package common import "bytes" import "fmt" import "regexp" import "sort" func MetadataEncodeHttp (_metadata map[string]string) ([]byte, error) { if len (_metadata) > 128 { return nil, fmt.Errorf ("[c56fce8f] invalid metadata: too large!") } _metadataArray := make ([][2]string, 0, len (_metadata)) for _key, _value := range _metadata { if _value == "" { continue } _metadataArray = append (_metadataArray, [2]string {_key, _value}) } sort.Slice (_metadataArray, func (i int, j int) (bool) { return _metadataArray[i][0] < _metadataArray[j][0] }) _buffer := & bytes.Buffer {} for _, _metadata := range _metadataArray { _key := _metadata[0] _value := _metadata[1] if ! metadataKeyRegex.MatchString (_key) { return nil, fmt.Errorf ("[2f761e02] invalid metadata key: `%s`", _key) } if ! metadataValueRegex.MatchString (_value) { return nil, fmt.Errorf ("[e8faf5bd] invalid metadata value: `%s`", _value) } _buffer.Write ([]byte (_key)) _buffer.Write ([]byte (": ")) _buffer.Write ([]byte (_value)) _buffer.Write ([]byte ("\r\n")) } _data := _buffer.Bytes () return _data, nil } func MetadataDecodeHttp (_data []byte) ([][2]string, error) { _metadata := make ([][2]string, 0, 16) _metadataAppend := func (_key []byte, _value []byte) () { _metadata = append (_metadata, [2]string { string (_key), string (_value) }) } if _error := MetadataDecodeHttpIterate (_data, _metadataAppend); _error != nil { return nil, _error } else { return _metadata, nil } } func MetadataDecodeHttpIterate (_data []byte, _callback func ([]byte, []byte) ()) (error) { _dataSize := len (_data) _headerOffset := 0 for { if _headerOffset == _dataSize { return nil } _data := _data[_headerOffset :] _headerLimit := bytes.Index (_data, []byte ("\r\n")) if (_headerLimit == -1) { return fmt.Errorf ("[2d0d442a] invalid metadata encoding") } _data = _data[: _headerLimit] _separator := bytes.Index (_data, []byte (": ")) if _separator == -1 { return fmt.Errorf ("[41f3756c] invalid metadata encoding") } _key := _data[: _separator] _value := _data[_separator + 2 :] if _separator == 0 { return fmt.Errorf ("[c3f5e8f3] invalid metadata encoding (empty key)") } if _separator == (_headerLimit - 2) { return fmt.Errorf ("[d6a923b6] invalid metadata encoding (empty value)") } _callback (_key, _value) _headerOffset += _headerLimit + 2 } } func MetadataEncodeBinary (_metadata map[string]string) ([]byte, error) { if len (_metadata) > 128 { return nil, fmt.Errorf ("[2249daa0] invalid metadata: too large!") } _metadataArray := make ([][2]string, 0, len (_metadata)) for _key, _value := range _metadata { if _value == "" { continue } _metadataArray = append (_metadataArray, [2]string {_key, _value}) } sort.Slice (_metadataArray, func (i int, j int) (bool) { return _metadataArray[i][0] < _metadataArray[j][0] }) _buffer := & bytes.Buffer {} for _, _metadata := range _metadataArray { _key := _metadata[0] _value := _metadata[1] if ! metadataKeyRegex.MatchString (_key) { return nil, fmt.Errorf ("[9c53ceb6] invalid metadata key: `%s`", _key) } if ! metadataValueRegex.MatchString (_value) { return nil, fmt.Errorf ("[f932f38f] invalid metadata value: `%s`", _value) } _keyId, _keyFound := CanonicalHeaderNamesToKey[_key] _valueId, _valueFound := CanonicalHeaderValuesToKey[_value] if !_keyFound { return nil, fmt.Errorf ("[a2a62863] invalid metadata key: `%s` (not canonical)", _key) } if !_valueFound { return nil, fmt.Errorf ("[5ed34411] invalid metadata value: `%s` (not canonical)", _value) } var _pairBuffer [16]byte if _error := EncodeKeysPairToBytes_0 (NamespaceHeaderName, _keyId, NamespaceHeaderValue, _valueId, _pairBuffer[:]); _error != nil { return nil, _error } _buffer.Write (_pairBuffer[:]) } _data := _buffer.Bytes () return _data, nil } func MetadataDecodeBinary (_data []byte) ([][2]string, error) { _metadata := make ([][2]string, 0, 16) _metadataAppend := func (_key []byte, _value []byte) () { _metadata = append (_metadata, [2]string { string (_key), string (_value) }) } if _error := MetadataDecodeBinaryIterate (_data, _metadataAppend); _error != nil { return nil, _error } else { return _metadata, nil } } func MetadataDecodeBinaryIterate (_data []byte, _callback func ([]byte, []byte) ()) (error) { _dataLimit := len (_data) _dataOffset := 0 for { _sliceSize := _dataLimit - _dataOffset if _sliceSize == 0 { return nil } _slice := _data[_dataOffset:] if _slice[0] != NamespaceHeaderNamePrefix { return fmt.Errorf ("[f49c93cb] invalid metadata encoding") } if _sliceSize < 8 { return fmt.Errorf ("[e8d008dc] invalid metadata encoding") } var _key []byte if _key_0, _found := CanonicalHeaderNamesFromKey[DecodeKey_9 (_slice[0:8])]; _found { _key = StringToBytes (_key_0) } else { return fmt.Errorf ("[7aa09c0f] invalid metadata encoding") } _dataOffset += 8 _sliceSize = _dataLimit - _dataOffset if _sliceSize == 0 { return fmt.Errorf ("[77c8bef7] invalid metadata encoding") } _slice = _data[_dataOffset:] if _slice[0] != NamespaceHeaderValuePrefix { return fmt.Errorf ("[2b43651c] invalid metadata encoding") } if _sliceSize < 8 { return fmt.Errorf ("[7cd40b03] invalid metadata encoding") } var _value []byte if _value_0, _found := CanonicalHeaderValuesFromKey[DecodeKey_9 (_slice[0:8])]; _found { _value = StringToBytes (_value_0) } else { return fmt.Errorf ("[334e65ef] invalid metadata encoding") } _dataOffset += 8 _callback (_key, _value) } } var metadataKeyRegex = regexp.MustCompile (`\A(?:[A-Z0-9](?:[a-z0-9]?[a-z]+)(?:-[A-Z0-9](?:[a-z0-9]?[a-z]+))*)|ETag\z`) var metadataValueRegex = regexp.MustCompile (`\A[[:graph:]](?: ?[[:graph:]]+)*\z`)