-- (C) 2019 - ntop.org and contributors n2n = Proto("n2n", "n2n Protocol") -- ############################################# PKT_TYPE_PING = 0 PKT_TYPE_REGISTER = 1 PKT_TYPE_DEREGISTER = 2 PKT_TYPE_PACKET = 3 PKT_TYPE_REGISTER_ACK = 4 PKT_TYPE_REGISTER_SUPER = 5 PKT_TYPE_REGISTER_SUPER_ACK = 6 PKT_TYPE_REGISTER_SUPER_NAK = 7 PKT_TYPE_FEDERATION = 8 PKT_TYPE_PEER_INFO = 9 PKT_TYPE_QUERY_PEER = 10 PKT_TRANSFORM_NULL = 1 PKT_TRANSFORM_TWOFISH = 2 PKT_TRANSFORM_AESCBC = 3 FLAG_FROM_SUPERNODE = 0x0020 FLAG_SOCKET = 0x0040 FLAG_OPTIONS = 0x0080 SOCKET_FAMILY_AF_INET = 0x0000 SOCKET_FAMILY_AF_INET6 = 0x8000 -- ############################################# version = ProtoField.uint8("n2n.version", "version", base.DEC) ttl = ProtoField.uint8("n2n.ttl", "ttl", base.DEC) packet_type_mask = 0x001f pkt_type_2_str = { [PKT_TYPE_PING] = "ping", [PKT_TYPE_REGISTER] = "register", [PKT_TYPE_DEREGISTER] = "deregister", [PKT_TYPE_PACKET] = "packet", [PKT_TYPE_REGISTER_ACK] = "register_ack", [PKT_TYPE_REGISTER_SUPER] = "register_super", [PKT_TYPE_REGISTER_SUPER_ACK] = "register_super_ack", [PKT_TYPE_REGISTER_SUPER_NAK] = "register_super_nak", [PKT_TYPE_FEDERATION] = "federation", [PKT_TYPE_PEER_INFO] = "peer_info", [PKT_TYPE_QUERY_PEER] = "query_peer", } packet_type = ProtoField.uint8("n2n.packet_type", "packetType", base.HEX, pkt_type_2_str, packet_type_mask) flags_mask = 0xffe0 flags = ProtoField.uint16("n2n.flags", "Flags", base.HEX, nil, flags_mask) from_supernode_flag = ProtoField.uint16("n2n.flags.from_supernode", "from_supernode", base.BOOLEAN, nil, FLAG_FROM_SUPERNODE) socket_flag = ProtoField.uint16("n2n.flags.socket", "socket", base.BOOLEAN, nil, FLAG_SOCKET) options_flag = ProtoField.uint16("n2n.flags.options", "options", base.BOOLEAN, nil, FLAG_OPTIONS) community = ProtoField.string("n2n.community", "Community", base.ASCII) -- ############################################# src_mac = ProtoField.ether("n2n.src_mac", "Source") dst_mac = ProtoField.ether("n2n.dst_mac", "Destination") socket_info = ProtoField.none("n2n.socket", "Socket Info") socket_family = ProtoField.uint16("n2n.socket.family", "Family", base.HEX, { [0] = "AF_INET", }) socket_port = ProtoField.uint16("n2n.socket.port", "Port") socket_ipv4 = ProtoField.ipv4("n2n.socket.ipv4", "IPv4") socket_ipv6 = ProtoField.ipv6("n2n.socket.ipv6", "IPv6") -- ############################################# peer_info_field = ProtoField.none("n2n.peer_info", "PeerInfo") peer_info_flags = ProtoField.uint16("n2n.peer_info.flags", "Flags") peer_info_mac = ProtoField.ether("n2n.peer_info.query_mac", "Query") query_peer_field = ProtoField.none("n2n.query_peer", "QueryPeer") -- ############################################# packet_field = ProtoField.none("n2n.packet", "Packet") packet_transform = ProtoField.uint16("n2n.packet.transform", "Transform", base.HEX, { [PKT_TRANSFORM_NULL] = "Plaintext", [PKT_TRANSFORM_TWOFISH] = "TwoFish", [PKT_TRANSFORM_AESCBC] = "AES CBC", }) packet_payload = ProtoField.bytes("n2n.packet.payload", "Payload") -- ############################################# register_field = ProtoField.none("n2n.register", "Register") register_cookie = ProtoField.uint32("n2n.register.cookie", "Cookie", base.HEX) register_ack_field = ProtoField.none("n2n.register_ack", "RegisterACK") register_ack_cookie = ProtoField.uint32("n2n.register_ack.cookie", "Cookie", base.HEX) register_super_field = ProtoField.none("n2n.register_super", "RegisterSuper") register_super_cookie = ProtoField.uint32("n2n.register_super.cookie", "Cookie", base.HEX) register_super_auth_schema = ProtoField.uint16("n2n.register_super.auth.schema", "AuthSchema", base.HEX) register_super_auth_data = ProtoField.uint16("n2n.register_super.auth.data", "AuthData", base.HEX) register_super_ack_field = ProtoField.none("n2n.register_super_ack", "RegisterSuperACK") register_super_ack_cookie = ProtoField.uint32("n2n.register_super_ack.cookie", "Cookie", base.HEX) register_super_ack_lifetime = ProtoField.uint16("n2n.register_super_ack.lifetime", "Registration Lifetime", base.DEC) register_super_ack_num_sn = ProtoField.uint8("n2n.register_super_ack.num_sn", "Num Supernodes", base.DEC) -- ############################################# n2n.fields = { version, ttl, packet_type, flags, from_supernode_flag, socket_flag, options_flag, community, -- Generic src_mac, dst_mac, socket_info, socket_family, socket_port, socket_ipv4, socket_ipv6, -- PKT_TYPE_REGISTER register_field, register_cookie, -- PKT_TYPE_PACKET packet_field, packet_transform, packet_payload, -- PKT_TYPE_REGISTER_ACK register_ack_field, register_ack_cookie, -- PKT_TYPE_REGISTER_SUPER register_super_field, register_super_cookie, register_super_auth_schema, register_super_auth_data, -- PKT_TYPE_REGISTER_SUPER_ACK register_super_ack_field, register_super_ack_cookie, register_super_ack_lifetime, register_super_ack_num_sn, -- PKT_TYPE_PEER_INFO peer_info_field, peer_info_flags, peer_info_mac, -- PKT_TYPE_QUERY_PEER query_peer_field, } -- ############################################# function dissect_socket(subtree, buffer, offset) local sock_baselen = 4 local sock_protolen = 0 buffer = buffer(offset) local sock_family = bit.band(buffer(0,4):uint(), 0xFFFF0000) if(sock_family == SOCKET_FAMILY_AF_INET) then sock_protolen = 4 elseif(sock_family == SOCKET_FAMILY_AF_INET6) then sock_protolen = 16 end local totlen = sock_baselen + sock_protolen local socktree = subtree:add(socket_info, buffer(0, totlen)) socktree:add(socket_family, buffer(0, 2)) socktree:add(socket_port, buffer(2, 2)) if(sock_family == SOCKET_FAMILY_AF_INET) then socktree:add(socket_ipv4, buffer(4, sock_protolen)) elseif(sock_family == SOCKET_FAMILY_AF_INET6) then socktree:add(socket_ipv6, buffer(4, sock_protolen)) end return offset+totlen, socktree end -- ############################################# function dissect_register(subtree, buffer, flags) local regtree = subtree:add(register_field, buffer) regtree:add(register_cookie, buffer(0,4)) regtree:add(src_mac, buffer(4,6)) regtree:add(dst_mac, buffer(10,6)) if(bit.band(flags, FLAG_SOCKET) == FLAG_SOCKET) then dissect_socket(regtree, buffer, 16) end return regtree end -- ############################################# function dissect_register_ack(subtree, buffer, flags) local regtree = subtree:add(register_ack_field, buffer) regtree:add(register_ack_cookie, buffer(0,4)) regtree:add(src_mac, buffer(4,6)) regtree:add(dst_mac, buffer(10,6)) return regtree end -- ############################################# function dissect_packet(subtree, buffer, flags, pinfo) local pktree = subtree:add(packet_field, buffer) pktree:add(src_mac, buffer(0,6)) pktree:add(dst_mac, buffer(6,6)) if(bit.band(flags, FLAG_SOCKET) == FLAG_SOCKET) then