = Some ( time ::precise_time_ns ( ) ) ;
}
trace! ( target : " sync " , " New peer {} (protocol: {}, network: {:?}, difficulty: {:?}, latest:{}, genesis:{}, snapshot:{:?}) " ,
peer_id , peer . protocol_version , peer . network_id , peer . difficulty , peer . latest_hash , peer . genesis , peer . snapshot_number ) ;
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if io . is_expired ( ) {
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trace! ( target : " sync " , " Status packet from expired session {}:{} " , peer_id , io . peer_info ( peer_id ) ) ;
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return Ok ( ( ) ) ;
}
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if self . peers . contains_key ( & peer_id ) {
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debug! ( target : " sync " , " Unexpected status packet from {}:{} " , peer_id , io . peer_info ( peer_id ) ) ;
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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 ) ;
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trace! ( target : " sync " , " Peer {} genesis hash mismatch (ours: {}, theirs: {}) " , peer_id , chain_info . genesis_hash , peer . genesis ) ;
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return Ok ( ( ) ) ;
}
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if peer . network_id ! = self . network_id {
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io . disable_peer ( peer_id ) ;
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trace! ( target : " sync " , " Peer {} network id mismatch (ours: {}, theirs: {}) " , peer_id , self . network_id , peer . network_id ) ;
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return Ok ( ( ) ) ;
}
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if ( warp_protocol & & peer . protocol_version ! = PROTOCOL_VERSION_1 & & peer . protocol_version ! = PROTOCOL_VERSION_2 ) | | ( ! warp_protocol & & peer . protocol_version ! = PROTOCOL_VERSION_63 & & peer . protocol_version ! = PROTOCOL_VERSION_62 ) {
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io . disable_peer ( peer_id ) ;
trace! ( target : " sync " , " Peer {} unsupported eth protocol ({}) " , peer_id , peer . protocol_version ) ;
return Ok ( ( ) ) ;
}
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self . peers . insert ( peer_id . clone ( ) , peer ) ;
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// Don't activate peer immediatelly when searching for common block.
// Let the current sync round complete first.
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self . active_peers . insert ( peer_id . clone ( ) ) ;
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debug! ( target : " sync " , " Connected {}:{} " , peer_id , io . peer_info ( peer_id ) ) ;
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if let Some ( ( fork_block , _ ) ) = self . fork_block {
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self . request_fork_header_by_number ( io , peer_id , fork_block ) ;
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} else {
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, needless_borrow)) ]
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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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let confirmed = match self . peers . get_mut ( & peer_id ) {
Some ( ref mut peer ) if peer . asking = = PeerAsking ::ForkHeader = > {
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peer . asking = PeerAsking ::Nothing ;
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let item_count = r . item_count ( ) ? ;
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let ( fork_number , fork_hash ) = self . fork_block . expect ( " ForkHeader request is sent only fork block is Some; qed " ) . clone ( ) ;
if item_count = = 0 | | item_count ! = 1 {
trace! ( target : " sync " , " {}: Chain is too short to confirm the block " , peer_id ) ;
peer . confirmation = ForkConfirmation ::TooShort ;
} else {
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let header = r . at ( 0 ) ? . as_raw ( ) ;
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if header . sha3 ( ) = = fork_hash {
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trace! ( target : " sync " , " {}: Confirmed peer " , peer_id ) ;
peer . confirmation = ForkConfirmation ::Confirmed ;
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if ! io . chain_overlay ( ) . read ( ) . contains_key ( & fork_number ) {
io . chain_overlay ( ) . write ( ) . insert ( fork_number , header . to_vec ( ) ) ;
}
} else {
trace! ( target : " sync " , " {}: Fork mismatch " , peer_id ) ;
io . disconnect_peer ( peer_id ) ;
return Ok ( ( ) ) ;
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}
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}
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true
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} ,
_ = > false ,
} ;
if confirmed {
self . sync_peer ( io , peer_id , false ) ;
return Ok ( ( ) ) ;
}
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self . clear_peer_download ( peer_id ) ;
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let expected_hash = self . peers . get ( & peer_id ) . and_then ( | p | p . asking_hash ) ;
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let allowed = self . peers . get ( & peer_id ) . map ( | p | p . is_allowed ( ) ) . unwrap_or ( false ) ;
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let block_set = self . peers . get ( & peer_id ) . and_then ( | p | p . block_set ) . unwrap_or ( BlockSet ::NewBlocks ) ;
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if ! self . reset_peer_asking ( peer_id , PeerAsking ::BlockHeaders ) | | expected_hash . is_none ( ) | | ! allowed {
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trace! ( target : " sync " , " {}: Ignored unexpected headers, expected_hash = {:?} " , peer_id , expected_hash ) ;
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self . continue_sync ( io ) ;
return Ok ( ( ) ) ;
}
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let item_count = r . item_count ( ) ? ;
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trace! ( target : " sync " , " {} -> BlockHeaders ({} entries), state = {:?}, set = {:?} " , peer_id , item_count , self . state , block_set ) ;
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if ( self . state = = SyncState ::Idle | | self . state = = SyncState ::WaitingPeers ) & & self . old_blocks . is_none ( ) {
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trace! ( target : " sync " , " Ignored unexpected block headers " ) ;
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self . continue_sync ( io ) ;
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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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self . continue_sync ( io ) ;
return Ok ( ( ) ) ;
}
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let result = {
let mut downloader = match block_set {
BlockSet ::NewBlocks = > & mut self . new_blocks ,
BlockSet ::OldBlocks = > {
match self . old_blocks {
None = > {
trace! ( target : " sync " , " Ignored block headers while block download is inactive " ) ;
self . continue_sync ( io ) ;
return Ok ( ( ) ) ;
} ,
Some ( ref mut blocks ) = > blocks ,
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}
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}
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} ;
downloader . import_headers ( io , r , expected_hash )
} ;
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match result {
Err ( DownloaderImportError ::Useless ) = > {
self . deactivate_peer ( io , peer_id ) ;
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} ,
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Err ( DownloaderImportError ::Invalid ) = > {
io . disable_peer ( peer_id ) ;
self . deactivate_peer ( io , peer_id ) ;
self . continue_sync ( io ) ;
return Ok ( ( ) ) ;
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} ,
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Ok ( DownloadAction ::Reset ) = > {
// mark all outstanding requests as expired
trace! ( " Resetting downloads for {:?} " , block_set ) ;
for ( _ , ref mut p ) in self . peers . iter_mut ( ) . filter ( | & ( _ , ref p ) | p . block_set = = Some ( block_set ) ) {
p . reset_asking ( ) ;
}
}
Ok ( DownloadAction ::None ) = > { } ,
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}
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self . collect_blocks ( io , block_set ) ;
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// give a task to the same peer first if received valuable headers.
self . sync_peer ( io , peer_id , false ) ;
// give tasks to other peers
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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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self . clear_peer_download ( peer_id ) ;
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let block_set = self . peers . get ( & peer_id ) . and_then ( | p | p . block_set ) . unwrap_or ( BlockSet ::NewBlocks ) ;
if ! self . reset_peer_asking ( peer_id , PeerAsking ::BlockBodies ) {
trace! ( target : " sync " , " {}: Ignored unexpected bodies " , peer_id ) ;
self . continue_sync ( io ) ;
return Ok ( ( ) ) ;
}
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let item_count = r . item_count ( ) ? ;
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trace! ( target : " sync " , " {} -> BlockBodies ({} entries), set = {:?} " , peer_id , item_count , block_set ) ;
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if item_count = = 0 {
self . deactivate_peer ( io , peer_id ) ;
}
else if self . state = = SyncState ::Waiting {
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trace! ( target : " sync " , " Ignored block bodies while waiting " ) ;
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}
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else
{
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let result = {
let mut downloader = match block_set {
BlockSet ::NewBlocks = > & mut self . new_blocks ,
BlockSet ::OldBlocks = > match self . old_blocks {
None = > {
trace! ( target : " sync " , " Ignored block headers while block download is inactive " ) ;
self . continue_sync ( io ) ;
return Ok ( ( ) ) ;
} ,
Some ( ref mut blocks ) = > blocks ,
}
} ;
downloader . import_bodies ( io , r )
} ;
match result {
Err ( DownloaderImportError ::Invalid ) = > {
io . disable_peer ( peer_id ) ;
self . deactivate_peer ( io , peer_id ) ;
self . continue_sync ( io ) ;
return Ok ( ( ) ) ;
} ,
Err ( DownloaderImportError ::Useless ) = > {
self . deactivate_peer ( io , peer_id ) ;
} ,
Ok ( ( ) ) = > ( ) ,
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}
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self . collect_blocks ( io , block_set ) ;
self . sync_peer ( io , peer_id , false ) ;
}
self . continue_sync ( io ) ;
Ok ( ( ) )
}
/// Called by peer once it has new block receipts
fn on_peer_block_receipts ( & mut self , io : & mut SyncIo , peer_id : PeerId , r : & UntrustedRlp ) -> Result < ( ) , PacketDecodeError > {
self . clear_peer_download ( peer_id ) ;
let block_set = self . peers . get ( & peer_id ) . and_then ( | p | p . block_set ) . unwrap_or ( BlockSet ::NewBlocks ) ;
if ! self . reset_peer_asking ( peer_id , PeerAsking ::BlockReceipts ) {
trace! ( target : " sync " , " {}: Ignored unexpected receipts " , peer_id ) ;
self . continue_sync ( io ) ;
return Ok ( ( ) ) ;
}
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let item_count = r . item_count ( ) ? ;
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trace! ( target : " sync " , " {} -> BlockReceipts ({} entries) " , peer_id , item_count ) ;
if item_count = = 0 {
self . deactivate_peer ( io , peer_id ) ;
}
else if self . state = = SyncState ::Waiting {
trace! ( target : " sync " , " Ignored block receipts while waiting " ) ;
}
else
{
let result = {
let mut downloader = match block_set {
BlockSet ::NewBlocks = > & mut self . new_blocks ,
BlockSet ::OldBlocks = > match self . old_blocks {
None = > {
trace! ( target : " sync " , " Ignored block headers while block download is inactive " ) ;
self . continue_sync ( io ) ;
return Ok ( ( ) ) ;
} ,
Some ( ref mut blocks ) = > blocks ,
}
} ;
downloader . import_receipts ( io , r )
} ;
match result {
Err ( DownloaderImportError ::Invalid ) = > {
io . disable_peer ( peer_id ) ;
self . deactivate_peer ( io , peer_id ) ;
self . continue_sync ( io ) ;
return Ok ( ( ) ) ;
} ,
Err ( DownloaderImportError ::Useless ) = > {
self . deactivate_peer ( io , peer_id ) ;
} ,
Ok ( ( ) ) = > ( ) ,
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}
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self . collect_blocks ( io , block_set ) ;
self . sync_peer ( io , peer_id , false ) ;
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}
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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if ! self . peers . get ( & peer_id ) . map_or ( false , | p | p . can_sync ( ) ) {
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trace! ( target : " sync " , " Ignoring new block from unconfirmed peer {} " , peer_id ) ;
return Ok ( ( ) ) ;
}
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let difficulty : U256 = r . val_at ( 1 ) ? ;
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if let Some ( ref mut peer ) = self . peers . get_mut ( & peer_id ) {
if peer . difficulty . map_or ( true , | pd | difficulty > pd ) {
peer . difficulty = Some ( difficulty ) ;
}
}
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let block_rlp = r . at ( 0 ) ? ;
let header_rlp = 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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let header : BlockHeader = header_rlp . as_val ( ) ? ;
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if header . number ( ) > self . highest_block . unwrap_or ( 0 ) {
self . highest_block = Some ( header . number ( ) ) ;
}
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let mut unknown = false ;
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{
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if let Some ( ref mut peer ) = self . peers . get_mut ( & peer_id ) {
peer . latest_hash = header . hash ( ) ;
}
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}
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let last_imported_number = self . new_blocks . last_imported_block_number ( ) ;
if last_imported_number > header . number ( ) & & last_imported_number - header . number ( ) > MAX_NEW_BLOCK_AGE {
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trace! ( target : " sync " , " Ignored ancient new block {:?} " , h ) ;
io . disable_peer ( peer_id ) ;
return Ok ( ( ) ) ;
}
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match io . chain ( ) . import_block ( block_rlp . as_raw ( ) . to_vec ( ) ) {
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Err ( BlockImportError ::Import ( ImportError ::AlreadyInChain ) ) = > {
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trace! ( target : " sync " , " New block already in chain {:?} " , h ) ;
} ,
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Err ( BlockImportError ::Import ( ImportError ::AlreadyQueued ) ) = > {
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trace! ( target : " sync " , " New block already queued {:?} " , h ) ;
} ,
Ok ( _ ) = > {
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// abort current download of the same block
self . complete_sync ( io ) ;
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self . new_blocks . mark_as_known ( & header . hash ( ) , header . number ( ) ) ;
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trace! ( target : " sync " , " New block queued {:?} ({}) " , h , header . number ( ) ) ;
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} ,
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Err ( BlockImportError ::Block ( BlockError ::UnknownParent ( p ) ) ) = > {
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unknown = true ;
trace! ( target : " sync " , " New block with unknown parent ({:?}) {:?} " , p , h ) ;
} ,
Err ( e ) = > {
debug! ( target : " sync " , " Bad new block {:?} : {:?} " , h , e ) ;
io . disable_peer ( peer_id ) ;
}
} ;
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if unknown {
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if self . state ! = SyncState ::Idle {
trace! ( target : " sync " , " NewBlock ignored while seeking " ) ;
} else {
trace! ( target : " sync " , " New unknown block {:?} " , h ) ;
//TODO: handle too many unknown blocks
self . sync_peer ( io , peer_id , true ) ;
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}
}
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self . continue_sync ( io ) ;
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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 ( & peer_id ) . map_or ( false , | p | p . can_sync ( ) ) {
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trace! ( target : " sync " , " Ignoring new hashes from unconfirmed peer {} " , peer_id ) ;
return Ok ( ( ) ) ;
}
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let hashes : Vec < _ > = r . iter ( ) . take ( MAX_NEW_HASHES ) . map ( | item | ( item . val_at ::< H256 > ( 0 ) , item . val_at ::< BlockNumber > ( 1 ) ) ) . collect ( ) ;
if let Some ( ref mut peer ) = self . peers . get_mut ( & peer_id ) {
// Peer has new blocks with unknown difficulty
peer . difficulty = None ;
if let Some ( & ( Ok ( ref h ) , _ ) ) = hashes . last ( ) {
peer . latest_hash = h . clone ( ) ;
}
}
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if self . state ! = SyncState ::Idle {
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trace! ( target : " sync " , " Ignoring new hashes since we're already downloading. " ) ;
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let max = r . iter ( ) . take ( MAX_NEW_HASHES ) . map ( | item | item . val_at ::< BlockNumber > ( 1 ) . unwrap_or ( 0 ) ) . fold ( 0 u64 , max ) ;
if max > self . highest_block . unwrap_or ( 0 ) {
self . highest_block = Some ( max ) ;
}
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self . continue_sync ( io ) ;
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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 mut max_height : BlockNumber = 0 ;
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let mut new_hashes = Vec ::new ( ) ;
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let last_imported_number = self . new_blocks . last_imported_block_number ( ) ;
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for ( rh , rn ) in hashes {
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let hash = rh ? ;
let number = rn ? ;
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if number > self . highest_block . unwrap_or ( 0 ) {
self . highest_block = Some ( number ) ;
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}
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if self . new_blocks . is_downloading ( & hash ) {
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continue ;
}
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if last_imported_number > number & & last_imported_number - number > MAX_NEW_BLOCK_AGE {
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trace! ( target : " sync " , " Ignored ancient new block hash {:?} " , hash ) ;
io . disable_peer ( peer_id ) ;
continue ;
}
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match io . chain ( ) . block_status ( BlockId ::Hash ( hash . clone ( ) ) ) {
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BlockStatus ::InChain = > {
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trace! ( target : " sync " , " New block hash already in chain {:?} " , hash ) ;
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} ,
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BlockStatus ::Queued = > {
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trace! ( target : " sync " , " New hash block already queued {:?} " , hash ) ;
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} ,
BlockStatus ::Unknown = > {
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new_hashes . push ( hash . clone ( ) ) ;
if number > max_height {
trace! ( target : " sync " , " New unknown block hash {:?} " , hash ) ;
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if let Some ( ref mut peer ) = self . peers . get_mut ( & peer_id ) {
peer . latest_hash = hash . clone ( ) ;
}
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max_height = number ;
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}
} ,
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BlockStatus ::Bad = > {
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debug! ( target : " sync " , " Bad new block hash {:?} " , hash ) ;
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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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trace! ( target : " sync " , " Downloading blocks for new hashes " ) ;
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self . new_blocks . reset_to ( new_hashes ) ;
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self . state = SyncState ::NewBlocks ;
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self . sync_peer ( io , peer_id , true ) ;
}
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self . continue_sync ( io ) ;
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Ok ( ( ) )
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}
2016-09-06 15:31:13 +02:00
/// Called when snapshot manifest is downloaded from a peer.
