package maxminddb import ( "encoding/binary" "math" "math/big" "reflect" "sync" ) type decoder struct { buffer []byte } type dataType int const ( _Extended dataType = iota _Pointer _String _Float64 _Bytes _Uint16 _Uint32 _Map _Int32 _Uint64 _Uint128 _Slice // We don't use the next two. They are placeholders. See the spec // for more details. _Container // nolint: deadcode, varcheck _Marker // nolint: deadcode, varcheck _Bool _Float32 ) const ( // This is the value used in libmaxminddb maximumDataStructureDepth = 512 ) func (d *decoder) decode(offset uint, result reflect.Value, depth int) (uint, error) { if depth > maximumDataStructureDepth { return 0, newInvalidDatabaseError("exceeded maximum data structure depth; database is likely corrupt") } typeNum, size, newOffset, err := d.decodeCtrlData(offset) if err != nil { return 0, err } if typeNum != _Pointer && result.Kind() == reflect.Uintptr { result.Set(reflect.ValueOf(uintptr(offset))) return d.nextValueOffset(offset, 1) } return d.decodeFromType(typeNum, size, newOffset, result, depth+1) } func (d *decoder) decodeCtrlData(offset uint) (dataType, uint, uint, error) { newOffset := offset + 1 if offset >= uint(len(d.buffer)) { return 0, 0, 0, newOffsetError() } ctrlByte := d.buffer[offset] typeNum := dataType(ctrlByte >> 5) if typeNum == _Extended { if newOffset >= uint(len(d.buffer)) { return 0, 0, 0, newOffsetError() } typeNum = dataType(d.buffer[newOffset] + 7) newOffset++ } var size uint size, newOffset, err := d.sizeFromCtrlByte(ctrlByte, newOffset, typeNum) return typeNum, size, newOffset, err } func (d *decoder) sizeFromCtrlByte(ctrlByte byte, offset uint, typeNum dataType) (uint, uint, error) { size := uint(ctrlByte & 0x1f) if typeNum == _Extended { return size, offset, nil } var bytesToRead uint if size < 29 { return size, offset, nil } bytesToRead = size - 28 newOffset := offset + bytesToRead if newOffset > uint(len(d.buffer)) { return 0, 0, newOffsetError() } if size == 29 { return 29 + uint(d.buffer[offset]), offset + 1, nil } sizeBytes := d.buffer[offset:newOffset] switch { case size == 30: size = 285 + uintFromBytes(0, sizeBytes) case size > 30: size = uintFromBytes(0, sizeBytes) + 65821 } return size, newOffset, nil } func (d *decoder) decodeFromType( dtype dataType, size uint, offset uint, result reflect.Value, depth int, ) (uint, error) { result = d.indirect(result) // For these types, size has a special meaning switch dtype { case _Bool: return d.unmarshalBool(size, offset, result) case _Map: return d.unmarshalMap(size, offset, result, depth) case _Pointer: return d.unmarshalPointer(size, offset, result, depth) case _Slice: return d.unmarshalSlice(size, offset, result, depth) } // For the remaining types, size is the byte size if offset+size > uint(len(d.buffer)) { return 0, newOffsetError() } switch dtype { case _Bytes: return d.unmarshalBytes(size, offset, result) case _Float32: return d.unmarshalFloat32(size, offset, result) case _Float64: return d.unmarshalFloat64(size, offset, result) case _Int32: return d.unmarshalInt32(size, offset, result) case _String: return d.unmarshalString(size, offset, result) case _Uint16: return d.unmarshalUint(size, offset, result, 16) case _Uint32: return d.unmarshalUint(size, offset, result, 32) case _Uint64: return d.unmarshalUint(size, offset, result, 64) case _Uint128: return d.unmarshalUint128(size, offset, result) default: return 0, newInvalidDatabaseError("unknown type: %d", dtype) } } func (d *decoder) unmarshalBool(size uint, offset uint, result reflect.Value) (uint, error) { if size > 1 { return 0, newInvalidDatabaseError("the MaxMind DB file's data section contains bad data (bool size of %v)", size) } value, newOffset := d.decodeBool(size, offset) switch result.Kind() { case reflect.Bool: result.SetBool(value) return newOffset, nil case reflect.Interface: if result.NumMethod() == 0 { result.Set(reflect.ValueOf(value)) return newOffset, nil } } return newOffset, newUnmarshalTypeError(value, result.Type()) } // indirect follows pointers and create values as necessary. This is // heavily based on encoding/json as my original version had a subtle // bug. This method should be considered to be licensed under // https://golang.org/LICENSE func (d *decoder) indirect(result reflect.Value) reflect.Value { for { // Load value from interface, but only if the result will be // usefully addressable. if result.Kind() == reflect.Interface && !result.IsNil() { e := result.Elem() if e.Kind() == reflect.Ptr && !e.IsNil() { result = e continue } } if result.Kind() != reflect.Ptr { break } if result.IsNil() { result.Set(reflect.New(result.Type().Elem())) } result = result.Elem() } return result } var sliceType = reflect.TypeOf([]byte{}) func (d *decoder) unmarshalBytes(size uint, offset uint, result reflect.Value) (uint, error) { value, newOffset := d.decodeBytes(size, offset) switch result.Kind() { case reflect.Slice: if result.Type() == sliceType { result.SetBytes(value) return newOffset, nil } case reflect.Interface: if result.NumMethod() == 0 { result.Set(reflect.ValueOf(value)) return newOffset, nil } } return newOffset, newUnmarshalTypeError(value, result.Type()) } func (d *decoder) unmarshalFloat32(size uint, offset uint, result reflect.Value) (uint, error) { if size != 4 { return 0, newInvalidDatabaseError("the MaxMind DB file's data section contains bad data (float32 size of %v)", size) } value, newOffset := d.decodeFloat32(size, offset) switch result.Kind() { case reflect.Float32, reflect.Float64: result.SetFloat(float64(value)) return newOffset, nil case reflect.Interface: if result.NumMethod() == 0 { result.Set(reflect.ValueOf(value)) return newOffset, nil } } return newOffset, newUnmarshalTypeError(value, result.Type()) } func (d *decoder) unmarshalFloat64(size uint, offset uint, result reflect.Value) (uint, error) { if size != 8 { return 0, newInvalidDatabaseError("the MaxMind DB file's data section contains bad data (float 64 size of %v)", size) } value, newOffset := d.decodeFloat64(size, offset) switch result.Kind() { case reflect.Float32, reflect.Float64: if result.OverflowFloat(value) { return 0, newUnmarshalTypeError(value, result.Type()) } result.SetFloat(value) return newOffset, nil case reflect.Interface: if result.NumMethod() == 0 { result.Set(reflect.ValueOf(value)) return newOffset, nil } } return newOffset, newUnmarshalTypeError(value, result.Type()) } func (d *decoder) unmarshalInt32(size uint, offset uint, result reflect.Value) (uint, error) { if size > 4 { return 0, newInvalidDatabaseError("the MaxMind DB file's data section contains bad data (int32 size of %v)", size) } value, newOffset := d.decodeInt(size, offset) switch result.Kind() { case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: n := int64(value) if !result.OverflowInt(n) { result.SetInt(n) return newOffset, nil } case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr: n := uint64(value) if !result.OverflowUint(n) { result.SetUint(n) return newOffset, nil } case reflect.Interface: if result.NumMethod() == 0 { result.Set(reflect.ValueOf(value)) return newOffset, nil } } return newOffset, newUnmarshalTypeError(value, result.Type()) } func (d *decoder) unmarshalMap( size uint, offset uint, result reflect.Value, depth int, ) (uint, error) { result = d.indirect(result) switch result.Kind() { default: return 0, newUnmarshalTypeError("map", result.Type()) case reflect.Struct: return d.decodeStruct(size, offset, result, depth) case reflect.Map: return d.decodeMap(size, offset, result, depth) case reflect.Interface: if result.NumMethod() == 0 { rv := reflect.ValueOf(make(map[string]interface{}, size)) newOffset, err := d.decodeMap(size, offset, rv, depth) result.Set(rv) return newOffset, err } return 0, newUnmarshalTypeError("map", result.Type()) } } func (d *decoder) unmarshalPointer(size uint, offset uint, result reflect.Value, depth int) (uint, error) { pointer, newOffset, err := d.decodePointer(size, offset) if err != nil { return 0, err } _, err = d.decode(pointer, result, depth) return newOffset, err } func (d *decoder) unmarshalSlice( size uint, offset uint, result reflect.Value, depth int, ) (uint, error) { switch result.Kind() { case reflect.Slice: return d.decodeSlice(size, offset, result, depth) case reflect.Interface: if result.NumMethod() == 0 { a := []interface{}{} rv := reflect.ValueOf(&a).Elem() newOffset, err := d.decodeSlice(size, offset, rv, depth) result.Set(rv) return