package binary import ( "fmt" "math" "strconv" "go.mau.fi/whatsmeow/binary/token" "go.mau.fi/whatsmeow/types" ) type binaryEncoder struct { data []byte } func newEncoder() *binaryEncoder { return &binaryEncoder{[]byte{0}} } func (w *binaryEncoder) getData() []byte { return w.data } func (w *binaryEncoder) pushByte(b byte) { w.data = append(w.data, b) } func (w *binaryEncoder) pushBytes(bytes []byte) { w.data = append(w.data, bytes...) } func (w *binaryEncoder) pushIntN(value, n int, littleEndian bool) { for i := 0; i < n; i++ { var curShift int if littleEndian { curShift = i } else { curShift = n - i - 1 } w.pushByte(byte((value >> uint(curShift*8)) & 0xFF)) } } func (w *binaryEncoder) pushInt20(value int) { w.pushBytes([]byte{byte((value >> 16) & 0x0F), byte((value >> 8) & 0xFF), byte(value & 0xFF)}) } func (w *binaryEncoder) pushInt8(value int) { w.pushIntN(value, 1, false) } func (w *binaryEncoder) pushInt16(value int) { w.pushIntN(value, 2, false) } func (w *binaryEncoder) pushInt32(value int) { w.pushIntN(value, 4, false) } func (w *binaryEncoder) pushString(value string) { w.pushBytes([]byte(value)) } func (w *binaryEncoder) writeByteLength(length int) { if length < 256 { w.pushByte(token.Binary8) w.pushInt8(length) } else if length < (1 << 20) { w.pushByte(token.Binary20) w.pushInt20(length) } else if length < math.MaxInt32 { w.pushByte(token.Binary32) w.pushInt32(length) } else { panic(fmt.Errorf("length is too large: %d", length)) } } const tagSize = 1 func (w *binaryEncoder) writeNode(n Node) { if n.Tag == "0" { w.pushByte(token.List8) w.pushByte(token.ListEmpty) return } hasContent := 0 if n.Content != nil { hasContent = 1 } w.writeListStart(2*len(n.Attrs) + tagSize + hasContent) w.writeString(n.Tag) w.writeAttributes(n.Attrs) if n.Content != nil { w.write(n.Content) } } func (w *binaryEncoder) write(data interface{}) { switch typedData := data.(type) { case nil: w.pushByte(token.ListEmpty) case types.JID: w.writeJID(typedData) case string: w.writeString(typedData) case int: w.writeString(strconv.Itoa(typedData)) case int32: w.writeString(strconv.FormatInt(int64(typedData), 10)) case uint: w.writeString(strconv.FormatUint(uint64(typedData), 10)) case uint32: w.writeString(strconv.FormatUint(uint64(typedData), 10)) case int64: w.writeString(strconv.FormatInt(typedData, 10)) case uint64: w.writeString(strconv.FormatUint(typedData, 10)) case bool: w.writeString(strconv.FormatBool(typedData)) case []byte: w.writeBytes(typedData) case []Node: w.writeListStart(len(typedData)) for _, n := range typedData { w.writeNode(n) } default: panic(fmt.Errorf("%w: %T", ErrInvalidType, typedData)) } } func (w *binaryEncoder) writeString(data string) { var dictIndex byte if tokenIndex, ok := token.IndexOfSingleToken(data); ok { w.pushByte(tokenIndex) } else if dictIndex, tokenIndex, ok = token.IndexOfDoubleByteToken(data); ok { w.pushByte(token.Dictionary0 + dictIndex) w.pushByte(tokenIndex) } else if validateNibble(data) { w.writePackedBytes(data, token.Nibble8) } else if validateHex(data) { w.writePackedBytes(data, token.Hex8) } else { w.writeStringRaw(data) } } func (w *binaryEncoder) writeBytes(value []byte) { w.writeByteLength(len(value)) w.pushBytes(value) } func (w *binaryEncoder) writeStringRaw(value string) { w.writeByteLength(len(value)) w.pushString(value) } func (w *binaryEncoder) writeJID(jid types.JID) { if (jid.Server == types.DefaultUserServer && jid.Device > 0) || jid.Server == types.HiddenUserServer || jid.Server == types.HostedServer { w.pushByte(token.ADJID) w.pushByte(jid.ActualAgent()) w.pushByte(uint8(jid.Device)) w.writeString(jid.User) } else if jid.Server == types.MessengerServer { w.pushByte(token.FBJID) w.write(jid.User) w.pushInt16(int(jid.Device)) w.write(jid.Server) } else if jid.Server == types.InteropServer { w.pushByte(token.InteropJID) w.write(jid.User) w.pushInt16(int(jid.Device)) w.pushInt16(int(jid.Integrator)) w.write(jid.Server) } else { w.pushByte(token.JIDPair) if len(jid.User) == 0 { w.pushByte(token.ListEmpty) } else { w.write(jid.User) } w.write(jid.Server) } } func (w *binaryEncoder) writeAttributes(attributes Attrs) { if attributes == nil { return } for key, val := range attributes { if val == "" || val == nil { continue } w.writeString(key) w.write(val) } } func (w *binaryEncoder) writeListStart(listSize int) { if listSize == 0 { w.pushByte(byte(token.ListEmpty)) } else if listSize < 256 { w.pushByte(byte(token.List8)) w.pushInt8(listSize) } else { w.pushByte(byte(token.List16)) w.pushInt16(listSize) } } func (w *binaryEncoder) writePackedBytes(value string, dataType int) { if len(value) > token.PackedMax { panic(fmt.Errorf("too many bytes to pack: %d", len(value))) } w.pushByte(byte(dataType)) roundedLength := byte(math.Ceil(float64(len(value)) / 2.0)) if len(value)%2 != 0 { roundedLength |= 128 } w.pushByte(roundedLength) var packer func(byte) byte if dataType == token.Nibble8 { packer = packNibble } else if dataType == token.Hex8 { packer = packHex } else { // This should only be called with the correct values panic(fmt.Errorf("invalid packed byte data type %v", dataType)) } for i, l := 0, len(value)/2; i < l; i++ { w.pushByte(w.packBytePair(packer, value[2*i], value[2*i+1])) } if len(value)%2 != 0 { w.pushByte(w.packBytePair(packer, value[len(value)-1], '\x00')) } } func (w *binaryEncoder) packBytePair(packer func(byte) byte, part1, part2 byte) byte { return (packer(part1) << 4) | packer(part2) } func validateNibble(value string) bool { if len(value) > token.PackedMax { return false } for _, char := range value { if !(char >= '0' && char <= '9') && char != '-' && char != '.' { return false } } return true } func packNibble(value byte) byte { switch value { case '-': return 10 case '.': return 11 case 0: return 15 default: if value >= '0' && value <= '9' { return value - '0' } // This should be validated beforehand panic(fmt.Errorf("invalid string to pack as nibble: %d / '%s'", value, string(value))) } } func validateHex(value string) bool { if len(value) > token.PackedMax { return false } for _, char := range value { if !(char >= '0' && char <= '9') && !(char >= 'A' && char <= 'F') && !(char >= 'a' && char <= 'f') { return false } } return true } func packHex(value byte) byte { switch { case value >= '0' && value <= '9': return value - '0' case value >= 'A' && value <= 'F': return 10 + value - 'A' case value >= 'a' && value <= 'f': return 10 + value - 'a' case value == 0: return 15 default: // This should be validated beforehand panic(fmt.Errorf("invalid string to pack as hex: %d / '%s'", value, string(value))) } }