idx = dissect_socket(pktree, buffer, 12) else idx = 12 end pktree:add(packet_transform, buffer(idx,2)) local payload = pktree:add(packet_payload, buffer(idx+2)) local transform = buffer(idx,2):uint() -- Can only dissect unencrypted data if(transform == PKT_TRANSFORM_NULL) then Dissector.get("eth_withoutfcs"):call(buffer(idx+2):tvb(), pinfo, payload) end return pktree end -- ############################################# function dissect_register_super(subtree, buffer, flags) local regtree = subtree:add(register_super_field, buffer) regtree:add(register_super_cookie, buffer(0,4)) regtree:add(src_mac, buffer(4,6)) regtree:add(register_super_auth_schema, buffer(10,2)) regtree:add(register_super_auth_data, buffer(12,2)) return regtree end -- ############################################# function dissect_register_super_ack(subtree, buffer, flags) local regtree = subtree:add(register_super_ack_field, buffer) regtree:add(register_super_ack_cookie, buffer(0,4)) regtree:add(dst_mac, buffer(4,6)) regtree:add(register_super_ack_lifetime, buffer(10,2)) local idx = dissect_socket(regtree, buffer, 12) regtree:add(register_super_ack_num_sn, buffer(idx, 1)) return regtree end -- ############################################# function dissect_peer_info(subtree, buffer, flags) local peertree = subtree:add(peer_info_field, buffer) peertree:add(peer_info_flags, buffer(0,2)) peertree:add(peer_info_mac, buffer(2,6)) dissect_socket(peertree, buffer, 8) return peertree end -- ############################################# function dissect_query_peer(subtree, buffer, flags) local peertree = subtree:add(query_peer_field, buffer) peertree:add(src_mac, buffer(0,6)) peertree:add(dst_mac, buffer(6,6)) return peertree end -- ############################################# function n2n.dissector(buffer, pinfo, tree) local length = buffer:len() if length < 20 then return end pinfo.cols.protocol = n2n.name local pkt_type = bit.band(buffer(2,2):uint(), packet_type_mask) local subtree = tree:add(n2n, buffer(), string.format("n2n Protocol, Type: %s", pkt_type_2_str[pkt_type] or "Unknown")) -- Common subtree:add(version, buffer(0,1)) subtree:add(ttl, buffer(1,1)) subtree:add(packet_type, buffer(2,2)) local flags_buffer = buffer(2,2) local flags_tree = subtree:add(flags, flags_buffer) subtree:add(community, buffer(4,16)) -- Flags flags_tree:add(from_supernode_flag, flags_buffer) flags_tree:add(socket_flag, flags_buffer) flags_tree:add(options_flag, flags_buffer) -- Packet specific local flags = bit.band(buffer(2,2):uint(), flags_mask) local typebuf = buffer(20) if(pkt_type == PKT_TYPE_REGISTER) then dissect_register(subtree, typebuf, flags) elseif(pkt_type == PKT_TYPE_REGISTER) then dissect_register_ack(subtree, typebuf, flags) elseif(pkt_type == PKT_TYPE_PACKET) then dissect_packet(subtree, typebuf, flags, pinfo) elseif(pkt_type == PKT_TYPE_REGISTER_SUPER) then dissect_register_super(subtree, typebuf, flags) elseif(pkt_type == PKT_TYPE_REGISTER_SUPER_ACK) then dissect_register_super_ack(subtree, typebuf, flags) elseif(pkt_type == PKT_TYPE_PEER_INFO) then dissect_peer_info(subtree, typebuf, flags) elseif(pkt_type == PKT_TYPE_QUERY_PEER) then dissect_query_peer(subtree, typebuf, flags) end end -- ############################################# local udp_port = DissectorTable.get("udp.port") udp_port:add(50001, n2n)