fn on_snapshot_manifest ( & mut self , io : & mut SyncIo , peer_id : PeerId , r : & UntrustedRlp ) -> Result < ( ) , PacketDecodeError > {
if ! self . peers . get ( & peer_id ) . map_or ( false , | p | p . can_sync ( ) ) {
trace! ( target : " sync " , " Ignoring snapshot manifest from unconfirmed peer {} " , peer_id ) ;
return Ok ( ( ) ) ;
}
self . clear_peer_download ( peer_id ) ;
if ! self . reset_peer_asking ( peer_id , PeerAsking ::SnapshotManifest ) | | self . state ! = SyncState ::SnapshotManifest {
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trace! ( target : " sync " , " {}: Ignored unexpected/expired manifest " , peer_id ) ;
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self . continue_sync ( io ) ;
return Ok ( ( ) ) ;
}
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let manifest_rlp = r . at ( 0 ) ? ;
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let manifest = match ManifestData ::from_rlp ( manifest_rlp . as_raw ( ) ) {
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Err ( e ) = > {
trace! ( target : " sync " , " {}: Ignored bad manifest: {:?} " , peer_id , e ) ;
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io . disable_peer ( peer_id ) ;
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self . continue_sync ( io ) ;
return Ok ( ( ) ) ;
}
Ok ( manifest ) = > manifest ,
} ;
2017-03-24 14:02:04 +01:00
if manifest . version < MIN_SUPPORTED_SNAPSHOT_MANIFEST_VERSION {
trace! ( target : " sync " , " {}: Snapshot manifest version too low: {} " , peer_id , manifest . version ) ;
io . disable_peer ( peer_id ) ;
self . continue_sync ( io ) ;
return Ok ( ( ) ) ;
}
2016-09-06 15:31:13 +02:00
self . snapshot . reset_to ( & manifest , & manifest_rlp . as_raw ( ) . sha3 ( ) ) ;
io . snapshot_service ( ) . begin_restore ( manifest ) ;
self . state = SyncState ::SnapshotData ;
// give a task to the same peer first.
self . sync_peer ( io , peer_id , false ) ;
// give tasks to other peers
self . continue_sync ( io ) ;
Ok ( ( ) )
}
/// Called when snapshot data is downloaded from a peer.
fn on_snapshot_data ( & mut self , io : & mut SyncIo , peer_id : PeerId , r : & UntrustedRlp ) -> Result < ( ) , PacketDecodeError > {
if ! self . peers . get ( & peer_id ) . map_or ( false , | p | p . can_sync ( ) ) {
trace! ( target : " sync " , " Ignoring snapshot data from unconfirmed peer {} " , peer_id ) ;
return Ok ( ( ) ) ;
}
self . clear_peer_download ( peer_id ) ;
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if ! self . reset_peer_asking ( peer_id , PeerAsking ::SnapshotData ) | | ( self . state ! = SyncState ::SnapshotData & & self . state ! = SyncState ::SnapshotWaiting ) {
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trace! ( target : " sync " , " {}: Ignored unexpected snapshot data " , peer_id ) ;
self . continue_sync ( io ) ;
return Ok ( ( ) ) ;
}
// check service status
match io . snapshot_service ( ) . status ( ) {
RestorationStatus ::Inactive | RestorationStatus ::Failed = > {
trace! ( target : " sync " , " {}: Snapshot restoration aborted " , peer_id ) ;
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self . state = SyncState ::WaitingPeers ;
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self . snapshot . clear ( ) ;
self . continue_sync ( io ) ;
return Ok ( ( ) ) ;
} ,
RestorationStatus ::Ongoing { .. } = > {
trace! ( target : " sync " , " {}: Snapshot restoration is ongoing " , peer_id ) ;
} ,
}
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let snapshot_data : Bytes = r . val_at ( 0 ) ? ;
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match self . snapshot . validate_chunk ( & snapshot_data ) {
Ok ( ChunkType ::Block ( hash ) ) = > {
trace! ( target : " sync " , " {}: Processing block chunk " , peer_id ) ;
io . snapshot_service ( ) . restore_block_chunk ( hash , snapshot_data ) ;
}
Ok ( ChunkType ::State ( hash ) ) = > {
trace! ( target : " sync " , " {}: Processing state chunk " , peer_id ) ;
io . snapshot_service ( ) . restore_state_chunk ( hash , snapshot_data ) ;
}
Err ( ( ) ) = > {
trace! ( target : " sync " , " {}: Got bad snapshot chunk " , peer_id ) ;
io . disconnect_peer ( peer_id ) ;
self . continue_sync ( io ) ;
return Ok ( ( ) ) ;
}
}
if self . snapshot . is_complete ( ) {
// wait for snapshot restoration process to complete
self . state = SyncState ::SnapshotWaiting ;
}
// give a task to the same peer first.
self . sync_peer ( io , peer_id , false ) ;
// give tasks to other peers
self . continue_sync ( io ) ;
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 ) {
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trace! ( target : " sync " , " == Disconnecting {}: {} " , peer , io . peer_info ( peer ) ) ;
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self . handshaking_peers . remove ( & 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 . active_peers . remove ( & peer ) ;
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self . continue_sync ( io ) ;
}
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}
2016-01-09 18:40:13 +01:00
/// 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 , io . peer_info ( peer ) ) ;
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if let Err ( e ) = self . send_status ( io , peer ) {
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debug! ( target :" sync " , " Error sending status request: {:?} " , e ) ;
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io . disable_peer ( peer ) ;
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} else {
self . handshaking_peers . insert ( peer , time ::precise_time_ns ( ) ) ;
2016-02-26 11:37:06 +01:00
}
2015-12-22 22:19:50 +01:00
}
2015-12-27 02:27:15 +01:00
/// Resume downloading
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fn continue_sync ( & mut self , io : & mut SyncIo ) {
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let mut peers : Vec < ( PeerId , U256 , u8 ) > = self . peers . iter ( ) . filter_map ( | ( k , p ) |
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if p . can_sync ( ) { Some ( ( * k , p . difficulty . unwrap_or_else ( U256 ::zero ) , p . protocol_version ) ) } else { None } ) . collect ( ) ;
2017-01-06 10:38:49 +01:00
random ::new ( ) . shuffle ( & mut peers ) ; //TODO: sort by rating
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// prefer peers with higher protocol version
peers . sort_by ( | & ( _ , _ , ref v1 ) , & ( _ , _ , ref v2 ) | v1 . cmp ( v2 ) ) ;
2016-12-23 18:43:40 +01:00
trace! ( target : " sync " , " Syncing with peers: {} active, {} confirmed, {} total " , self . active_peers . len ( ) , peers . len ( ) , self . peers . len ( ) ) ;
2016-09-06 15:31:13 +02:00
for ( p , _ , _ ) in peers {
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if self . active_peers . contains ( & p ) {
self . sync_peer ( io , p , false ) ;
}
}
2016-10-31 14:59:41 +01:00
if ( self . state ! = SyncState ::WaitingPeers & & self . state ! = SyncState ::SnapshotWaiting & & self . state ! = SyncState ::Waiting & & self . state ! = SyncState ::Idle )
& & ! self . peers . values ( ) . any ( | p | p . asking ! = PeerAsking ::Nothing & & p . block_set ! = Some ( BlockSet ::OldBlocks ) & & p . can_sync ( ) ) {
self . complete_sync ( io ) ;
}
2015-12-22 22:19:50 +01:00
}
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/// Called after all blocks have been downloaded
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fn complete_sync ( & mut self , io : & mut SyncIo ) {
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trace! ( target : " sync " , " Sync complete " ) ;
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self . reset ( io ) ;
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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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/// Find something to do for a peer. Called for a new peer or when a peer is done with its task.
