nimbus-eth1/nimbus/sync/protocol_eth66.nim

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Nim

# Nimbus - Ethereum Wire Protocol, version eth/65
#
# Copyright (c) 2018-2021 Status Research & Development GmbH
# Licensed under either of
# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or http://www.apache.org/licenses/LICENSE-2.0)
# * MIT license ([LICENSE-MIT](LICENSE-MIT) or http://opensource.org/licenses/MIT)
# at your option. This file may not be copied, modified, or distributed except according to those terms.
## This module implements Ethereum Wire Protocol version 66, `eth/66`.
## Specification:
## `eth/66 <https://github.com/ethereum/devp2p/blob/master/caps/eth.md>`_
import
chronos, stint, chronicles, stew/byteutils, macros,
eth/[common/eth_types, rlp, p2p],
eth/p2p/[rlpx, private/p2p_types, blockchain_utils]
type
NewBlockHashesAnnounce* = object
hash: KeccakHash
number: uint64 # Note: Was `uint`, wrong on 32-bit targets.
NewBlockAnnounce* = EthBlock
ForkId* = object
forkHash: array[4, byte] # The RLP encoding must be exactly 4 bytes.
forkNext: BlockNumber # The RLP encoding must be variable-length
NewBlockAndTotalDiff* = object
ethBlock: EthBlock
totalDifficulty: DifficultyInt
PeerState = ref object
initialized*: bool
bestBlockHash*: KeccakHash
bestDifficulty*: DifficultyInt
const
tracePackets* = true # Set `true` or `false` to control packet traces.
traceHandshakes* = true
const
maxStateFetch* = 384
maxBodiesFetch* = 128
maxReceiptsFetch* = 256
maxHeadersFetch* = 192
ethVersion* = 66
func toHex*(x: KeccakHash): string = x.data.toHex
macro tracePacket*(msg: static[string], args: varargs[untyped]) =
quote do:
if tracePackets:
trace `msg`, `args`
p2pProtocol eth(version = ethVersion,
peerState = PeerState,
useRequestIds = true):
onPeerConnected do (peer: Peer):
let
network = peer.network
chain = network.chain
bestBlock = chain.getBestBlockHeader
chainForkId = chain.getForkId(bestBlock.blockNumber)
forkId = ForkId(
forkHash: chainForkId.crc.toBytesBE,
forkNext: chainForkId.nextFork.u256)
tracePacket ">> Sending eth.Status (0x00) [eth/" & $ethVersion & "]",
peer, td=bestBlock.difficulty,
bestHash=bestBlock.blockHash.toHex,
networkId=network.networkId,
genesis=chain.genesisHash.toHex,
forkHash=forkId.forkHash.toHex, forkNext=forkId.forkNext
let m = await peer.status(ethVersion,
network.networkId,
bestBlock.difficulty,
bestBlock.blockHash,
chain.genesisHash,
forkId,
timeout = chronos.seconds(10))
if traceHandshakes:
trace "Handshake: Local and remote networkId",
local=network.networkId, remote=m.networkId
trace "Handshake: Local and remote genesisHash",
local=chain.genesisHash.toHex, remote=m.genesisHash.toHex
trace "Handshake: Local and remote forkId",
local=(forkId.forkHash.toHex & "/" & $forkId.forkNext),
remote=(m.forkId.forkHash.toHex & "/" & $m.forkId.forkNext)
if m.networkId != network.networkId:
trace "Peer for a different network (networkId)", peer,
expectNetworkId=network.networkId, gotNetworkId=m.networkId
raise newException(UselessPeerError, "Eth handshake for different network")
if m.genesisHash != chain.genesisHash:
trace "Peer for a different network (genesisHash)", peer,
expectGenesis=chain.genesisHash.toHex, gotGenesis=m.genesisHash.toHex
raise newException(UselessPeerError, "Eth handshake for different network")
trace "Peer matches our network", peer
peer.state.initialized = true
peer.state.bestDifficulty = m.totalDifficulty
peer.state.bestBlockHash = m.bestHash
handshake:
# User message 0x00: Status.
proc status(peer: Peer,
ethVersionArg: uint,
networkId: NetworkId,
totalDifficulty: DifficultyInt,
bestHash: KeccakHash,
genesisHash: KeccakHash,
forkId: ForkId) =
tracePacket "<< Received eth.Status (0x00) [eth/" & $ethVersion & "]",
peer, td=totalDifficulty,
bestHash=bestHash.toHex,
networkId,
genesis=genesisHash.toHex,
forkHash=forkId.forkHash.toHex, forkNext=forkId.forkNext
# User message 0x01: NewBlockHashes.
proc newBlockHashes(peer: Peer, hashes: openArray[NewBlockHashesAnnounce]) =
tracePacket "<< Discarding eth.NewBlockHashes (0x01)",
peer, count=hashes.len
discard
# User message 0x02: Transactions.
proc transactions(peer: Peer, transactions: openArray[Transaction]) =
tracePacket "<< Discarding eth.Transactions (0x02)",
peer, count=transactions.len
discard
requestResponse:
# User message 0x03: GetBlockHeaders.
proc getBlockHeaders(peer: Peer, request: BlocksRequest) =
tracePacket "<< Received eth.GetBlockHeaders (0x03)",
peer, count=request.maxResults
if request.maxResults > uint64(maxHeadersFetch):
debug "eth.GetBlockHeaders (0x03) requested too many headers",
peer, requested=request.maxResults, max=maxHeadersFetch
await peer.disconnect(BreachOfProtocol)
return
let headers = peer.network.chain.getBlockHeaders(request)
if headers.len > 0:
tracePacket ">> Replying with eth.BlockHeaders (0x04)",
peer, count=headers.len
else:
tracePacket ">> Replying EMPTY eth.BlockHeaders (0x04)",
peer, count=0
await response.send(headers)
# User message 0x04: BlockHeaders.
proc blockHeaders(p: Peer, headers: openArray[BlockHeader])
requestResponse:
# User message 0x05: GetBlockBodies.
proc getBlockBodies(peer: Peer, hashes: openArray[KeccakHash]) =
tracePacket "<< Received eth.GetBlockBodies (0x05)",
peer, count=hashes.len
if hashes.len > maxBodiesFetch:
debug "eth.GetBlockBodies (0x05) requested too many bodies",
peer, requested=hashes.len, max=maxBodiesFetch
await peer.disconnect(BreachOfProtocol)
return
let bodies = peer.network.chain.getBlockBodies(hashes)
if bodies.len > 0:
tracePacket ">> Replying with eth.BlockBodies (0x06)",
peer, count=bodies.len
else:
tracePacket ">> Replying EMPTY eth.BlockBodies (0x06)",
peer, count=0
await response.send(bodies)
# User message 0x06: BlockBodies.
proc blockBodies(peer: Peer, blocks: openArray[BlockBody])
# User message 0x07: NewBlock.
proc newBlock(peer: Peer, bh: EthBlock, totalDifficulty: DifficultyInt) =
# (Note, needs to use `EthBlock` instead of its alias `NewBlockAnnounce`
# because either `p2pProtocol` or RLPx doesn't work with an alias.)
tracePacket "<< Discarding eth.NewBlock (0x07)",
peer, totalDifficulty,
blockNumber = bh.header.blockNumber,
blockDifficulty = bh.header.difficulty
discard
# User message 0x08: NewPooledTransactionHashes.
proc newPooledTransactionHashes(peer: Peer, hashes: openArray[KeccakHash]) =
tracePacket "<< Discarding eth.NewPooledTransactionHashes (0x08)",
peer, count=hashes.len
discard
requestResponse:
# User message 0x09: GetPooledTransactions.
proc getPooledTransactions(peer: Peer, hashes: openArray[KeccakHash]) =
tracePacket "<< Received eth.GetPooledTransactions (0x09)",
peer, count=hashes.len
tracePacket ">> Replying EMPTY eth.PooledTransactions (0x10)",
peer, count=0
await response.send([])
# User message 0x0a: PooledTransactions.
proc pooledTransactions(peer: Peer, transactions: openArray[Transaction])
nextId 0x0d
requestResponse:
# User message 0x0d: GetNodeData.
proc getNodeData(peer: Peer, hashes: openArray[KeccakHash]) =
tracePacket "<< Received eth.GetNodeData (0x0d)",
peer, count=hashes.len
let blobs = peer.network.chain.getStorageNodes(hashes)
if blobs.len > 0:
tracePacket ">> Replying with eth.NodeData (0x0e)",
peer, count=blobs.len
else:
tracePacket ">> Replying EMPTY eth.NodeData (0x0e)",
peer, count=0
await response.send(blobs)
# User message 0x0e: NodeData.
proc nodeData(peer: Peer, data: openArray[Blob])
requestResponse:
# User message 0x0f: GetReceipts.
proc getReceipts(peer: Peer, hashes: openArray[KeccakHash]) =
tracePacket "<< Received eth.GetReceipts (0x0f)",
peer, count=hashes.len
tracePacket ">> Replying EMPTY eth.Receipts (0x10)",
peer, count=0
await response.send([])
# TODO: implement `getReceipts` and reactivate this code
# await response.send(peer.network.chain.getReceipts(hashes))
# User message 0x10: Receipts.
proc receipts(peer: Peer, receipts: openArray[Receipt])