// Copyright (c) 2020 Tailscale Inc & AUTHORS All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // Package disco contains the discovery message types. // // A discovery message is: // // Header: // magic [6]byte // “TS💬” (0x54 53 f0 9f 92 ac) // senderDiscoPub [32]byte // nacl public key // nonce [24]byte // // The recipient then decrypts the bytes following (the nacl secretbox) // and then the inner payload structure is: // // messageType byte (the MessageType constants below) // messageVersion byte (0 for now; but always ignore bytes at the end) // message-paylod [...]byte package disco import ( "encoding/binary" "errors" "fmt" "net" "go4.org/mem" "tailscale.com/net/netaddr" "tailscale.com/types/key" ) // Magic is the 6 byte header of all discovery messages. const Magic = "TS💬" // 6 bytes: 0x54 53 f0 9f 92 ac const keyLen = 32 // NonceLen is the length of the nonces used by nacl secretboxes. const NonceLen = 24 type MessageType byte const ( TypePing = MessageType(0x01) TypePong = MessageType(0x02) TypeCallMeMaybe = MessageType(0x03) ) const v0 = byte(0) var errShort = errors.New("short message") // LooksLikeDiscoWrapper reports whether p looks like it's a packet // containing an encrypted disco message. func LooksLikeDiscoWrapper(p []byte) bool { if len(p) < len(Magic)+keyLen+NonceLen { return false } return string(p[:len(Magic)]) == Magic } // Source returns the slice of p that represents the // disco public key source, and whether p looks like // a disco message. func Source(p []byte) (src []byte, ok bool) { if !LooksLikeDiscoWrapper(p) { return nil, false } return p[len(Magic):][:keyLen], true } // Parse parses the encrypted part of the message from inside the // nacl secretbox. func Parse(p []byte) (Message, error) { if len(p) < 2 { return nil, errShort } t, ver, p := MessageType(p[0]), p[1], p[2:] switch t { case TypePing: return parsePing(ver, p) case TypePong: return parsePong(ver, p) case TypeCallMeMaybe: return parseCallMeMaybe(ver, p) default: return nil, fmt.Errorf("unknown message type 0x%02x", byte(t)) } } // Message a discovery message. type Message interface { // AppendMarshal appends the message's marshaled representation. AppendMarshal([]byte) []byte } // appendMsgHeader appends two bytes (for t and ver) and then also // dataLen bytes to b, returning the appended slice in all. The // returned data slice is a subslice of all with just dataLen bytes of // where the caller will fill in the data. func appendMsgHeader(b []byte, t MessageType, ver uint8, dataLen int) (all, data []byte) { // TODO: optimize this? all = append(b, make([]byte, dataLen+2)...) all[len(b)] = byte(t) all[len(b)+1] = ver data = all[len(b)+2:] return } type Ping struct { // TxID is a random client-generated per-ping transaction ID. TxID [12]byte // NodeKey is allegedly the ping sender's wireguard public key. // Old clients (~1.16.0 and earlier) don't send this field. // It shouldn't be trusted by itself, but can be combined with // netmap data to reduce the discokey:nodekey relation from 1:N to // 1:1. NodeKey key.NodePublic } func (m *Ping) AppendMarshal(b []byte) []byte { dataLen := 12 hasKey := !m.NodeKey.IsZero() if hasKey { dataLen += key.NodePublicRawLen } ret, d := appendMsgHeader(b, TypePing, v0, dataLen) n := copy(d, m.TxID[:]) if hasKey { m.NodeKey.AppendTo(d[:n]) } return ret } func parsePing(ver uint8, p []byte) (m *Ping, err error) { if len(p) < 12 { return nil, errShort } m = new(Ping) p = p[copy(m.TxID[:], p):] // Deliberately lax on longer-than-expected messages, for future // compatibility. if len(p) >= key.NodePublicRawLen { m.NodeKey = key.NodePublicFromRaw32(mem.B(p[:key.NodePublicRawLen])) } return m, nil } // CallMeMaybe is a message sent only over DERP to request that the recipient try // to open up a magicsock path back to the sender. // // The sender should've already sent UDP packets to the peer to open // up the stateful firewall mappings inbound. // // The recipient may choose to not open a path back, if it's already // happy with its path. But usually it will. type CallMeMaybe struct { // MyNumber is what the peer believes its endpoints are. // // Prior to Tailscale 1.4, the endpoints were exchanged purely // between nodes and the control server. // // Starting with Tailscale 1.4, clients advertise their endpoints. // Older clients won't use this, but newer clients should // use any endpoints in here that aren't included from control. // // Control might have sent stale endpoints if the client was idle // before contacting us. In that case, the client likely did a STUN // request immediately before sending the CallMeMaybe to recreate // their NAT port mapping, and that new good endpoint is included // in this field, but might not yet be in control's endpoints. // (And in the future, control will stop distributing endpoints // when clients are suitably new.) MyNumber []netaddr.IPPort } const epLength = 16 + 2 // 16 byte IP address + 2 byte port func (m *CallMeMaybe) AppendMarshal(b []byte) []byte { ret, p := appendMsgHeader(b, TypeCallMeMaybe, v0, epLength*len(m.MyNumber)) for _, ipp := range m.MyNumber { a := ipp.Addr().As16() copy(p[:], a[:]) binary.BigEndian.PutUint16(p[16:], ipp.Port()) p = p[epLength:] } return ret } func parseCallMeMaybe(ver uint8, p []byte) (m *CallMeMaybe, err error) { m = new(CallMeMaybe) if len(p)%epLength != 0 || ver != 0 || len(p) == 0 { return m, nil } m.MyNumber = make([]netaddr.IPPort, 0, len(p)/epLength) for len(p) > 0 { var a [16]byte copy(a[:], p) m.MyNumber = append(m.MyNumber, netaddr.IPPortFrom( netaddr.IPFrom16(a), binary.BigEndian.Uint16(p[16:18]))) p = p[epLength:] } return m, nil } // Pong is a response a Ping. // // It includes the sender's source IP + port, so it's effectively a // STUN response. type Pong struct { TxID [12]byte Src netaddr.IPPort // 18 bytes (16+2) on the wire; v4-mapped ipv6 for IPv4 } const pongLen = 12 + 16 + 2 func (m *Pong) AppendMarshal(b []byte) []byte { ret, d := appendMsgHeader(b, TypePong, v0, pongLen) d = d[copy(d, m.TxID[:]):] ip16 := m.Src.Addr().As16() d = d[copy(d, ip16[:]):] binary.BigEndian.PutUint16(d, m.Src.Port()) return ret } func parsePong(ver uint8, p []byte) (m *Pong, err error) { if len(p) < pongLen { return nil, errShort } m = new(Pong) copy(m.TxID[:], p) p = p[12:] srcIP, _ := netaddr.FromStdIP(net.IP(p[:16])) p = p[16:] port := binary.BigEndian.Uint16(p) m.Src = netaddr.IPPortFrom(srcIP, port) return m, nil } // MessageSummary returns a short summary of m for logging purposes. func MessageSummary(m Message) string { switch m := m.(type) { case *Ping: return fmt.Sprintf("ping tx=%x", m.TxID[:6]) case *Pong: return fmt.Sprintf("pong tx=%x", m.TxID[:6]) case *CallMeMaybe: return "call-me-maybe" default: return fmt.Sprintf("%#v", m) } }