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fn sync_peer ( & mut self , io : & mut SyncIo , peer_id : PeerId , force : bool ) {
if ! self . active_peers . contains ( & peer_id ) {
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trace! ( target : " sync " , " Skipping deactivated peer {} " , peer_id ) ;
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return ;
}
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let ( peer_latest , peer_difficulty , peer_snapshot_number , peer_snapshot_hash ) = {
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if let Some ( peer ) = self . peers . get_mut ( & peer_id ) {
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if peer . asking ! = PeerAsking ::Nothing | | ! peer . can_sync ( ) {
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trace! ( target : " sync " , " Skipping busy peer {} " , peer_id ) ;
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return ;
}
if self . state = = SyncState ::Waiting {
trace! ( target : " sync " , " Waiting for the block queue " ) ;
return ;
}
if self . state = = SyncState ::SnapshotWaiting {
trace! ( target : " sync " , " Waiting for the snapshot restoration " ) ;
return ;
}
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( peer . latest_hash . clone ( ) , peer . difficulty . clone ( ) , peer . snapshot_number . as_ref ( ) . cloned ( ) . unwrap_or ( 0 ) , peer . snapshot_hash . as_ref ( ) . cloned ( ) )
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} else {
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return ;
}
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} ;
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let chain_info = io . chain ( ) . chain_info ( ) ;
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let syncing_difficulty = chain_info . pending_total_difficulty ;
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let num_active_peers = self . peers . values ( ) . filter ( | p | p . asking ! = PeerAsking ::Nothing ) . count ( ) ;
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let higher_difficulty = peer_difficulty . map_or ( true , | pd | pd > syncing_difficulty ) ;
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if force | | higher_difficulty | | self . old_blocks . is_some ( ) {
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match self . state {
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SyncState ::WaitingPeers = > {
trace! ( target : " sync " , " Checking snapshot sync: {} vs {} " , peer_snapshot_number , chain_info . best_block_number ) ;
self . maybe_start_snapshot_sync ( io ) ;
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} ,
SyncState ::Idle | SyncState ::Blocks | SyncState ::NewBlocks = > {
if io . chain ( ) . queue_info ( ) . is_full ( ) {
self . pause_sync ( ) ;
return ;
}
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let have_latest = io . chain ( ) . block_status ( BlockId ::Hash ( peer_latest ) ) ! = BlockStatus ::Unknown ;
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trace! ( target : " sync " , " Considering peer {}, force={}, td={:?}, our td={}, latest={}, have_latest={}, state={:?} " , peer_id , force , peer_difficulty , syncing_difficulty , peer_latest , have_latest , self . state ) ;
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if ! have_latest & & ( higher_difficulty | | force | | self . state = = SyncState ::NewBlocks ) {
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// check if got new blocks to download
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trace! ( target : " sync " , " Syncing with peer {}, force={}, td={:?}, our td={}, state={:?} " , peer_id , force , peer_difficulty , syncing_difficulty , self . state ) ;
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if let Some ( request ) = self . new_blocks . request_blocks ( io , num_active_peers ) {
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self . request_blocks ( io , peer_id , request , BlockSet ::NewBlocks ) ;
if self . state = = SyncState ::Idle {
self . state = SyncState ::Blocks ;
}
return ;
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}
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}
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if let Some ( request ) = self . old_blocks . as_mut ( ) . and_then ( | d | d . request_blocks ( io , num_active_peers ) ) {
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self . request_blocks ( io , peer_id , request , BlockSet ::OldBlocks ) ;
return ;
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}
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} ,
SyncState ::SnapshotData = > {
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if let RestorationStatus ::Ongoing { state_chunks_done , block_chunks_done , .. } = io . snapshot_service ( ) . status ( ) {
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if self . snapshot . done_chunks ( ) - ( state_chunks_done + block_chunks_done ) as usize > MAX_SNAPSHOT_CHUNKS_DOWNLOAD_AHEAD {
trace! ( target : " sync " , " Snapshot queue full, pausing sync " ) ;
self . state = SyncState ::SnapshotWaiting ;
return ;
}
}
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if peer_snapshot_hash . is_some ( ) & & peer_snapshot_hash = = self . snapshot . snapshot_hash ( ) {
self . request_snapshot_data ( io , peer_id ) ;
}
} ,
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SyncState ::SnapshotManifest | //already downloading from other peer
SyncState ::Waiting | SyncState ::SnapshotWaiting = > ( )
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}
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} else {
trace! ( target : " sync " , " Skipping peer {}, force={}, td={:?}, our td={}, state={:?} " , peer_id , force , peer_difficulty , syncing_difficulty , self . state ) ;
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}
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}
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/// Perofrm block download request`
fn request_blocks ( & mut self , io : & mut SyncIo , peer_id : PeerId , request : BlockRequest , block_set : BlockSet ) {
match request {
BlockRequest ::Headers { start , count , skip } = > {
self . request_headers_by_hash ( io , peer_id , & start , count , skip , false , block_set ) ;
} ,
BlockRequest ::Bodies { hashes } = > {
self . request_bodies ( io , peer_id , hashes , block_set ) ;
} ,
BlockRequest ::Receipts { hashes } = > {
self . request_receipts ( io , peer_id , hashes , block_set ) ;
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} ,
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}
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}
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/// Find some headers or blocks to download for a peer.
fn request_snapshot_data ( & mut self , io : & mut SyncIo , peer_id : PeerId ) {
self . clear_peer_download ( peer_id ) ;
// find chunk data to download
if let Some ( hash ) = self . snapshot . needed_chunk ( ) {
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if let Some ( ref mut peer ) = self . peers . get_mut ( & peer_id ) {
peer . asking_snapshot_data = Some ( hash . clone ( ) ) ;
}
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self . request_snapshot_chunk ( io , peer_id , & hash ) ;
}
}
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/// 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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if let Some ( ref mut peer ) = self . peers . get_mut ( & peer_id ) {
match peer . asking {
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PeerAsking ::BlockHeaders = > {
if let Some ( ref hash ) = peer . asking_hash {
self . new_blocks . clear_header_download ( hash ) ;
if let Some ( ref mut old ) = self . old_blocks {
old . clear_header_download ( hash ) ;
}
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}
} ,
PeerAsking ::BlockBodies = > {
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self . new_blocks . clear_body_download ( & peer . asking_blocks ) ;
if let Some ( ref mut old ) = self . old_blocks {
old . clear_body_download ( & peer . asking_blocks ) ;
}
} ,
PeerAsking ::BlockReceipts = > {
self . new_blocks . clear_receipt_download ( & peer . asking_blocks ) ;
if let Some ( ref mut old ) = self . old_blocks {
old . clear_receipt_download ( & peer . asking_blocks ) ;
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}
} ,
PeerAsking ::SnapshotData = > {
if let Some ( hash ) = peer . asking_snapshot_data {
self . snapshot . clear_chunk_download ( & hash ) ;
}
} ,
_ = > ( ) ,
}
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}
}
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/// Checks if there are blocks fully downloaded that can be imported into the blockchain and does the import.
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#[ cfg_attr(feature= " dev " , allow(block_in_if_condition_stmt)) ]
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fn collect_blocks ( & mut self , io : & mut SyncIo , block_set : BlockSet ) {
match block_set {
BlockSet ::NewBlocks = > {
if self . new_blocks . collect_blocks ( io , self . state = = SyncState ::NewBlocks ) = = Err ( DownloaderImportError ::Invalid ) {
self . restart ( io ) ;
}
} ,
BlockSet ::OldBlocks = > {
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if self . old_blocks . as_mut ( ) . map_or ( false , | downloader | { downloader . collect_blocks ( io , false ) = = Err ( DownloaderImportError ::Invalid ) } ) {
self . restart ( io ) ;
} else if self . old_blocks . as_ref ( ) . map_or ( false , | downloader | { downloader . is_complete ( ) } ) {
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trace! ( target : " sync " , " Background block download is complete " ) ;
self . old_blocks = None ;
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}
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}
}
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}
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/// Request headers from a peer by block hash
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#[ cfg_attr(feature= " dev " , allow(too_many_arguments)) ]
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fn request_headers_by_hash ( & mut self , sync : & mut SyncIo , peer_id : PeerId , h : & H256 , count : u64 , skip : u64 , reverse : bool , set : BlockSet ) {
trace! ( target : " sync " , " {} <- GetBlockHeaders: {} entries starting from {}, set = {:?} " , peer_id , count , h , set ) ;
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let mut rlp = RlpStream ::new_list ( 4 ) ;
rlp . append ( h ) ;
rlp . append ( & count ) ;
rlp . append ( & skip ) ;
rlp . append ( & if reverse { 1 u32 } else { 0 u32 } ) ;
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self . send_request ( sync , peer_id , PeerAsking ::BlockHeaders , GET_BLOCK_HEADERS_PACKET , rlp . out ( ) ) ;
let peer = self . peers . get_mut ( & peer_id ) . expect ( " peer_id may originate either from on_packet, where it is already validated or from enumerating self.peers. qed " ) ;
peer . asking_hash = Some ( h . clone ( ) ) ;
peer . block_set = Some ( set ) ;
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}
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/// Request headers from a peer by block number
#[ cfg_attr(feature= " dev " , allow(too_many_arguments)) ]
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fn request_fork_header_by_number ( & mut self , sync : & mut SyncIo , peer_id : PeerId , n : BlockNumber ) {
trace! ( target : " sync " , " {} <- GetForkHeader: at {} " , peer_id , n ) ;
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let mut rlp = RlpStream ::new_list ( 4 ) ;
rlp . append ( & n ) ;
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rlp . append ( & 1 u32 ) ;
rlp . append ( & 0 u32 ) ;
rlp . append ( & 0 u32 ) ;
self . send_request ( sync , peer_id , PeerAsking ::ForkHeader , GET_BLOCK_HEADERS_PACKET , rlp . out ( ) ) ;
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}
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/// Request snapshot manifest from a peer.
fn request_snapshot_manifest ( & mut self , sync : & mut SyncIo , peer_id : PeerId ) {
trace! ( target : " sync " , " {} <- GetSnapshotManifest " , peer_id ) ;
let rlp = RlpStream ::new_list ( 0 ) ;
self . send_request ( sync , peer_id , PeerAsking ::SnapshotManifest , GET_SNAPSHOT_MANIFEST_PACKET , rlp . out ( ) ) ;
}
/// Request snapshot chunk from a peer.
fn request_snapshot_chunk ( & mut self , sync : & mut SyncIo , peer_id : PeerId , chunk : & H256 ) {
trace! ( target : " sync " , " {} <- GetSnapshotData {:?} " , peer_id , chunk ) ;
let mut rlp = RlpStream ::new_list ( 1 ) ;
rlp . append ( chunk ) ;
self . send_request ( sync , peer_id , PeerAsking ::SnapshotData , GET_SNAPSHOT_DATA_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 > , set : BlockSet ) {
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let mut rlp = RlpStream ::new_list ( hashes . len ( ) ) ;
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trace! ( target : " sync " , " {} <- GetBlockBodies: {} entries starting from {:?}, set = {:?} " , peer_id , hashes . len ( ) , hashes . first ( ) , set ) ;
for h in & hashes {
rlp . append ( & h . clone ( ) ) ;
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}
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self . send_request ( sync , peer_id , PeerAsking ::BlockBodies , GET_BLOCK_BODIES_PACKET , rlp . out ( ) ) ;
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let peer = self . peers . get_mut ( & peer_id ) . expect ( " peer_id may originate either from on_packet, where it is already validated or from enumerating self.peers. qed " ) ;
peer . asking_blocks = hashes ;
peer . block_set = Some ( set ) ;
}
/// Request block receipts from a peer
fn request_receipts ( & mut self , sync : & mut SyncIo , peer_id : PeerId , hashes : Vec < H256 > , set : BlockSet ) {
let mut rlp = RlpStream ::new_list ( hashes . len ( ) ) ;
trace! ( target : " sync " , " {} <- GetBlockReceipts: {} entries starting from {:?}, set = {:?} " , peer_id , hashes . len ( ) , hashes . first ( ) , set ) ;
for h in & hashes {
rlp . append ( & h . clone ( ) ) ;
}
self . send_request ( sync , peer_id , PeerAsking ::BlockReceipts , GET_RECEIPTS_PACKET , rlp . out ( ) ) ;
let peer = self . peers . get_mut ( & peer_id ) . expect ( " peer_id may originate either from on_packet, where it is already validated or from enumerating self.peers. qed " ) ;
peer . asking_blocks = hashes ;
peer . block_set = Some ( set ) ;
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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 ) -> bool {
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if let Some ( ref mut peer ) = self . peers . get_mut ( & peer_id ) {
peer . expired = false ;
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peer . block_set = None ;
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if peer . asking ! = asking {
trace! ( target :" sync " , " Asking {:?} while expected {:?} " , peer . asking , asking ) ;
peer . asking = PeerAsking ::Nothing ;
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return false ;
} else {
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peer . asking = PeerAsking ::Nothing ;
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return true ;
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}
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}
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false
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}
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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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if let Some ( ref mut peer ) = self . peers . get_mut ( & peer_id ) {
if peer . asking ! = PeerAsking ::Nothing {
warn! ( target :" sync " , " Asking {:?} while requesting {:?} " , peer . asking , asking ) ;
}
peer . asking = asking ;
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peer . ask_time = time ::precise_time_ns ( ) ;
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let result = if packet_id > = ETH_PACKET_COUNT {
sync . send_protocol ( WARP_SYNC_PROTOCOL_ID , peer_id , packet_id , packet )
} else {
sync . send ( peer_id , packet_id , packet )
} ;
if let Err ( e ) = result {
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debug! ( target :" sync " , " Error sending request: {:?} " , e ) ;
sync . disable_peer ( peer_id ) ;
}
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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 ) {
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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
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fn on_peer_transactions ( & mut self , io : & mut SyncIo , peer_id : PeerId , r : & UntrustedRlp ) -> Result < ( ) , PacketDecodeError > {
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// Accept transactions only when fully synced
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if ! io . is_chain_queue_empty ( ) | | ( self . state ! = SyncState ::Idle & & self . state ! = SyncState ::NewBlocks ) {
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trace! ( target : " sync " , " {} Ignoring transactions while syncing " , peer_id ) ;
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return Ok ( ( ) ) ;
}
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if ! self . peers . get ( & peer_id ) . map_or ( false , | p | p . can_sync ( ) ) {
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trace! ( target : " sync " , " {} Ignoring transactions from unconfirmed/unknown peer " , peer_id ) ;
}
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let mut item_count = r . item_count ( ) ? ;
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trace! ( target : " sync " , " {:02} -> Transactions ({} entries) " , peer_id , item_count ) ;
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item_count = min ( item_count , MAX_TX_TO_IMPORT ) ;
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let mut transactions = Vec ::with_capacity ( item_count ) ;
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for i in 0 .. item_count {
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let rlp = r . at ( i ) ? ;
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if rlp . as_raw ( ) . len ( ) > MAX_TRANSACTION_SIZE {
debug! ( " Skipped oversized transaction of {} bytes " , rlp . as_raw ( ) . len ( ) ) ;
continue ;
}
let tx = rlp . as_raw ( ) . to_vec ( ) ;
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transactions . push ( tx ) ;
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}
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io . chain ( ) . queue_transactions ( transactions , peer_id ) ;
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Ok ( ( ) )
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}
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/// Send Status message
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fn send_status ( & mut self , io : & mut SyncIo , peer : PeerId ) -> Result < ( ) , NetworkError > {
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let warp_protocol_version = io . protocol_version ( & WARP_SYNC_PROTOCOL_ID , peer ) ;
let warp_protocol = warp_protocol_version ! = 0 ;
let protocol = if warp_protocol { warp_protocol_version } else { PROTOCOL_VERSION_63 } ;
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trace! ( target : " sync " , " Sending status to {}, protocol version {} " , peer , protocol ) ;
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let mut packet = RlpStream ::new_list ( if warp_protocol { 7 } else { 5 } ) ;
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let chain = io . chain ( ) . chain_info ( ) ;
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packet . append ( & ( protocol 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 ) ;
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if warp_protocol {
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let manifest = match self . old_blocks . is_some ( ) {
true = > None ,
false = > io . snapshot_service ( ) . manifest ( ) ,
} ;
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let block_number = manifest . as_ref ( ) . map_or ( 0 , | m | m . block_number ) ;
let manifest_hash = manifest . map_or ( H256 ::new ( ) , | m | m . into_rlp ( ) . sha3 ( ) ) ;
packet . append ( & manifest_hash ) ;
packet . append ( & block_number ) ;
}
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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 , peer_id : PeerId ) -> 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 = r . val_at ( 1 ) ? ;
let skip : usize = r . val_at ( 2 ) ? ;
let reverse : bool = r . val_at ( 3 ) ? ;
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let last = io . chain ( ) . chain_info ( ) . best_block_number ;
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let number = if r . at ( 0 ) ? . size ( ) = = 32 {
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// id is a hash
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let hash : H256 = r . val_at ( 0 ) ? ;
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trace! ( target : " sync " , " {} -> GetBlockHeaders (hash: {}, max: {}, skip: {}, reverse:{}) " , peer_id , hash , max_headers , skip , reverse ) ;
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match io . chain ( ) . block_header ( BlockId ::Hash ( hash ) ) {
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Some ( hdr ) = > {
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let number = hdr . number ( ) . into ( ) ;
debug_assert_eq! ( hdr . sha3 ( ) , hash ) ;
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if max_headers = = 1 | | io . chain ( ) . block_hash ( BlockId ::Number ( number ) ) ! = Some ( hash ) {
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// Non canonical header or single header requested
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// TODO: handle single-step reverse hashchains of non-canon hashes
trace! ( target :" sync " , " Returning single header: {:?} " , hash ) ;
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let mut rlp = RlpStream ::new_list ( 1 ) ;
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rlp . append_raw ( & hdr . into_inner ( ) , 1 ) ;
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return Ok ( Some ( ( BLOCK_HEADERS_PACKET , rlp ) ) ) ;
}
number
}
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None = > return Ok ( Some ( ( BLOCK_HEADERS_PACKET , RlpStream ::new_list ( 0 ) ) ) ) //no such header, return nothing
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}
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} else {
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trace! ( target : " sync " , " {} -> GetBlockHeaders (number: {}, max: {}, skip: {}, reverse:{}) " , peer_id , r . val_at ::< BlockNumber > ( 0 ) ? , max_headers , skip , reverse ) ;
r . val_at ( 0 ) ?
