nim-eth/eth/p2p.nim

175 lines
5.6 KiB
Nim

#
# Ethereum P2P
# (c) Copyright 2018
# Status Research & Development GmbH
#
# Licensed under either of
# Apache License, version 2.0, (LICENSE-APACHEv2)
# MIT license (LICENSE-MIT)
#
import
std/[tables, algorithm, random],
bearssl, chronos, chronos/timer, chronicles,
./keys, ./common/eth_types, ./p2p/private/p2p_types,
./p2p/[kademlia, discovery, enode, peer_pool, rlpx]
export
p2p_types, rlpx, enode, kademlia
proc addCapability*(node: var EthereumNode, p: ProtocolInfo)
{.raises: [Defect].} =
doAssert node.connectionState == ConnectionState.None
let pos = lowerBound(node.protocols, p, rlpx.cmp)
node.protocols.insert(p, pos)
node.capabilities.insert(p.asCapability, pos)
if p.networkStateInitializer != nil:
node.protocolStates[p.index] = p.networkStateInitializer(node)
template addCapability*(node: var EthereumNode, Protocol: type) =
addCapability(node, Protocol.protocolInfo)
proc newEthereumNode*(keys: KeyPair,
address: Address,
networkId: NetworkId,
chain: AbstractChainDB,
clientId = "nim-eth-p2p/0.2.0", # TODO: read this value from nimble somehow
addAllCapabilities = true,
useCompression: bool = false,
minPeers = 10,
rng = newRng()): EthereumNode {.raises: [Defect].} =
if rng == nil: # newRng could fail
raise (ref Defect)(msg: "Cannot initialize RNG")
new result
result.keys = keys
result.networkId = networkId
result.clientId = clientId
result.protocols.newSeq 0
result.capabilities.newSeq 0
result.address = address
result.connectionState = ConnectionState.None
result.rng = rng
when useSnappy:
result.protocolVersion = if useCompression: devp2pSnappyVersion
else: devp2pVersion
result.protocolStates.newSeq allProtocols.len
result.peerPool = newPeerPool(result, networkId,
keys, nil,
clientId, address.tcpPort,
minPeers = minPeers)
if addAllCapabilities:
for p in allProtocols:
result.addCapability(p)
proc processIncoming(server: StreamServer,
remote: StreamTransport): Future[void] {.async, gcsafe.} =
var node = getUserData[EthereumNode](server)
let peer = await node.rlpxAccept(remote)
if not peer.isNil:
trace "Connection established (incoming)", peer
if node.peerPool != nil:
node.peerPool.connectingNodes.excl(peer.remote)
node.peerPool.addPeer(peer)
proc listeningAddress*(node: EthereumNode): ENode =
node.toENode()
proc startListening*(node: EthereumNode) =
# TODO allow binding to specific IP / IPv6 / etc
let ta = initTAddress(IPv4_any(), node.address.tcpPort)
if node.listeningServer == nil:
node.listeningServer = createStreamServer(ta, processIncoming,
{ReuseAddr},
udata = cast[pointer](node))
node.listeningServer.start()
info "RLPx listener up", self = node.listeningAddress
proc connectToNetwork*(node: EthereumNode,
bootstrapNodes: seq[ENode],
startListening = true,
enableDiscovery = true) {.async.} =
doAssert node.connectionState == ConnectionState.None
node.connectionState = Connecting
node.discovery = newDiscoveryProtocol(node.keys.seckey,
node.address,
bootstrapNodes)
node.peerPool.discovery = node.discovery
if startListening:
p2p.startListening(node)
if enableDiscovery:
node.discovery.open()
await node.discovery.bootstrap()
node.peerPool.start()
else:
info "Discovery disabled"
while node.peerPool.connectedNodes.len == 0:
trace "Waiting for more peers", peers = node.peerPool.connectedNodes.len
await sleepAsync(500.milliseconds)
proc stopListening*(node: EthereumNode) =
node.listeningServer.stop()
iterator peers*(node: EthereumNode): Peer =
for peer in node.peerPool.peers:
yield peer
iterator peers*(node: EthereumNode, Protocol: type): Peer =
for peer in node.peerPool.peers(Protocol):
yield peer
iterator protocolPeers*(node: EthereumNode, Protocol: type): auto =
mixin state
for peer in node.peerPool.peers(Protocol):
yield peer.state(Protocol)
iterator randomPeers*(node: EthereumNode, maxPeers: int): Peer =
# TODO: this can be implemented more efficiently
# XXX: this doesn't compile, why?
# var peer = toSeq node.peers
var peers = newSeqOfCap[Peer](node.peerPool.connectedNodes.len)
for peer in node.peers: peers.add(peer)
shuffle(peers)
for i in 0 ..< min(maxPeers, peers.len):
yield peers[i]
proc randomPeer*(node: EthereumNode): Peer =
let peerIdx = rand(node.peerPool.connectedNodes.len)
var i = 0
for peer in node.peers:
if i == peerIdx: return peer
inc i
iterator randomPeers*(node: EthereumNode, maxPeers: int, Protocol: type): Peer =
var peers = newSeqOfCap[Peer](node.peerPool.connectedNodes.len)
for peer in node.peers(Protocol):
peers.add(peer)
shuffle(peers)
if peers.len > maxPeers: peers.setLen(maxPeers)
for p in peers: yield p
proc randomPeerWith*(node: EthereumNode, Protocol: type): Peer =
var candidates = newSeq[Peer]()
for p in node.peers(Protocol):
candidates.add(p)
if candidates.len > 0:
return candidates.rand()
proc getPeer*(node: EthereumNode, peerId: NodeId, Protocol: type): Option[Peer] =
for peer in node.peers(Protocol):
if peer.remote.id == peerId:
return some(peer)