// 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 STUN generates STUN request packets and parses response packets. package stun import ( crand "crypto/rand" "errors" "hash/crc32" ) var ( attrSoftware = append([]byte{ 0x80, 0x22, // software header 0x00, byte(len("tailnode")), // attr length }, "tailnode"...) lenMsg = byte(len(attrSoftware) + lenFingerprint) // number of bytes following header ) const ( bindingRequest = "\x00\x01" magicCookie = "\x21\x12\xa4\x42" lenFingerprint = 8 // 2+byte header + 2-byte length + 4-byte crc32 ipv4Len = 4 ipv6Len = 16 headerLen = 20 ) // TxID is a transaction ID. type TxID [12]byte // NewTxID returns a new random TxID. func NewTxID() TxID { var tx TxID if _, err := crand.Read(tx[:]); err != nil { panic(err) } return tx } // Request generates a binding request STUN packet. // The transaction ID, tID, should be a random sequence of bytes. func Request(tID TxID) []byte { // STUN header, RFC5389 Section 6. b := make([]byte, 0, headerLen+len(attrSoftware)+lenFingerprint) b = append(b, bindingRequest...) b = append(b, 0x00, lenMsg) b = append(b, magicCookie...) b = append(b, tID[:]...) // Attribute SOFTWARE, RFC5389 Section 15.5. b = append(b, attrSoftware...) // Attribute FINGERPRINT, RFC5389 Section 15.5. fp := crc32.ChecksumIEEE(b) ^ 0x5354554e b = append(b, 0x80, 0x28) // fingerprint header b = append(b, 0x00, 0x04) // fingerprint length b = append(b, byte(fp>>24), byte(fp>>16), byte(fp>>8), byte(fp), ) return b } var ( ErrNotSTUN = errors.New("response is not a STUN packet") ErrNotSuccessResponse = errors.New("STUN response error") ErrMalformedAttrs = errors.New("STUN response has malformed attributes") ) // ParseResponse parses a successful binding response STUN packet. // The IP address is extracted from the XOR-MAPPED-ADDRESS attribute. // The returned addr slice is owned by the caller and does not alias b. func ParseResponse(b []byte) (tID TxID, addr []byte, port uint16, err error) { if !Is(b) { return tID, nil, 0, ErrNotSTUN } copy(tID[:], b[8:headerLen]) if b[0] != 0x01 || b[1] != 0x01 { return tID, nil, 0, ErrNotSuccessResponse } attrsLen := int(b[2])<<8 | int(b[3]) b = b[headerLen:] // remove STUN header if attrsLen > len(b) { return tID, nil, 0, ErrMalformedAttrs } else if len(b) > attrsLen { b = b[:attrsLen] // trim trailing packet bytes } var addr6, fallbackAddr, fallbackAddr6 []byte var port6, fallbackPort, fallbackPort6 uint16 // Read through the attributes. // The the addr+port reported by XOR-MAPPED-ADDRESS // as the canonical value. If the attribute is not // present but the STUN server responds with // MAPPED-ADDRESS we fall back to it. for len(b) > 0 { if len(b) < 4 { return tID, nil, 0, ErrMalformedAttrs } attrType := uint16(b[0])<<8 | uint16(b[1]) attrLen := int(b[2])<<8 | int(b[3]) attrLenPad := attrLen % 4 if attrLen+attrLenPad > len(b)-4 { return tID, nil, 0, ErrMalformedAttrs } b = b[4:] const typeMappedAddress = 0x0001 const typeXorMappedAddress = 0x0020 // This alternative attribute type is not // mentioned in the RFC, but the shift into // the "comprehension-optional" range seems // like an easy mistake for a server to make. // And servers appear to send it. const typeXorMappedAddressAlt = 0x8020 switch attrType { case typeXorMappedAddress, typeXorMappedAddressAlt: a, p, err := xorMappedAddress(tID, b[:attrLen]) if err != nil { return tID, nil, 0, ErrMalformedAttrs } if len(a) == 16 { addr6, port6 = a, p } else { addr, port = a, p } case typeMappedAddress: a, p, err := mappedAddress(b[:attrLen]) if err != nil { return tID, nil, 0, ErrMalformedAttrs } if len(a) == 16 { fallbackAddr6, fallbackPort6 = a, p } else { fallbackAddr, fallbackPort = a, p } } b = b[attrLen+attrLenPad:] } if addr != nil { return tID, addr, port, nil } if fallbackAddr != nil { return tID, append([]byte{}, fallbackAddr...), fallbackPort, nil } if addr6 != nil { return tID, addr6, port6, nil } if fallbackAddr6 != nil { return tID, append([]byte{}, fallbackAddr6...), fallbackPort6, nil } return tID, nil, 0, ErrMalformedAttrs } func xorMappedAddress(tID TxID, b []byte) (addr []byte, port uint16, err error) { // XOR-MAPPED-ADDRESS attribute, RFC5389 Section 15.2 if len(b) < 4 { return nil, 0, ErrMalformedAttrs } xorPort := uint16(b[2])<<8 | uint16(b[3]) addrField := b[4:] port = xorPort ^ 0x2112 // first half of magicCookie addrLen := familyAddrLen(b[1]) if addrLen == 0 { return nil, 0, ErrMalformedAttrs } if len(addrField) < addrLen { return nil, 0, ErrMalformedAttrs } xorAddr := addrField[:addrLen] addr = make([]byte, addrLen) for i := range xorAddr { if i < len(magicCookie) { addr[i] = xorAddr[i] ^ magicCookie[i] } else { addr[i] = xorAddr[i] ^ tID[i-len(magicCookie)] } } return addr, port, nil } func familyAddrLen(fam byte) int { switch fam { case 0x01: // IPv4 return ipv4Len case 0x02: // IPv6 return ipv6Len default: return 0 } } func mappedAddress(b []byte) (addr []byte, port uint16, err error) { if len(b) < 4 { return nil, 0, ErrMalformedAttrs } port = uint16(b[2])<<8 | uint16(b[3]) addrField := b[4:] addrLen := familyAddrLen(b[1]) if addrLen == 0 { return nil, 0, ErrMalformedAttrs } if len(addrField) < addrLen { return nil, 0, ErrMalformedAttrs } return append([]byte(nil), addrField[:addrLen]...), port, nil } // Is reports whether b is a STUN message. func Is(b []byte) bool { return len(b) >= headerLen && b[0]&0b11000000 == 0 && // top two bits must be zero string(b[4:8]) == magicCookie }