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} ;
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let mut number = if reverse {
min ( last , number )
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} else {
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max ( 0 , number )
} ;
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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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let overlay = io . chain_overlay ( ) . read ( ) ;
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while number < = last & & count < max_count {
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if let Some ( hdr ) = overlay . get ( & number ) {
trace! ( target : " sync " , " {}: Returning cached fork header " , peer_id ) ;
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data . extend_from_slice ( hdr ) ;
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count + = 1 ;
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} else if let Some ( hdr ) = io . chain ( ) . block_header ( BlockId ::Number ( number ) ) {
data . append ( & mut hdr . into_inner ( ) ) ;
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count + = 1 ;
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} else {
// No required block.
break ;
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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 " , peer_id , 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 , peer_id : PeerId ) -> RlpResponseResult {
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let mut count = r . item_count ( ) . unwrap_or ( 0 ) ;
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if count = = 0 {
debug! ( target : " sync " , " Empty GetBlockBodies request, ignoring. " ) ;
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return Ok ( None ) ;
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}
count = min ( count , MAX_BODIES_TO_SEND ) ;
let mut added = 0 usize ;
let mut data = Bytes ::new ( ) ;
for i in 0 .. count {
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if let Some ( body ) = io . chain ( ) . block_body ( BlockId ::Hash ( r . val_at ::< H256 > ( i ) ? ) ) {
data . append ( & mut body . into_inner ( ) ) ;
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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 " , peer_id , 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 , peer_id : PeerId ) -> RlpResponseResult {
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let mut count = r . item_count ( ) . unwrap_or ( 0 ) ;
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trace! ( target : " sync " , " {} -> GetNodeData: {} entries " , peer_id , count ) ;
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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 = 0 usize ;
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let mut data = Vec ::new ( ) ;
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for i in 0 .. count {
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if let Some ( node ) = io . chain ( ) . state_data ( & r . val_at ::< H256 > ( i ) ? ) {
data . push ( node ) ;
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added + = 1 ;
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}
}
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trace! ( target : " sync " , " {} -> GetNodeData: return {} entries " , peer_id , added ) ;
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let mut rlp = RlpStream ::new_list ( added ) ;
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for d in data {
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rlp . append ( & d ) ;
}
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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 , peer_id : PeerId ) -> RlpResponseResult {
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let mut count = rlp . item_count ( ) . unwrap_or ( 0 ) ;
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trace! ( target : " sync " , " {} -> GetReceipts: {} entries " , peer_id , 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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}
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count = min ( count , MAX_RECEIPTS_HEADERS_TO_SEND ) ;
let mut added_headers = 0 usize ;
let mut added_receipts = 0 usize ;
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let mut data = Bytes ::new ( ) ;
for i in 0 .. count {
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if let Some ( mut receipts_bytes ) = io . chain ( ) . block_receipts ( & rlp . val_at ::< H256 > ( i ) ? ) {
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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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}
}
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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 ) ) )
}
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/// Respond to GetSnapshotManifest request
fn return_snapshot_manifest ( io : & SyncIo , r : & UntrustedRlp , peer_id : PeerId ) -> RlpResponseResult {
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let count = r . item_count ( ) . unwrap_or ( 0 ) ;
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trace! ( target : " sync " , " {} -> GetSnapshotManifest " , peer_id ) ;
if count ! = 0 {
debug! ( target : " sync " , " Invalid GetSnapshotManifest request, ignoring. " ) ;
return Ok ( None ) ;
}
let rlp = match io . snapshot_service ( ) . manifest ( ) {
Some ( manifest ) = > {
trace! ( target : " sync " , " {} <- SnapshotManifest " , peer_id ) ;
let mut rlp = RlpStream ::new_list ( 1 ) ;
rlp . append_raw ( & manifest . into_rlp ( ) , 1 ) ;
rlp
} ,
None = > {
trace! ( target : " sync " , " {}: No manifest to return " , peer_id ) ;
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RlpStream ::new_list ( 0 )
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}
} ;
Ok ( Some ( ( SNAPSHOT_MANIFEST_PACKET , rlp ) ) )
}
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/// Respond to GetSnapshotData request
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fn return_snapshot_data ( io : & SyncIo , r : & UntrustedRlp , peer_id : PeerId ) -> RlpResponseResult {
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let hash : H256 = r . val_at ( 0 ) ? ;
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trace! ( target : " sync " , " {} -> GetSnapshotData {:?} " , peer_id , hash ) ;
let rlp = match io . snapshot_service ( ) . chunk ( hash ) {
Some ( data ) = > {
let mut rlp = RlpStream ::new_list ( 1 ) ;
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trace! ( target : " sync " , " {} <- SnapshotData " , peer_id ) ;
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rlp . append ( & data ) ;
rlp
} ,
None = > {
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RlpStream ::new_list ( 0 )
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}
} ;
Ok ( Some ( ( SNAPSHOT_DATA_PACKET , rlp ) ) )
}
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fn return_rlp < FRlp , FError > ( io : & mut SyncIo , rlp : & UntrustedRlp , peer : PeerId , rlp_func : FRlp , error_func : FError ) -> Result < ( ) , PacketDecodeError >
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where FRlp : Fn ( & SyncIo , & UntrustedRlp , PeerId ) -> RlpResponseResult ,
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FError : FnOnce ( NetworkError ) -> String
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{
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let response = rlp_func ( io , rlp , peer ) ;
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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 dispatch_packet ( sync : & RwLock < ChainSync > , io : & mut SyncIo , peer : PeerId , packet_id : u8 , data : & [ u8 ] ) {
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let rlp = UntrustedRlp ::new ( data ) ;
let result = match packet_id {
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GET_BLOCK_BODIES_PACKET = > ChainSync ::return_rlp ( io , & rlp , peer ,
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ChainSync ::return_block_bodies ,
| e | format! ( " Error sending block bodies: {:?} " , e ) ) ,
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GET_BLOCK_HEADERS_PACKET = > ChainSync ::return_rlp ( io , & rlp , peer ,
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ChainSync ::return_block_headers ,
| e | format! ( " Error sending block headers: {:?} " , e ) ) ,
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GET_RECEIPTS_PACKET = > ChainSync ::return_rlp ( io , & rlp , peer ,
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ChainSync ::return_receipts ,
| e | format! ( " Error sending receipts: {:?} " , e ) ) ,
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GET_NODE_DATA_PACKET = > ChainSync ::return_rlp ( io , & rlp , peer ,
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ChainSync ::return_node_data ,
| e | format! ( " Error sending nodes: {:?} " , e ) ) ,
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2016-09-06 15:31:13 +02:00
GET_SNAPSHOT_MANIFEST_PACKET = > ChainSync ::return_rlp ( io , & rlp , peer ,
ChainSync ::return_snapshot_manifest ,
| e | format! ( " Error sending snapshot manifest: {:?} " , e ) ) ,
GET_SNAPSHOT_DATA_PACKET = > ChainSync ::return_rlp ( io , & rlp , peer ,
ChainSync ::return_snapshot_data ,
| e | format! ( " Error sending snapshot data: {:?} " , e ) ) ,
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CONSENSUS_DATA_PACKET = > ChainSync ::on_consensus_packet ( io , peer , & rlp ) ,
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_ = > {
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sync . write ( ) . on_packet ( io , peer , packet_id , data ) ;
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Ok ( ( ) )
}
} ;
result . unwrap_or_else ( | e | {
debug! ( target :" sync " , " {} -> Malformed packet {} : {} " , peer , packet_id , e ) ;
} )
}
pub fn on_packet ( & mut self , io : & mut SyncIo , peer : PeerId , packet_id : u8 , data : & [ u8 ] ) {
if packet_id ! = STATUS_PACKET & & ! self . peers . contains_key ( & peer ) {
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debug! ( target :" sync " , " Unexpected packet {} from unregistered peer: {}:{} " , packet_id , peer , io . peer_info ( peer ) ) ;
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return ;
}
let rlp = UntrustedRlp ::new ( data ) ;
let result = match packet_id {
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 ) ,
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RECEIPTS_PACKET = > self . on_peer_block_receipts ( io , peer , & rlp ) ,
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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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SNAPSHOT_MANIFEST_PACKET = > self . on_snapshot_manifest ( io , peer , & rlp ) ,
SNAPSHOT_DATA_PACKET = > self . on_snapshot_data ( io , peer , & rlp ) ,
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_ = > {
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debug! ( target : " sync " , " {}: Unknown packet {} " , peer , packet_id ) ;
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Ok ( ( ) )
}
} ;
result . unwrap_or_else ( | e | {
debug! ( target :" sync " , " {} -> Malformed packet {} : {} " , peer , packet_id , e ) ;
} )
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}
2015-12-22 22:19:50 +01:00
2016-09-16 23:03:26 +02:00
#[ cfg_attr(feature= " dev " , allow(match_same_arms)) ]
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pub fn maintain_peers ( & mut self , io : & mut SyncIo ) {
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let tick = time ::precise_time_ns ( ) ;
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let mut aborting = Vec ::new ( ) ;
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for ( peer_id , peer ) in & self . peers {
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let elapsed = ( tick - peer . ask_time ) / 1_000_000_000 ;
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let timeout = match peer . asking {
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PeerAsking ::BlockHeaders = > elapsed > HEADERS_TIMEOUT_SEC ,
PeerAsking ::BlockBodies = > elapsed > BODIES_TIMEOUT_SEC ,
PeerAsking ::BlockReceipts = > elapsed > RECEIPTS_TIMEOUT_SEC ,
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PeerAsking ::Nothing = > false ,
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PeerAsking ::ForkHeader = > elapsed > FORK_HEADER_TIMEOUT_SEC ,
PeerAsking ::SnapshotManifest = > elapsed > SNAPSHOT_MANIFEST_TIMEOUT_SEC ,
PeerAsking ::SnapshotData = > elapsed > SNAPSHOT_DATA_TIMEOUT_SEC ,
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} ;
if timeout {
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trace! ( target :" sync " , " Timeout {} " , peer_id ) ;
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io . disconnect_peer ( * peer_id ) ;
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aborting . push ( * peer_id ) ;
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}
}
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for p in aborting {
self . on_peer_aborting ( io , p ) ;
}
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// Check for handshake timeouts
for ( peer , ask_time ) in & self . handshaking_peers {
let elapsed = ( tick - ask_time ) / 1_000_000_000 ;
if elapsed > STATUS_TIMEOUT_SEC {
trace! ( target :" sync " , " Status timeout {} " , peer ) ;
io . disconnect_peer ( * peer ) ;
}
}
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}
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fn check_resume ( & mut self , io : & mut SyncIo ) {
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if self . state = = SyncState ::Waiting & & ! 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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} else if self . state = = SyncState ::SnapshotWaiting {
match io . snapshot_service ( ) . status ( ) {
RestorationStatus ::Inactive = > {
trace! ( target :" sync " , " Snapshot restoration is complete " ) ;
self . restart ( io ) ;
self . continue_sync ( io ) ;
} ,
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RestorationStatus ::Ongoing { state_chunks_done , block_chunks_done , .. } = > {
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if ! self . snapshot . is_complete ( ) & & self . snapshot . done_chunks ( ) - ( state_chunks_done + block_chunks_done ) as usize < = MAX_SNAPSHOT_CHUNKS_DOWNLOAD_AHEAD {
trace! ( target :" sync " , " Resuming snapshot sync " ) ;
self . state = SyncState ::SnapshotData ;
self . continue_sync ( io ) ;
}
} ,
RestorationStatus ::Failed = > {
trace! ( target : " sync " , " Snapshot restoration aborted " ) ;
self . state = SyncState ::WaitingPeers ;
self . snapshot . clear ( ) ;
self . continue_sync ( io ) ;
} ,
}
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}
2015-12-22 22:19:50 +01:00
}
2016-02-05 18:34:08 +01:00
2016-02-07 22:52:56 +01:00
/// 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 ) = > {
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let uncles = chain . find_uncles ( from ) . unwrap_or_else ( Vec ::new ) ;
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match route . blocks . len ( ) {
0 = > None ,
_ = > {
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let mut blocks = route . blocks ;
blocks . extend ( uncles ) ;
let mut rlp_stream = RlpStream ::new_list ( blocks . len ( ) ) ;
for block_hash in blocks {
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let mut hash_rlp = RlpStream ::new_list ( 2 ) ;
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let number = chain . block_header ( BlockId ::Hash ( block_hash . clone ( ) ) )
. expect ( " chain.tree_route and chain.find_uncles only return hahses of blocks that are in the blockchain. qed. " ) . number ( ) ;