newOffset, err } } return 0, newUnmarshalTypeError("array", result.Type()) } func (d *decoder) unmarshalString(size uint, offset uint, result reflect.Value) (uint, error) { value, newOffset := d.decodeString(size, offset) switch result.Kind() { case reflect.String: result.SetString(value) return newOffset, nil case reflect.Interface: if result.NumMethod() == 0 { result.Set(reflect.ValueOf(value)) return newOffset, nil } } return newOffset, newUnmarshalTypeError(value, result.Type()) } func (d *decoder) unmarshalUint(size uint, offset uint, result reflect.Value, uintType uint) (uint, error) { if size > uintType/8 { return 0, newInvalidDatabaseError("the MaxMind DB file's data section contains bad data (uint%v size of %v)", uintType, size) } value, newOffset := d.decodeUint(size, offset) switch result.Kind() { case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: n := int64(value) if !result.OverflowInt(n) { result.SetInt(n) return newOffset, nil } case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr: if !result.OverflowUint(value) { result.SetUint(value) return newOffset, nil } case reflect.Interface: if result.NumMethod() == 0 { result.Set(reflect.ValueOf(value)) return newOffset, nil } } return newOffset, newUnmarshalTypeError(value, result.Type()) } var bigIntType = reflect.TypeOf(big.Int{}) func (d *decoder) unmarshalUint128(size uint, offset uint, result reflect.Value) (uint, error) { if size > 16 { return 0, newInvalidDatabaseError("the MaxMind DB file's data section contains bad data (uint128 size of %v)", size) } value, newOffset := d.decodeUint128(size, offset) switch result.Kind() { case reflect.Struct: if result.Type() == bigIntType { result.Set(reflect.ValueOf(*value)) return newOffset, nil } case reflect.Interface: if result.NumMethod() == 0 { result.Set(reflect.ValueOf(value)) return newOffset, nil } } return newOffset, newUnmarshalTypeError(value, result.Type()) } func (d *decoder) decodeBool(size uint, offset uint) (bool, uint) { return size != 0, offset } func (d *decoder) decodeBytes(size uint, offset uint) ([]byte, uint) { newOffset := offset + size bytes := make([]byte, size) copy(bytes, d.buffer[offset:newOffset]) return bytes, newOffset } func (d *decoder) decodeFloat64(size uint, offset uint) (float64, uint) { newOffset := offset + size bits := binary.BigEndian.Uint64(d.buffer[offset:newOffset]) return math.Float64frombits(bits), newOffset } func (d *decoder) decodeFloat32(size uint, offset uint) (float32, uint) { newOffset := offset + size bits := binary.BigEndian.Uint32(d.buffer[offset:newOffset]) return math.Float32frombits(bits), newOffset } func (d *decoder) decodeInt(size uint, offset uint) (int, uint) { newOffset := offset + size var val int32 for _, b := range d.buffer[offset:newOffset] { val = (val << 8) | int32(b) } return int(val), newOffset } func (d *decoder) decodeMap( size uint, offset uint, result reflect.Value, depth int, ) (uint, error) { if result.IsNil() { result.Set(reflect.MakeMapWithSize(result.Type(), int(size))) } mapType := result.Type() keyValue := reflect.New(mapType.Key()).Elem() elemType := mapType.Elem() elemKind := elemType.Kind() var elemValue reflect.Value for i := uint(0); i < size; i++ { var key []byte var err error key, offset, err = d.decodeKey(offset) if err != nil { return 0, err } if !elemValue.IsValid() || elemKind == reflect.Interface { elemValue = reflect.New(elemType).Elem() } offset, err = d.decode(offset, elemValue, depth) if err != nil { return 0, err } keyValue.SetString(string(key)) result.SetMapIndex(keyValue, elemValue) } return offset, nil } func (d *decoder) decodePointer( size uint, offset uint, ) (uint, uint, error) { pointerSize := ((size >> 3) & 0x3) + 1 newOffset := offset + pointerSize if newOffset > uint(len(d.buffer)) { return 0, 0, newOffsetError() } pointerBytes := d.buffer[offset:newOffset] var prefix uint if pointerSize == 4 { prefix = 0 } else { prefix = size & 0x7 } unpacked := uintFromBytes(prefix, pointerBytes) var pointerValueOffset uint switch pointerSize { case 1: pointerValueOffset = 0 case 2: pointerValueOffset = 2048 case 3: pointerValueOffset = 526336 case 4: pointerValueOffset = 0 } pointer := unpacked + pointerValueOffset return pointer, newOffset, nil } func (d *decoder) decodeSlice( size uint, offset uint, result reflect.Value, depth int, ) (uint, error) { result.Set(reflect.MakeSlice(result.Type(), int(size), int(size))) for i := 0; i < int(size); i++ { var err error offset, err = d.decode(offset, result.Index(i), depth) if err != nil { return 0, err } } return offset, nil } func (d *decoder) decodeString(size uint, offset uint) (string, uint) { newOffset := offset + size return string(d.buffer[offset:newOffset]), newOffset } func (d *decoder) decodeStruct( size uint, offset uint, result reflect.Value, depth int, ) (uint, error) { fields := cachedFields(result) // This fills in embedded structs for _, i := range fields.anonymousFields { _, err := d.unmarshalMap(size, offset, result.Field(i), depth) if err != nil { return 0, err } } // This handles named fields for i := uint(0); i < size; i++ { var ( err error key []byte ) key, offset, err = d.decodeKey(offset) if err != nil { return 0, err } // The string() does not create a copy due to this compiler // optimization: https://github.com/golang/go/issues/3512 j, ok := fields.namedFields[string(key)] if !ok { offset, err = d.nextValueOffset(offset, 1) if err != nil { return 0, err } continue } offset, err = d.decode(offset, result.Field(j), depth) if err != nil { return 0, err } } return offset, nil } type fieldsType struct { namedFields map[string]int anonymousFields []int } var fieldsMap sync.Map func cachedFields(result reflect.Value) *fieldsType { resultType := result.Type() if fields, ok := fieldsMap.Load(resultType); ok { return fields.(*fieldsType) } numFields := resultType.NumField() namedFields := make(map[string]int, numFields) var anonymous []int for i := 0; i < numFields; i++ { field := resultType.Field(i) fieldName := field.Name if tag := field.Tag.Get("maxminddb"); tag != "" { if tag == "-" { continue } fieldName = tag } if field.Anonymous { anonymous = append(anonymous, i) continue } namedFields[fieldName] = i } fields := &fieldsType{namedFields, anonymous} fieldsMap.Store(resultType, fields) return fields } func (d *decoder) decodeUint(size uint, offset uint) (uint64, uint) { newOffset := offset + size bytes := d.buffer[offset:newOffset] var val uint64 for _, b := range bytes { val = (val << 8) | uint64(b) } return val, newOffset } func (d *decoder) decodeUint128(size uint, offset uint) (*big.Int, uint) { newOffset := offset + size val := new(big.Int) val.SetBytes(d.buffer[offset:newOffset]) return val, newOffset } func uintFromBytes(prefix uint, uintBytes []byte) uint { val := prefix for _, b := range uintBytes { val = (val << 8) | uint(b) } return val } // decodeKey decodes a map key into []byte slice. We use a []byte so that we // can take advantage of https://github.com/golang/go/issues/3512 to avoid // copying the bytes when decoding a struct. Previously, we achieved this by // using unsafe. func (d *decoder) decodeKey(offset uint) ([]byte, uint, error) { typeNum, size, dataOffset, err := d.decodeCtrlData(offset) if err != nil { return nil, 0, err } if typeNum == _Pointer { pointer, ptrOffset, err := d.decodePointer(size, dataOffset) if err != nil { return nil, 0, err } key, _, err := d.decodeKey(pointer) return key, ptrOffset, err } if typeNum != _String { return nil, 0, newInvalidDatabaseError("unexpected type when decoding string: %v", typeNum) } newOffset := dataOffset + size if newOffset > uint(len(d.buffer)) { return nil, 0, newOffsetError() } return d.buffer[dataOffset:newOffset], newOffset, nil } // This function is used to skip ahead to the next value without decoding // the one at the offset passed in. The size bits have different meanings for // different data types func (d *decoder) nextValueOffset(offset uint, numberToSkip uint) (uint, error) { if numberToSkip == 0 { return offset, nil } typeNum, size, offset, err := d.decodeCtrlData(offset) if err != nil { return 0, err } switch typeNum { case _Pointer: _, offset, err = d.decodePointer(size, offset) if err != nil { return 0, err } case _Map: numberToSkip += 2 * size case _Slice: numberToSkip += size case _Bool: default: offset += size } return d.nextValueOffset(offset, numberToSkip-1) }