package multiaddr import ( "encoding/binary" "errors" "fmt" "net" "strconv" "strings" mh "github.com/jbenet/go-multihash" ) func stringToBytes(s string) ([]byte, error) { // consume trailing slashes s = strings.TrimRight(s, "/") b := []byte{} sp := strings.Split(s, "/") if sp[0] != "" { return nil, fmt.Errorf("invalid multiaddr, must begin with /") } // consume first empty elem sp = sp[1:] for len(sp) > 0 { p := ProtocolWithName(sp[0]) if p.Code == 0 { return nil, fmt.Errorf("no protocol with name %s", sp[0]) } b = append(b, CodeToVarint(p.Code)...) sp = sp[1:] if p.Size == 0 { // no length. continue } if len(sp) < 1 { return nil, fmt.Errorf("protocol requires address, none given: %s", p.Name) } a, err := addressStringToBytes(p, sp[0]) if err != nil { return nil, fmt.Errorf("failed to parse %s: %s %s", p.Name, sp[0], err) } b = append(b, a...) sp = sp[1:] } return b, nil } func bytesToString(b []byte) (ret string, err error) { // panic handler, in case we try accessing bytes incorrectly. defer func() { if e := recover(); e != nil { ret = "" switch e := e.(type) { case error: err = e case string: err = errors.New(e) default: err = fmt.Errorf("%v", e) } } }() s := "" for len(b) > 0 { code, n := ReadVarintCode(b) b = b[n:] p := ProtocolWithCode(code) if p.Code == 0 { return "", fmt.Errorf("no protocol with code %d", code) } s += "/" + p.Name if p.Size == 0 { continue } size := sizeForAddr(p, b) a, err := addressBytesToString(p, b[:size]) if err != nil { return "", err } if len(a) > 0 { s += "/" + a } b = b[size:] } return s, nil } func sizeForAddr(p Protocol, b []byte) int { switch { case p.Size > 0: return (p.Size / 8) case p.Size == 0: return 0 default: size, n := ReadVarintCode(b) return size + n } } func bytesSplit(b []byte) (ret [][]byte, err error) { // panic handler, in case we try accessing bytes incorrectly. defer func() { if e := recover(); e != nil { ret = [][]byte{} err = e.(error) } }() ret = [][]byte{} for len(b) > 0 { code, n := ReadVarintCode(b) p := ProtocolWithCode(code) if p.Code == 0 { return [][]byte{}, fmt.Errorf("no protocol with code %d", b[0]) } size := sizeForAddr(p, b[n:]) length := n + size ret = append(ret, b[:length]) b = b[length:] } return ret, nil } func addressStringToBytes(p Protocol, s string) ([]byte, error) { switch p.Code { case P_IP4: // ipv4 i := net.ParseIP(s).To4() if i == nil { return nil, fmt.Errorf("failed to parse ip4 addr: %s", s) } return i, nil case P_IP6: // ipv6 i := net.ParseIP(s).To16() if i == nil { return nil, fmt.Errorf("failed to parse ip6 addr: %s", s) } return i, nil // tcp udp dccp sctp case P_TCP, P_UDP, P_DCCP, P_SCTP: i, err := strconv.Atoi(s) if err != nil { return nil, fmt.Errorf("failed to parse %s addr: %s", p.Name, err) } if i >= 65536 { return nil, fmt.Errorf("failed to parse %s addr: %s", p.Name, "greater than 65536") } b := make([]byte, 2) binary.BigEndian.PutUint16(b, uint16(i)) return b, nil case P_IPFS: // ipfs // the address is a varint prefixed multihash string representation m, err := mh.FromB58String(s) if err != nil { return nil, fmt.Errorf("failed to parse ipfs addr: %s %s", s, err) } size := CodeToVarint(len(m)) b := append(size, m...) return b, nil } return []byte{}, fmt.Errorf("failed to parse %s addr: unknown", p.Name) } func addressBytesToString(p Protocol, b []byte) (string, error) { switch p.Code { // ipv4,6 case P_IP4, P_IP6: return net.IP(b).String(), nil // tcp udp dccp sctp case P_TCP, P_UDP, P_DCCP, P_SCTP: i := binary.BigEndian.Uint16(b) return strconv.Itoa(int(i)), nil case P_IPFS: // ipfs // the address is a varint-prefixed multihash string representation size, n := ReadVarintCode(b) b = b[n:] if len(b) != size { panic("inconsistent lengths") } m, err := mh.Cast(b) if err != nil { return "", err } return m.B58String(), nil } return "", fmt.Errorf("unknown protocol") }