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hash_rlp . append ( & block_hash ) ;
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hash_rlp . append ( & number ) ;
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rlp_stream . append_raw ( hash_rlp . as_raw ( ) , 1 ) ;
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}
Some ( rlp_stream . out ( ) )
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}
}
} ,
None = > None
}
}
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/// creates rlp from block bytes and total difficulty
fn create_block_rlp ( bytes : & Bytes , total_difficulty : U256 ) -> Bytes {
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let mut rlp_stream = RlpStream ::new_list ( 2 ) ;
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rlp_stream . append_raw ( bytes , 1 ) ;
rlp_stream . append ( & total_difficulty ) ;
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rlp_stream . out ( )
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}
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/// creates latest block rlp for the given client
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fn create_latest_block_rlp ( chain : & BlockChainClient ) -> Bytes {
ChainSync ::create_block_rlp (
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& chain . block ( BlockId ::Hash ( chain . chain_info ( ) . best_block_hash ) )
. expect ( " Best block always exists " ) . into_inner ( ) ,
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chain . chain_info ( ) . total_difficulty
)
}
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/// creates given hash block rlp for the given client
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fn create_new_block_rlp ( chain : & BlockChainClient , hash : & H256 ) -> Bytes {
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ChainSync ::create_block_rlp (
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& chain . block ( BlockId ::Hash ( hash . clone ( ) ) ) . expect ( " Block has just been sealed; qed " ) . into_inner ( ) ,
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chain . block_total_difficulty ( BlockId ::Hash ( hash . clone ( ) ) ) . expect ( " Block has just been sealed; qed. " )
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)
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}
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/// returns peer ids that have different blocks than our chain
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fn get_lagging_peers ( & mut self , chain_info : & BlockChainInfo ) -> Vec < PeerId > {
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let latest_hash = chain_info . best_block_hash ;
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self
. peers
. iter_mut ( )
. filter_map ( | ( & id , ref mut peer_info ) | {
trace! ( target : " sync " , " Checking peer our best {} their best {} " , latest_hash , peer_info . latest_hash ) ;
if peer_info . latest_hash ! = latest_hash {
Some ( id )
} else {
None
}
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} )
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. collect ::< Vec < _ > > ( )
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}
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fn select_random_peers ( peers : & [ PeerId ] ) -> Vec < PeerId > {
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// take sqrt(x) peers
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let mut peers = peers . to_vec ( ) ;
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let mut count = ( peers . len ( ) as f64 ) . powf ( 0.5 ) . round ( ) as usize ;
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count = min ( count , MAX_PEERS_PROPAGATION ) ;
count = max ( count , MIN_PEERS_PROPAGATION ) ;
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random ::new ( ) . shuffle ( & mut peers ) ;
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peers . truncate ( count ) ;
peers
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}
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fn get_consensus_peers ( & self ) -> Vec < PeerId > {
self . peers . iter ( ) . filter_map ( | ( id , p ) | if p . protocol_version = = PROTOCOL_VERSION_2 { Some ( * id ) } else { None } ) . collect ( )
}
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/// propagates latest block to a set of peers
fn propagate_blocks ( & mut self , chain_info : & BlockChainInfo , io : & mut SyncIo , blocks : & [ H256 ] , peers : & [ PeerId ] ) -> usize {
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trace! ( target : " sync " , " Sending NewBlocks to {:?} " , peers ) ;
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let mut sent = 0 ;
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for peer_id in peers {
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if blocks . is_empty ( ) {
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let rlp = ChainSync ::create_latest_block_rlp ( io . chain ( ) ) ;
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self . send_packet ( io , * peer_id , NEW_BLOCK_PACKET , rlp ) ;
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} else {
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for h in blocks {
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let rlp = ChainSync ::create_new_block_rlp ( io . chain ( ) , h ) ;
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self . send_packet ( io , * peer_id , NEW_BLOCK_PACKET , rlp ) ;
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}
}
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if let Some ( ref mut peer ) = self . peers . get_mut ( peer_id ) {
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peer . latest_hash = chain_info . best_block_hash . clone ( ) ;
}
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sent + = 1 ;
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}
sent
}
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/// propagates new known hashes to all peers
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fn propagate_new_hashes ( & mut self , chain_info : & BlockChainInfo , io : & mut SyncIo , peers : & [ PeerId ] ) -> usize {
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trace! ( target : " sync " , " Sending NewHashes to {:?} " , peers ) ;
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let mut sent = 0 ;
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let last_parent = & io . chain ( ) . best_block_header ( ) . parent_hash ( ) ;
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for peer_id in peers {
sent + = match ChainSync ::create_new_hashes_rlp ( io . chain ( ) , & last_parent , & chain_info . best_block_hash ) {
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Some ( rlp ) = > {
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{
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if let Some ( ref mut peer ) = self . peers . get_mut ( peer_id ) {
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peer . latest_hash = chain_info . best_block_hash . clone ( ) ;
}
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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
}
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/// propagates new transactions to all peers
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pub fn propagate_new_transactions ( & mut self , io : & mut SyncIo ) -> usize {
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// Early out if nobody to send to.
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if self . peers . is_empty ( ) {
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return 0 ;
}
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let transactions = io . chain ( ) . ready_transactions ( ) ;
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if transactions . is_empty ( ) {
return 0 ;
}
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let ( transactions , service_transactions ) : ( Vec < _ > , Vec < _ > ) = transactions . into_iter ( )
. partition ( | tx | ! tx . transaction . gas_price . is_zero ( ) ) ;
// usual transactions could be propagated to all peers
let mut affected_peers = HashSet ::new ( ) ;
if ! transactions . is_empty ( ) {
let peers = self . select_peers_for_transactions ( | _ | true ) ;
affected_peers = self . propagate_transactions_to_peers ( io , peers , transactions ) ;
}
// most of times service_transactions will be empty
// => there's no need to merge packets
if ! service_transactions . is_empty ( ) {
let service_transactions_peers = self . select_peers_for_transactions ( | peer_id | accepts_service_transaction ( & io . peer_info ( * peer_id ) ) ) ;
let service_transactions_affected_peers = self . propagate_transactions_to_peers ( io , service_transactions_peers , service_transactions ) ;
affected_peers . extend ( & service_transactions_affected_peers ) ;
}
affected_peers . len ( )
}
fn select_peers_for_transactions < F > ( & self , filter : F ) -> Vec < PeerId >
where F : Fn ( & PeerId ) -> bool {
// 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 ;
let small = self . peers . len ( ) < MIN_PEERS_PROPAGATION ;
let mut random = random ::new ( ) ;
self . peers . keys ( )
. cloned ( )
. filter ( filter )
. filter ( | _ | small | | random . next_u32 ( ) < fraction )
. take ( MAX_PEERS_PROPAGATION )
. collect ( )
}
fn propagate_transactions_to_peers ( & mut self , io : & mut SyncIo , peers : Vec < PeerId > , transactions : Vec < PendingTransaction > ) -> HashSet < PeerId > {
let all_transactions_hashes = transactions . iter ( )
. map ( | tx | tx . transaction . hash ( ) )
. collect ::< HashSet < H256 > > ( ) ;
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let all_transactions_rlp = {
let mut packet = RlpStream ::new_list ( transactions . len ( ) ) ;
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for tx in & transactions { packet . append ( & tx . transaction ) ; }
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packet . out ( )
} ;
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// Clear old transactions from stats
self . transactions_stats . retain ( & all_transactions_hashes ) ;
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// sqrt(x)/x scaled to max u32
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let block_number = io . chain ( ) . chain_info ( ) . best_block_number ;
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let lucky_peers = {
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peers . into_iter ( )
. filter_map ( | peer_id | {
let stats = & mut self . transactions_stats ;
let peer_info = self . peers . get_mut ( & peer_id )
. expect ( " peer_id is form peers; peers is result of select_peers_for_transactions; select_peers_for_transactions selects peers from self.peers; qed " ) ;
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// Send all transactions
if peer_info . last_sent_transactions . is_empty ( ) {
// update stats
for hash in & all_transactions_hashes {
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let id = io . peer_session_info ( peer_id ) . and_then ( | info | info . id ) ;
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stats . propagated ( * hash , id , block_number ) ;
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}
peer_info . last_sent_transactions = all_transactions_hashes . clone ( ) ;
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return Some ( ( peer_id , all_transactions_hashes . len ( ) , all_transactions_rlp . clone ( ) ) ) ;
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}
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// Get hashes of all transactions to send to this peer
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let to_send = all_transactions_hashes . difference ( & peer_info . last_sent_transactions )
. take ( MAX_TRANSACTIONS_TO_PROPAGATE )
. cloned ( )
. collect ::< HashSet < _ > > ( ) ;
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if to_send . is_empty ( ) {
return None ;
}
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// Construct RLP
let mut packet = RlpStream ::new_list ( to_send . len ( ) ) ;
for tx in & transactions {
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if to_send . contains ( & tx . transaction . hash ( ) ) {
packet . append ( & tx . transaction ) ;
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// update stats
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let id = io . peer_session_info ( peer_id ) . and_then ( | info | info . id ) ;
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stats . propagated ( tx . transaction . hash ( ) , id , block_number ) ;
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}
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}
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peer_info . last_sent_transactions = all_transactions_hashes
. intersection ( & peer_info . last_sent_transactions )
. chain ( & to_send )
. cloned ( )
. collect ( ) ;
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Some ( ( peer_id , to_send . len ( ) , packet . out ( ) ) )
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} )
. collect ::< Vec < _ > > ( )
} ;
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// Send RLPs
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let mut peers = HashSet ::new ( ) ;
if lucky_peers . len ( ) > 0 {
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let mut max_sent = 0 ;
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let lucky_peers_len = lucky_peers . len ( ) ;
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for ( peer_id , sent , rlp ) in lucky_peers {
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peers . insert ( peer_id ) ;
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self . send_packet ( io , peer_id , TRANSACTIONS_PACKET , rlp ) ;
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trace! ( target : " sync " , " {:02} <- Transactions ({} entries) " , peer_id , sent ) ;
max_sent = max ( max_sent , sent ) ;
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}
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debug! ( target : " sync " , " Sent up to {} transactions to {} peers. " , max_sent , lucky_peers_len ) ;
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}
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peers
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}
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fn propagate_latest_blocks ( & mut self , io : & mut SyncIo , sealed : & [ H256 ] ) {
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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 {
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let mut peers = self . get_lagging_peers ( & chain_info ) ;
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if sealed . is_empty ( ) {
let hashes = self . propagate_new_hashes ( & chain_info , io , & peers ) ;
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peers = ChainSync ::select_random_peers ( & peers ) ;
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let blocks = self . propagate_blocks ( & chain_info , io , sealed , & peers ) ;
if blocks ! = 0 | | hashes ! = 0 {
trace! ( target : " sync " , " Sent latest {} blocks and {} hashes to peers. " , blocks , hashes ) ;
}
} else {
self . propagate_blocks ( & chain_info , io , sealed , & peers ) ;
self . propagate_new_hashes ( & chain_info , io , & peers ) ;
trace! ( target : " sync " , " Sent sealed block to all peers " ) ;
} ;
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}
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self . last_sent_block_number = chain_info . best_block_number ;
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}
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/// Distribute valid proposed blocks to subset of current peers.
