import std/[net, endians, hashes] import nimcrypto, stint import types, enr, eth/keys, ../enode type Node* = ref object node*: ENode id*: NodeId record*: Record proc toNodeId*(pk: PublicKey): NodeId = readUintBE[256](keccak256.digest(pk.getRaw()).data) proc newNode*(pk: PublicKey, address: Address): Node = result.new() result.node = initENode(pk, address) result.id = pk.toNodeId() proc newNode*(uriString: string): Node = result.new() result.node = initENode(uriString) result.id = result.node.pubkey.toNodeId() proc newNode*(enode: ENode): Node = result.new() result.node = enode result.id = result.node.pubkey.toNodeId() proc newNode*(r: Record): Node = var a: Address var pk: PublicKey # TODO: Handle IPv6 var ip = r.get("ip", int32) a.ip = IpAddress(family: IpAddressFamily.IPv4) bigEndian32(addr a.ip.address_v4, addr ip) a.udpPort = Port(r.get("udp", int)) if recoverPublicKey(r.get("secp256k1", seq[byte]), pk) != EthKeysStatus.Success: echo "Could not recover public key" result = newNode(initENode(pk, a)) result.record = r proc hash*(n: Node): hashes.Hash = hash(n.node.pubkey.data) proc `==`*(a, b: Node): bool = (a.isNil and b.isNil) or (not a.isNil and not b.isNil and a.node.pubkey == b.node.pubkey) proc `$`*(n: Node): string = if n == nil: "Node[local]" else: "Node[" & $n.node.address.ip & ":" & $n.node.address.udpPort & "]"