import unittest, chronos, nimcrypto, strutils, bearssl, eth/[keys, p2p], eth/p2p/[discovery, enode] var nextPort = 30303 proc localAddress*(port: int): Address = let port = Port(port) result = Address(udpPort: port, tcpPort: port, ip: parseIpAddress("127.0.0.1")) proc startDiscoveryNode*(privKey: PrivateKey, address: Address, bootnodes: seq[ENode]): Future[DiscoveryProtocol] {.async.} = result = newDiscoveryProtocol(privKey, address, bootnodes) result.open() await result.bootstrap() proc setupTestNode*( rng: ref BrHmacDrbgContext, capabilities: varargs[ProtocolInfo, `protocolInfo`]): EthereumNode {.gcsafe.} = # Don't create new RNG every time in production code! let keys1 = KeyPair.random(rng[]) result = newEthereumNode(keys1, localAddress(nextPort), 1, nil, addAllCapabilities = false, rng = rng) nextPort.inc for capability in capabilities: result.addCapability capability proc packData*(payload: openArray[byte], pk: PrivateKey): seq[byte] = let payloadSeq = @payload signature = @(pk.sign(payload).toRaw()) msgHash = keccak256.digest(signature & payloadSeq) result = @(msgHash.data) & signature & payloadSeq template sourceDir*: string = currentSourcePath.rsplit(DirSep, 1)[0] proc recvMsgMock*(msg: openArray[byte]): tuple[msgId: int, msgData: Rlp] = var rlp = rlpFromBytes(msg) let msgId = rlp.read(int32) return (msgId.int, rlp)