fn propagate_proposed_blocks ( & mut self , io : & mut SyncIo , proposed : & [ Bytes ] ) {
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let peers = self . get_consensus_peers ( ) ;
trace! ( target : " sync " , " Sending proposed blocks to {:?} " , peers ) ;
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for block in proposed {
let rlp = ChainSync ::create_block_rlp (
block ,
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io . chain ( ) . chain_info ( ) . total_difficulty
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) ;
for peer_id in & peers {
self . send_packet ( io , * peer_id , NEW_BLOCK_PACKET , rlp . clone ( ) ) ;
}
}
}
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/// Maintain other peers. Send out any new blocks and transactions
pub fn maintain_sync ( & mut self , io : & mut SyncIo ) {
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self . maybe_start_snapshot_sync ( io ) ;
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self . check_resume ( io ) ;
}
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/// called when block is imported to chain - propagates the blocks and updates transactions sent to peers
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pub fn chain_new_blocks ( & mut self , io : & mut SyncIo , _imported : & [ H256 ] , invalid : & [ H256 ] , enacted : & [ H256 ] , _retracted : & [ H256 ] , sealed : & [ H256 ] , proposed : & [ Bytes ] ) {
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let queue_info = io . chain ( ) . queue_info ( ) ;
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let is_syncing = self . status ( ) . is_syncing ( queue_info ) ;
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if ! is_syncing | | ! sealed . is_empty ( ) | | ! proposed . is_empty ( ) {
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trace! ( target : " sync " , " Propagating blocks, state={:?} " , self . state ) ;
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self . propagate_latest_blocks ( io , sealed ) ;
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self . propagate_proposed_blocks ( io , proposed ) ;
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}
if ! invalid . is_empty ( ) {
trace! ( target : " sync " , " Bad blocks in the queue, restarting " ) ;
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self . restart ( io ) ;
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}
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if ! is_syncing & & ! enacted . is_empty ( ) & & ! self . peers . is_empty ( ) {
// Select random peer to re-broadcast transactions to.
let peer = random ::new ( ) . gen_range ( 0 , self . peers . len ( ) ) ;
trace! ( target : " sync " , " Re-broadcasting transactions to a random peer. " ) ;
self . peers . values_mut ( ) . nth ( peer ) . map ( | mut peer_info |
peer_info . last_sent_transactions . clear ( )
) ;
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}
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}
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/// Called when peer sends us new consensus packet
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fn on_consensus_packet ( io : & mut SyncIo , peer_id : PeerId , r : & UntrustedRlp ) -> Result < ( ) , PacketDecodeError > {
trace! ( target : " sync " , " Received consensus packet from {:?} " , peer_id ) ;
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io . chain ( ) . queue_consensus_message ( r . as_raw ( ) . to_vec ( ) ) ;
Ok ( ( ) )
}
/// Broadcast consensus message to peers.
pub fn propagate_consensus_packet ( & mut self , io : & mut SyncIo , packet : Bytes ) {
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let lucky_peers = ChainSync ::select_random_peers ( & self . get_consensus_peers ( ) ) ;
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trace! ( target : " sync " , " Sending consensus packet to {:?} " , lucky_peers ) ;
for peer_id in lucky_peers {
self . send_packet ( io , peer_id , CONSENSUS_DATA_PACKET , packet . clone ( ) ) ;
}
}
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}
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/// Checks if peer is able to process service transactions
fn accepts_service_transaction ( client_id : & str ) -> bool {
// Parity versions starting from this will accept service-transactions
const SERVICE_TRANSACTIONS_VERSION : ( u32 , u32 ) = ( 1 u32 , 6 u32 ) ;
// Parity client string prefix
const PARITY_CLIENT_ID_PREFIX : & 'static str = " Parity/v " ;
if ! client_id . starts_with ( PARITY_CLIENT_ID_PREFIX ) {
return false ;
}
let ver : Vec < u32 > = client_id [ PARITY_CLIENT_ID_PREFIX . len ( ) .. ] . split ( '.' )
. take ( 2 )
. filter_map ( | s | s . parse ( ) . ok ( ) )
. collect ( ) ;
ver . len ( ) = = 2 & & ( ver [ 0 ] > SERVICE_TRANSACTIONS_VERSION . 0 | | ( ver [ 0 ] = = SERVICE_TRANSACTIONS_VERSION . 0 & & ver [ 1 ] > = SERVICE_TRANSACTIONS_VERSION . 1 ) )
}
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#[ cfg(test) ]
mod tests {
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use std ::collections ::{ HashSet , VecDeque } ;
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use network ::PeerId ;
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use tests ::helpers ::* ;
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use tests ::snapshot ::TestSnapshotService ;
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use util ::{ Uint , U256 , Address , RwLock } ;
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use util ::sha3 ::Hashable ;
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use util ::hash ::H256 ;
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use util ::bytes ::Bytes ;
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use rlp ::{ Rlp , RlpStream , UntrustedRlp } ;
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use super ::* ;
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use ::SyncConfig ;
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use super ::{ PeerInfo , PeerAsking } ;
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use ethkey ;
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use ethcore ::header ::* ;
use ethcore ::client ::* ;
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use ethcore ::transaction ::UnverifiedTransaction ;
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use ethcore ::miner ::MinerService ;
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fn get_dummy_block ( order : u32 , parent_hash : H256 ) -> Bytes {
let mut header = Header ::new ( ) ;
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header . set_gas_limit ( 0. into ( ) ) ;
header . set_difficulty ( ( order * 100 ) . into ( ) ) ;
header . set_timestamp ( ( order * 10 ) as u64 ) ;
header . set_number ( order as u64 ) ;
header . set_parent_hash ( parent_hash ) ;
header . set_state_root ( H256 ::zero ( ) ) ;
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let mut rlp = RlpStream ::new_list ( 3 ) ;
rlp . append ( & header ) ;
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rlp . append_raw ( & ::rlp ::EMPTY_LIST_RLP , 1 ) ;
rlp . append_raw ( & ::rlp ::EMPTY_LIST_RLP , 1 ) ;
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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 ) ;
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let difficulty : U256 = ( 100 * order ) . into ( ) ;
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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 ( 0 u64 ) ;
let diff : U256 = U256 ::from ( 1 u64 ) ;
hash_d_rlp . append ( & hash ) ;
hash_d_rlp . append ( & diff ) ;
rlp . append_raw ( & hash_d_rlp . out ( ) , 1 ) ;
}
rlp . out ( )
}
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fn queue_info ( unverified : usize , verified : usize ) -> BlockQueueInfo {
BlockQueueInfo {
unverified_queue_size : unverified ,
verified_queue_size : verified ,
verifying_queue_size : 0 ,
max_queue_size : 1000 ,
max_mem_use : 1000 ,
mem_used : 500
}
}
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fn sync_status ( state : SyncState ) -> SyncStatus {
SyncStatus {
state : state ,
protocol_version : 0 ,
network_id : 0 ,
start_block_number : 0 ,
last_imported_block_number : None ,
highest_block_number : None ,
blocks_total : 0 ,
blocks_received : 0 ,
num_peers : 0 ,
num_active_peers : 0 ,
mem_used : 0 ,
num_snapshot_chunks : 0 ,
snapshot_chunks_done : 0 ,
last_imported_old_block_number : None ,
}
}
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#[ test ]
fn is_still_verifying ( ) {
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assert! ( ! sync_status ( SyncState ::Idle ) . is_syncing ( queue_info ( 2 , 1 ) ) ) ;
assert! ( sync_status ( SyncState ::Idle ) . is_syncing ( queue_info ( 2 , 2 ) ) ) ;
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}
#[ test ]
fn is_synced_state ( ) {
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assert! ( sync_status ( SyncState ::Blocks ) . is_syncing ( queue_info ( 0 , 0 ) ) ) ;
assert! ( ! sync_status ( SyncState ::Idle ) . is_syncing ( queue_info ( 0 , 0 ) ) ) ;
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}
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#[ test ]
fn return_receipts_empty ( ) {
let mut client = TestBlockChainClient ::new ( ) ;
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let ss = TestSnapshotService ::new ( ) ;
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let io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
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let result = ChainSync ::return_receipts ( & io , & UntrustedRlp ::new ( & [ 0xc0 ] ) , 0 ) ;
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assert! ( result . is_ok ( ) ) ;
}
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#[ test ]
fn return_receipts ( ) {
let mut client = TestBlockChainClient ::new ( ) ;
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let sync = dummy_sync_with_peer ( H256 ::new ( ) , & client ) ;
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let ss = TestSnapshotService ::new ( ) ;
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let mut io = TestIo ::new ( & mut client , & ss , & 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 ( ) ) , 0 ) ;
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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
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assert_eq! ( 603 , rlp_result . unwrap ( ) . 1. out ( ) . len ( ) ) ;
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io . sender = Some ( 2 usize ) ;
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ChainSync ::dispatch_packet ( & RwLock ::new ( sync ) , & mut io , 0 usize , super ::GET_RECEIPTS_PACKET , & receipts_request ) ;
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assert_eq! ( 1 , io . packets . len ( ) ) ;
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}
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#[ test ]
fn return_block_headers ( ) {
use ethcore ::views ::HeaderView ;
fn make_hash_req ( h : & H256 , count : usize , skip : usize , reverse : bool ) -> Bytes {
let mut rlp = RlpStream ::new_list ( 4 ) ;
rlp . append ( h ) ;
rlp . append ( & count ) ;
rlp . append ( & skip ) ;
rlp . append ( & if reverse { 1 u32 } else { 0 u32 } ) ;
rlp . out ( )
}
fn make_num_req ( n : usize , count : usize , skip : usize , reverse : bool ) -> Bytes {
let mut rlp = RlpStream ::new_list ( 4 ) ;
rlp . append ( & n ) ;
rlp . append ( & count ) ;
rlp . append ( & skip ) ;
rlp . append ( & if reverse { 1 u32 } else { 0 u32 } ) ;
rlp . out ( )
}
fn to_header_vec ( rlp : ::chain ::RlpResponseResult ) -> Vec < Bytes > {
Rlp ::new ( & rlp . unwrap ( ) . unwrap ( ) . 1. out ( ) ) . iter ( ) . map ( | r | r . as_raw ( ) . to_vec ( ) ) . collect ( )
}
let mut client = TestBlockChainClient ::new ( ) ;
client . add_blocks ( 100 , EachBlockWith ::Nothing ) ;
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let blocks : Vec < _ > = ( 0 .. 100 )
. map ( | i | ( & client as & BlockChainClient ) . block ( BlockId ::Number ( i as BlockNumber ) ) . map ( | b | b . into_inner ( ) ) . unwrap ( ) ) . collect ( ) ;
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let headers : Vec < _ > = blocks . iter ( ) . map ( | b | Rlp ::new ( b ) . at ( 0 ) . as_raw ( ) . to_vec ( ) ) . collect ( ) ;
let hashes : Vec < _ > = headers . iter ( ) . map ( | h | HeaderView ::new ( h ) . sha3 ( ) ) . collect ( ) ;
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let ss = TestSnapshotService ::new ( ) ;
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let io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
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let unknown : H256 = H256 ::new ( ) ;
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let result = ChainSync ::return_block_headers ( & io , & UntrustedRlp ::new ( & make_hash_req ( & unknown , 1 , 0 , false ) ) , 0 ) ;
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assert! ( to_header_vec ( result ) . is_empty ( ) ) ;
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let result = ChainSync ::return_block_headers ( & io , & UntrustedRlp ::new ( & make_hash_req ( & unknown , 1 , 0 , true ) ) , 0 ) ;
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assert! ( to_header_vec ( result ) . is_empty ( ) ) ;
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let result = ChainSync ::return_block_headers ( & io , & UntrustedRlp ::new ( & make_hash_req ( & hashes [ 2 ] , 1 , 0 , true ) ) , 0 ) ;
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assert_eq! ( to_header_vec ( result ) , vec! [ headers [ 2 ] . clone ( ) ] ) ;
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let result = ChainSync ::return_block_headers ( & io , & UntrustedRlp ::new ( & make_hash_req ( & hashes [ 2 ] , 1 , 0 , false ) ) , 0 ) ;
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assert_eq! ( to_header_vec ( result ) , vec! [ headers [ 2 ] . clone ( ) ] ) ;
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let result = ChainSync ::return_block_headers ( & io , & UntrustedRlp ::new ( & make_hash_req ( & hashes [ 50 ] , 3 , 5 , false ) ) , 0 ) ;
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assert_eq! ( to_header_vec ( result ) , vec! [ headers [ 50 ] . clone ( ) , headers [ 56 ] . clone ( ) , headers [ 62 ] . clone ( ) ] ) ;
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let result = ChainSync ::return_block_headers ( & io , & UntrustedRlp ::new ( & make_hash_req ( & hashes [ 50 ] , 3 , 5 , true ) ) , 0 ) ;
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assert_eq! ( to_header_vec ( result ) , vec! [ headers [ 50 ] . clone ( ) , headers [ 44 ] . clone ( ) , headers [ 38 ] . clone ( ) ] ) ;
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let result = ChainSync ::return_block_headers ( & io , & UntrustedRlp ::new ( & make_num_req ( 2 , 1 , 0 , true ) ) , 0 ) ;
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assert_eq! ( to_header_vec ( result ) , vec! [ headers [ 2 ] . clone ( ) ] ) ;
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let result = ChainSync ::return_block_headers ( & io , & UntrustedRlp ::new ( & make_num_req ( 2 , 1 , 0 , false ) ) , 0 ) ;
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assert_eq! ( to_header_vec ( result ) , vec! [ headers [ 2 ] . clone ( ) ] ) ;
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let result = ChainSync ::return_block_headers ( & io , & UntrustedRlp ::new ( & make_num_req ( 50 , 3 , 5 , false ) ) , 0 ) ;
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assert_eq! ( to_header_vec ( result ) , vec! [ headers [ 50 ] . clone ( ) , headers [ 56 ] . clone ( ) , headers [ 62 ] . clone ( ) ] ) ;
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let result = ChainSync ::return_block_headers ( & io , & UntrustedRlp ::new ( & make_num_req ( 50 , 3 , 5 , true ) ) , 0 ) ;
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assert_eq! ( to_header_vec ( result ) , vec! [ headers [ 50 ] . clone ( ) , headers [ 44 ] . clone ( ) , headers [ 38 ] . clone ( ) ] ) ;
}
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#[ test ]
fn return_nodes ( ) {
let mut client = TestBlockChainClient ::new ( ) ;
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let sync = dummy_sync_with_peer ( H256 ::new ( ) , & client ) ;
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let ss = TestSnapshotService ::new ( ) ;
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let mut io = TestIo ::new ( & mut client , & ss , & 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"
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let result = ChainSync ::return_node_data ( & io , & UntrustedRlp ::new ( & node_request . clone ( ) ) , 0 ) ;
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assert! ( result . is_ok ( ) ) ;
let rlp_result = result . unwrap ( ) ;
assert! ( rlp_result . is_some ( ) ) ;
// the length of one rlp-encoded hashe
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let rlp = rlp_result . unwrap ( ) . 1. out ( ) ;
let rlp = Rlp ::new ( & rlp ) ;
assert_eq! ( 1 , rlp . item_count ( ) ) ;
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io . sender = Some ( 2 usize ) ;
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ChainSync ::dispatch_packet ( & RwLock ::new ( sync ) , & mut io , 0 usize , super ::GET_NODE_DATA_PACKET , & node_request ) ;
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assert_eq! ( 1 , io . packets . len ( ) ) ;
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}
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fn dummy_sync_with_peer ( peer_latest_hash : H256 , client : & BlockChainClient ) -> ChainSync {
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let mut sync = ChainSync ::new ( SyncConfig ::default ( ) , client ) ;
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insert_dummy_peer ( & mut sync , 0 , peer_latest_hash ) ;
sync
}
fn insert_dummy_peer ( sync : & mut ChainSync , peer_id : PeerId , peer_latest_hash : H256 ) {
sync . peers . insert ( peer_id ,
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PeerInfo {
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protocol_version : 0 ,
genesis : H256 ::zero ( ) ,
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network_id : 0 ,
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latest_hash : peer_latest_hash ,
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difficulty : None ,
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asking : PeerAsking ::Nothing ,
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asking_blocks : Vec ::new ( ) ,
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asking_hash : None ,
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ask_time : 0 ,
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last_sent_transactions : HashSet ::new ( ) ,
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expired : false ,
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confirmation : super ::ForkConfirmation ::Confirmed ,
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snapshot_number : None ,
snapshot_hash : None ,
asking_snapshot_data : None ,
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block_set : None ,
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} ) ;
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}
#[ test ]
fn finds_lagging_peers ( ) {
let mut client = TestBlockChainClient ::new ( ) ;
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client . add_blocks ( 100 , EachBlockWith ::Uncle ) ;
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let mut sync = dummy_sync_with_peer ( client . block_hash_delta_minus ( 10 ) , & client ) ;
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let chain_info = client . chain_info ( ) ;
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let lagging_peers = sync . get_lagging_peers ( & chain_info ) ;
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assert_eq! ( 1 , lagging_peers . len ( ) ) ;
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}
#[ test ]
fn calculates_tree_for_lagging_peer ( ) {
let mut client = TestBlockChainClient ::new ( ) ;
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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 ( ) ;
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client . add_blocks ( 100 , EachBlockWith ::Uncle ) ;
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let mut sync = dummy_sync_with_peer ( client . block_hash_delta_minus ( 5 ) , & client ) ;
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let chain_info = client . chain_info ( ) ;
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let ss = TestSnapshotService ::new ( ) ;
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let mut io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
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let peers = sync . get_lagging_peers ( & chain_info ) ;
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let peer_count = sync . propagate_new_hashes ( & chain_info , & mut io , & peers ) ;
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// 1 message should be send
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assert_eq! ( 1 , io . packets . len ( ) ) ;
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// 1 peer should be updated
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assert_eq! ( 1 , peer_count ) ;
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// NEW_BLOCK_HASHES_PACKET
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assert_eq! ( 0x01 , io . packets [ 0 ] . packet_id ) ;
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}
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#[ test ]
fn sends_latest_block_to_lagging_peer ( ) {
let mut client = TestBlockChainClient ::new ( ) ;
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client . add_blocks ( 100 , EachBlockWith ::Uncle ) ;
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let mut sync = dummy_sync_with_peer ( client . block_hash_delta_minus ( 5 ) , & client ) ;
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let chain_info = client . chain_info ( ) ;
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let ss = TestSnapshotService ::new ( ) ;
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let mut io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
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let peers = sync . get_lagging_peers ( & chain_info ) ;
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let peer_count = sync . propagate_blocks ( & chain_info , & mut io , & [ ] , & peers ) ;
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// 1 message should be send
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assert_eq! ( 1 , io . packets . len ( ) ) ;
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// 1 peer should be updated
assert_eq! ( 1 , peer_count ) ;
// NEW_BLOCK_PACKET
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assert_eq! ( 0x07 , io . packets [ 0 ] . packet_id ) ;
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}
#[ test ]
fn sends_sealed_block ( ) {
let mut client = TestBlockChainClient ::new ( ) ;
client . add_blocks ( 100 , EachBlockWith ::Uncle ) ;
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let hash = client . block_hash ( BlockId ::Number ( 99 ) ) . unwrap ( ) ;
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let mut sync = dummy_sync_with_peer ( client . block_hash_delta_minus ( 5 ) , & client ) ;
let chain_info = client . chain_info ( ) ;
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let ss = TestSnapshotService ::new ( ) ;
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let mut io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
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let peers = sync . get_lagging_peers ( & chain_info ) ;
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let peer_count = sync . propagate_blocks ( & chain_info , & mut io , & [ hash . clone ( ) ] , & peers ) ;
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// 1 message should be send
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assert_eq! ( 1 , io . packets . len ( ) ) ;
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// 1 peer should be updated
assert_eq! ( 1 , peer_count ) ;
// NEW_BLOCK_PACKET
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assert_eq! ( 0x07 , io . packets [ 0 ] . packet_id ) ;
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}
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#[ test ]
fn sends_proposed_block ( ) {
let mut client = TestBlockChainClient ::new ( ) ;
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client . add_blocks ( 2 , EachBlockWith ::Uncle ) ;
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let block = client . block ( BlockId ::Latest ) . unwrap ( ) . into_inner ( ) ;
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let mut sync = ChainSync ::new ( SyncConfig ::default ( ) , & client ) ;
sync . peers . insert ( 0 ,
PeerInfo {
// Messaging protocol
protocol_version : 2 ,
genesis : H256 ::zero ( ) ,
network_id : 0 ,
latest_hash : client . block_hash_delta_minus ( 1 ) ,
difficulty : None ,
asking : PeerAsking ::Nothing ,
asking_blocks : Vec ::new ( ) ,
asking_hash : None ,
ask_time : 0 ,
last_sent_transactions : HashSet ::new ( ) ,
expired : false ,
confirmation : super ::ForkConfirmation ::Confirmed ,
snapshot_number : None ,
snapshot_hash : None ,
asking_snapshot_data : None ,
block_set : None ,
} ) ;
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let ss = TestSnapshotService ::new ( ) ;
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let mut io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
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sync . propagate_proposed_blocks ( & mut io , & [ block ] ) ;
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// 1 message should be sent
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assert_eq! ( 1 , io . packets . len ( ) ) ;
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// NEW_BLOCK_PACKET
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assert_eq! ( 0x07 , io . packets [ 0 ] . packet_id ) ;
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}
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#[ test ]
fn propagates_transactions ( ) {
let mut client = TestBlockChainClient ::new ( ) ;
client . add_blocks ( 100 , EachBlockWith ::Uncle ) ;
client . insert_transaction_to_queue ( ) ;
let mut sync = dummy_sync_with_peer ( client . block_hash_delta_minus ( 1 ) , & client ) ;
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let ss = TestSnapshotService ::new ( ) ;
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let mut io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
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let peer_count = sync . propagate_new_transactions ( & mut io ) ;
// Try to propagate same transactions for the second time
let peer_count2 = sync . propagate_new_transactions ( & mut io ) ;
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// Even after new block transactions should not be propagated twice
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sync . chain_new_blocks ( & mut io , & [ ] , & [ ] , & [ ] , & [ ] , & [ ] , & [ ] ) ;
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// Try to propagate same transactions for the third time
let peer_count3 = sync . propagate_new_transactions ( & mut io ) ;
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// 1 message should be send
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assert_eq! ( 1 , io . packets . len ( ) ) ;
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// 1 peer should be updated but only once
assert_eq! ( 1 , peer_count ) ;
assert_eq! ( 0 , peer_count2 ) ;
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assert_eq! ( 0 , peer_count3 ) ;
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// TRANSACTIONS_PACKET
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assert_eq! ( 0x02 , io . packets [ 0 ] . packet_id ) ;
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}
#[ test ]
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fn does_not_propagate_new_transactions_after_new_block ( ) {
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let mut client = TestBlockChainClient ::new ( ) ;
client . add_blocks ( 100 , EachBlockWith ::Uncle ) ;
client . insert_transaction_to_queue ( ) ;
let mut sync = dummy_sync_with_peer ( client . block_hash_delta_minus ( 1 ) , & client ) ;
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let ss = TestSnapshotService ::new ( ) ;
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let mut io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
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let peer_count = sync . propagate_new_transactions ( & mut io ) ;
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io . chain . insert_transaction_to_queue ( ) ;
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// New block import should not trigger propagation.
// (we only propagate on timeout)
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sync . chain_new_blocks ( & mut io , & [ ] , & [ ] , & [ ] , & [ ] , & [ ] , & [ ] ) ;
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// 2 message should be send
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assert_eq! ( 1 , io . packets . len ( ) ) ;
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// 1 peer should receive the message
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assert_eq! ( 1 , peer_count ) ;
// TRANSACTIONS_PACKET
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assert_eq! ( 0x02 , io . packets [ 0 ] . packet_id ) ;
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}
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#[ test ]
fn does_not_fail_for_no_peers ( ) {
let mut client = TestBlockChainClient ::new ( ) ;
client . add_blocks ( 100 , EachBlockWith ::Uncle ) ;
client . insert_transaction_to_queue ( ) ;
// Sync with no peers
let mut sync = ChainSync ::new ( SyncConfig ::default ( ) , & client ) ;
let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
let ss = TestSnapshotService ::new ( ) ;
let mut io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
let peer_count = sync . propagate_new_transactions ( & mut io ) ;
sync . chain_new_blocks ( & mut io , & [ ] , & [ ] , & [ ] , & [ ] , & [ ] , & [ ] ) ;
// Try to propagate same transactions for the second time
let peer_count2 = sync . propagate_new_transactions ( & mut io ) ;
assert_eq! ( 0 , io . packets . len ( ) ) ;
assert_eq! ( 0 , peer_count ) ;
assert_eq! ( 0 , peer_count2 ) ;
}
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#[ test ]
fn propagates_transactions_without_alternating ( ) {
let mut client = TestBlockChainClient ::new ( ) ;
client . add_blocks ( 100 , EachBlockWith ::Uncle ) ;
client . insert_transaction_to_queue ( ) ;
let mut sync = dummy_sync_with_peer ( client . block_hash_delta_minus ( 1 ) , & client ) ;
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let ss = TestSnapshotService ::new ( ) ;
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// should sent some
{
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let mut io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
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let peer_count = sync . propagate_new_transactions ( & mut io ) ;
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assert_eq! ( 1 , io . packets . len ( ) ) ;
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assert_eq! ( 1 , peer_count ) ;
}
// Insert some more
client . insert_transaction_to_queue ( ) ;
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let ( peer_count2 , peer_count3 ) = {
let mut io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
// Propagate new transactions
let peer_count2 = sync . propagate_new_transactions ( & mut io ) ;
// And now the peer should have all transactions
let peer_count3 = sync . propagate_new_transactions ( & mut io ) ;
( peer_count2 , peer_count3 )
} ;
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// 2 message should be send (in total)
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assert_eq! ( 2 , queue . read ( ) . len ( ) ) ;
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// 1 peer should be updated but only once after inserting new transaction
assert_eq! ( 1 , peer_count2 ) ;
assert_eq! ( 0 , peer_count3 ) ;
// TRANSACTIONS_PACKET
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assert_eq! ( 0x02 , queue . read ( ) [ 0 ] . packet_id ) ;
assert_eq! ( 0x02 , queue . read ( ) [ 1 ] . packet_id ) ;
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}
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#[ test ]
fn should_maintain_transations_propagation_stats ( ) {
let mut client = TestBlockChainClient ::new ( ) ;
client . add_blocks ( 100 , EachBlockWith ::Uncle ) ;
client . insert_transaction_to_queue ( ) ;
let mut sync = dummy_sync_with_peer ( client . block_hash_delta_minus ( 1 ) , & client ) ;
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let ss = TestSnapshotService ::new ( ) ;
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let mut io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
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sync . propagate_new_transactions ( & mut io ) ;
let stats = sync . transactions_stats ( ) ;
assert_eq! ( stats . len ( ) , 1 , " Should maintain stats for single transaction. " )
}
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#[ test ]
fn should_propagate_service_transaction_to_selected_peers_only ( ) {
let mut client = TestBlockChainClient ::new ( ) ;
client . insert_transaction_with_gas_price_to_queue ( U256 ::zero ( ) ) ;
let block_hash = client . block_hash_delta_minus ( 1 ) ;
let mut sync = ChainSync ::new ( SyncConfig ::default ( ) , & client ) ;
let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
let ss = TestSnapshotService ::new ( ) ;
let mut io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
// when peer#1 is Geth
insert_dummy_peer ( & mut sync , 1 , block_hash ) ;
io . peers_info . insert ( 1 , " Geth " . to_owned ( ) ) ;
// and peer#2 is Parity, accepting service transactions
insert_dummy_peer ( & mut sync , 2 , block_hash ) ;
io . peers_info . insert ( 2 , " Parity/v1.6 " . to_owned ( ) ) ;
// and peer#3 is Parity, discarding service transactions
insert_dummy_peer ( & mut sync , 3 , block_hash ) ;
io . peers_info . insert ( 3 , " Parity/v1.5 " . to_owned ( ) ) ;
// and peer#4 is Parity, accepting service transactions
insert_dummy_peer ( & mut sync , 4 , block_hash ) ;
io . peers_info . insert ( 4 , " Parity/v1.7.3-ABCDEFGH " . to_owned ( ) ) ;
// and new service transaction is propagated to peers
sync . propagate_new_transactions ( & mut io ) ;
// peer#2 && peer#4 are receiving service transaction
assert! ( io . packets . iter ( ) . any ( | p | p . packet_id = = 0x02 & & p . recipient = = 2 ) ) ; // TRANSACTIONS_PACKET
assert! ( io . packets . iter ( ) . any ( | p | p . packet_id = = 0x02 & & p . recipient = = 4 ) ) ; // TRANSACTIONS_PACKET
assert_eq! ( io . packets . len ( ) , 2 ) ;
}
#[ test ]
fn should_propagate_service_transaction_is_sent_as_separate_message ( ) {
let mut client = TestBlockChainClient ::new ( ) ;
let tx1_hash = client . insert_transaction_to_queue ( ) ;
let tx2_hash = client . insert_transaction_with_gas_price_to_queue ( U256 ::zero ( ) ) ;
let block_hash = client . block_hash_delta_minus ( 1 ) ;
let mut sync = ChainSync ::new ( SyncConfig ::default ( ) , & client ) ;
let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
let ss = TestSnapshotService ::new ( ) ;
let mut io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
// when peer#1 is Parity, accepting service transactions
insert_dummy_peer ( & mut sync , 1 , block_hash ) ;
io . peers_info . insert ( 1 , " Parity/v1.6 " . to_owned ( ) ) ;
// and service + non-service transactions are propagated to peers
sync . propagate_new_transactions ( & mut io ) ;
// two separate packets for peer are queued:
// 1) with non-service-transaction
// 2) with service transaction
let sent_transactions : Vec < UnverifiedTransaction > = io . packets . iter ( )
. filter_map ( | p | {
if p . packet_id ! = 0x02 | | p . recipient ! = 1 { // TRANSACTIONS_PACKET
return None ;
}
let rlp = UntrustedRlp ::new ( & * p . data ) ;
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let item_count = rlp . item_count ( ) . unwrap_or ( 0 ) ;
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if item_count ! = 1 {
return None ;
}
rlp . at ( 0 ) . ok ( ) . and_then ( | r | r . as_val ( ) . ok ( ) )
} )
. collect ( ) ;
assert_eq! ( sent_transactions . len ( ) , 2 ) ;
assert! ( sent_transactions . iter ( ) . any ( | tx | tx . hash ( ) = = tx1_hash ) ) ;
assert! ( sent_transactions . iter ( ) . any ( | tx | tx . hash ( ) = = tx2_hash ) ) ;
}
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#[ test ]
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fn handles_peer_new_block_malformed ( ) {
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let mut client = TestBlockChainClient ::new ( ) ;
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client . add_blocks ( 10 , EachBlockWith ::Uncle ) ;
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let block_data = get_dummy_block ( 11 , client . chain_info ( ) . best_block_hash ) ;
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let mut sync = dummy_sync_with_peer ( client . block_hash_delta_minus ( 5 ) , & client ) ;
//sync.have_common_block = true;
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let ss = TestSnapshotService ::new ( ) ;
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let mut io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
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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 ( ) ;
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client . add_blocks ( 10 , EachBlockWith ::Uncle ) ;
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let block_data = get_dummy_blocks ( 11 , client . chain_info ( ) . best_block_hash ) ;
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let mut sync = dummy_sync_with_peer ( client . block_hash_delta_minus ( 5 ) , & client ) ;
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let ss = TestSnapshotService ::new ( ) ;
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let mut io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
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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 ( ) ;
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client . add_blocks ( 10 , EachBlockWith ::Uncle ) ;
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let mut sync = dummy_sync_with_peer ( client . block_hash_delta_minus ( 5 ) , & client ) ;
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let ss = TestSnapshotService ::new ( ) ;
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let mut io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
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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 ( ) ;
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client . add_blocks ( 10 , EachBlockWith ::Uncle ) ;
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let mut sync = dummy_sync_with_peer ( client . block_hash_delta_minus ( 5 ) , & client ) ;
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let ss = TestSnapshotService ::new ( ) ;
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let mut io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
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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 ( ) ;
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client . add_blocks ( 10 , EachBlockWith ::Uncle ) ;
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let mut sync = dummy_sync_with_peer ( client . block_hash_delta_minus ( 5 ) , & client ) ;
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let ss = TestSnapshotService ::new ( ) ;
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let mut io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
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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 ( ) ;
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client . add_blocks ( 100 , EachBlockWith ::Uncle ) ;
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let mut sync = dummy_sync_with_peer ( client . block_hash_delta_minus ( 5 ) , & client ) ;
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let chain_info = client . chain_info ( ) ;
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let ss = TestSnapshotService ::new ( ) ;
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let mut io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
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let peers = sync . get_lagging_peers ( & chain_info ) ;
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sync . propagate_new_hashes ( & chain_info , & mut io , & peers ) ;
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let data = & io . packets [ 0 ] . data . clone ( ) ;
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let result = sync . on_peer_new_hashes ( & mut io , 0 , & UntrustedRlp ::new ( data ) ) ;
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assert! ( result . is_ok ( ) ) ;
}
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// 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 ( ) ;
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client . add_blocks ( 100 , EachBlockWith ::Uncle ) ;
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let mut sync = dummy_sync_with_peer ( client . block_hash_delta_minus ( 5 ) , & client ) ;
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let chain_info = client . chain_info ( ) ;
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let ss = TestSnapshotService ::new ( ) ;
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let mut io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
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let peers = sync . get_lagging_peers ( & chain_info ) ;
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sync . propagate_blocks ( & chain_info , & mut io , & [ ] , & peers ) ;
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let data = & io . packets [ 0 ] . data . clone ( ) ;
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let result = sync . on_peer_new_block ( & mut io , 0 , & UntrustedRlp ::new ( data ) ) ;
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assert! ( result . is_ok ( ) ) ;
}
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#[ test ]
fn should_add_transactions_to_queue ( ) {
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fn sender ( tx : & UnverifiedTransaction ) -> Address {
ethkey ::public_to_address ( & tx . recover_public ( ) . unwrap ( ) )
}
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// given
let mut client = TestBlockChainClient ::new ( ) ;
client . add_blocks ( 98 , EachBlockWith ::Uncle ) ;
client . add_blocks ( 1 , EachBlockWith ::UncleAndTransaction ) ;
client . add_blocks ( 1 , EachBlockWith ::Transaction ) ;
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let mut sync = dummy_sync_with_peer ( client . block_hash_delta_minus ( 5 ) , & client ) ;
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let good_blocks = vec! [ client . block_hash_delta_minus ( 2 ) ] ;
let retracted_blocks = vec! [ client . block_hash_delta_minus ( 1 ) ] ;
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// Add some balance to clients and reset nonces
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for h in & [ good_blocks [ 0 ] , retracted_blocks [ 0 ] ] {
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let block = client . block ( BlockId ::Hash ( * h ) ) . unwrap ( ) ;
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let sender = sender ( & block . transactions ( ) [ 0 ] ) ; ;
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client . set_balance ( sender , U256 ::from ( 10_000_000_000_000_000_000 u64 ) ) ;
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client . set_nonce ( sender , U256 ::from ( 0 ) ) ;
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}
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// when
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{
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let ss = TestSnapshotService ::new ( ) ;
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let mut io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
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io . chain . miner . chain_new_blocks ( io . chain , & [ ] , & [ ] , & [ ] , & good_blocks ) ;
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sync . chain_new_blocks ( & mut io , & [ ] , & [ ] , & [ ] , & good_blocks , & [ ] , & [ ] ) ;
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assert_eq! ( io . chain . miner . status ( ) . transactions_in_future_queue , 0 ) ;
assert_eq! ( io . chain . miner . status ( ) . transactions_in_pending_queue , 1 ) ;
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}
// We need to update nonce status (because we say that the block has been imported)
for h in & [ good_blocks [ 0 ] ] {
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let block = client . block ( BlockId ::Hash ( * h ) ) . unwrap ( ) ;
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client . set_nonce ( sender ( & block . transactions ( ) [ 0 ] ) , U256 ::from ( 1 ) ) ;
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}
{
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let ss = TestSnapshotService ::new ( ) ;
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let mut io = TestIo ::new ( & client , & ss , & queue , None ) ;
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io . chain . miner . chain_new_blocks ( io . chain , & [ ] , & [ ] , & good_blocks , & retracted_blocks ) ;
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sync . chain_new_blocks ( & mut io , & [ ] , & [ ] , & good_blocks , & retracted_blocks , & [ ] , & [ ] ) ;
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}
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// then
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let status = client . miner . status ( ) ;
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assert_eq! ( status . transactions_in_pending_queue , 1 ) ;
assert_eq! ( status . transactions_in_future_queue , 0 ) ;
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}
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#[ 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 ) ;
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let mut sync = dummy_sync_with_peer ( client . block_hash_delta_minus ( 5 ) , & client ) ;
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let good_blocks = vec! [ client . block_hash_delta_minus ( 2 ) ] ;
let retracted_blocks = vec! [ client . block_hash_delta_minus ( 1 ) ] ;
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let queue = RwLock ::new ( VecDeque ::new ( ) ) ;
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let ss = TestSnapshotService ::new ( ) ;
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let mut io = TestIo ::new ( & mut client , & ss , & queue , None ) ;
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// when
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sync . chain_new_blocks ( & mut io , & [ ] , & [ ] , & [ ] , & good_blocks , & [ ] , & [ ] ) ;
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assert_eq! ( io . chain . miner . status ( ) . transactions_in_future_queue , 0 ) ;
assert_eq! ( io . chain . miner . status ( ) . transactions_in_pending_queue , 0 ) ;
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sync . chain_new_blocks ( & mut io , & [ ] , & [ ] , & good_blocks , & retracted_blocks , & [ ] , & [ ] ) ;
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// then
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let status = io . chain . miner . status ( ) ;
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assert_eq! ( status . transactions_in_pending_queue , 0 ) ;
assert_eq! ( status . transactions_in_future_queue , 0 ) ;
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}
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}