package json import ( "fmt" "math" "math/bits" "sort" "strings" "unicode" "unicode/utf16" "unsafe" ) type structFieldSet struct { dec decoder offset uintptr isTaggedKey bool key string keyLen int64 err error } type structDecoder struct { fieldMap map[string]*structFieldSet stringDecoder *stringDecoder structName string fieldName string isTriedOptimize bool keyBitmapUint8 [][256]uint8 keyBitmapUint16 [][256]uint16 sortedFieldSets []*structFieldSet keyDecoder func(*structDecoder, []byte, int64) (int64, *structFieldSet, error) keyStreamDecoder func(*structDecoder, *stream) (*structFieldSet, string, error) } var ( largeToSmallTable [256]byte ) func init() { for i := 0; i < 256; i++ { c := i if 'A' <= c && c <= 'Z' { c += 'a' - 'A' } largeToSmallTable[i] = byte(c) } } func newStructDecoder(structName, fieldName string, fieldMap map[string]*structFieldSet) *structDecoder { return &structDecoder{ fieldMap: fieldMap, stringDecoder: newStringDecoder(structName, fieldName), structName: structName, fieldName: fieldName, keyDecoder: decodeKey, keyStreamDecoder: decodeKeyStream, } } const ( allowOptimizeMaxKeyLen = 64 allowOptimizeMaxFieldLen = 16 ) func (d *structDecoder) tryOptimize() { if d.isTriedOptimize { return } fieldMap := map[string]*structFieldSet{} conflicted := map[string]struct{}{} for k, v := range d.fieldMap { key := strings.ToLower(k) if key != k { // already exists same key (e.g. Hello and HELLO has same lower case key if _, exists := conflicted[key]; exists { d.isTriedOptimize = true return } conflicted[key] = struct{}{} } if field, exists := fieldMap[key]; exists { if field != v { d.isTriedOptimize = true return } } fieldMap[key] = v } if len(fieldMap) > allowOptimizeMaxFieldLen { d.isTriedOptimize = true return } var maxKeyLen int sortedKeys := []string{} for key := range fieldMap { keyLen := len(key) if keyLen > allowOptimizeMaxKeyLen { d.isTriedOptimize = true return } if maxKeyLen < keyLen { maxKeyLen = keyLen } sortedKeys = append(sortedKeys, key) } sort.Strings(sortedKeys) // By allocating one extra capacity than `maxKeyLen`, // it is possible to avoid the process of comparing the index of the key with the length of the bitmap each time. bitmapLen := maxKeyLen + 1 if len(sortedKeys) <= 8 { keyBitmap := make([][256]uint8, bitmapLen) for i, key := range sortedKeys { for j := 0; j < len(key); j++ { c := key[j] keyBitmap[j][c] |= (1 << uint(i)) } d.sortedFieldSets = append(d.sortedFieldSets, fieldMap[key]) } d.keyBitmapUint8 = keyBitmap d.keyDecoder = decodeKeyByBitmapUint8 d.keyStreamDecoder = decodeKeyByBitmapUint8Stream } else { keyBitmap := make([][256]uint16, bitmapLen) for i, key := range sortedKeys { for j := 0; j < len(key); j++ { c := key[j] keyBitmap[j][c] |= (1 << uint(i)) } d.sortedFieldSets = append(d.sortedFieldSets, fieldMap[key]) } d.keyBitmapUint16 = keyBitmap d.keyDecoder = decodeKeyByBitmapUint16 d.keyStreamDecoder = decodeKeyByBitmapUint16Stream } } // decode from '\uXXXX' func decodeKeyCharByUnicodeRune(buf []byte, cursor int64) ([]byte, int64) { const defaultOffset = 4 const surrogateOffset = 6 r := unicodeToRune(buf[cursor : cursor+defaultOffset]) if utf16.IsSurrogate(r) { cursor += defaultOffset if cursor+surrogateOffset >= int64(len(buf)) || buf[cursor] != '\\' || buf[cursor+1] != 'u' { return []byte(string(unicode.ReplacementChar)), cursor + defaultOffset - 1 } cursor += 2 r2 := unicodeToRune(buf[cursor : cursor+defaultOffset]) if r := utf16.DecodeRune(r, r2); r != unicode.ReplacementChar { return []byte(string(r)), cursor + defaultOffset - 1 } } return []byte(string(r)), cursor + defaultOffset - 1 } func decodeKeyCharByEscapedChar(buf []byte, cursor int64) ([]byte, int64) { c := buf[cursor] cursor++ switch c { case '"': return []byte{'"'}, cursor case '\\': return []byte{'\\'}, cursor case '/': return []byte{'/'}, cursor case 'b': return []byte{'\b'}, cursor case 'f': return []byte{'\f'}, cursor case 'n': return []byte{'\n'}, cursor case 'r': return []byte{'\r'}, cursor case 't': return []byte{'\t'}, cursor case 'u': return decodeKeyCharByUnicodeRune(buf, cursor) } return nil, cursor } func decodeKeyByBitmapUint8(d *structDecoder, buf []byte, cursor int64) (int64, *structFieldSet, error) { var ( curBit uint8 = math.MaxUint8 ) b := (*sliceHeader)(unsafe.Pointer(&buf)).data for { switch char(b, cursor) { case ' ', '\n', '\t', '\r': cursor++ case '"': cursor++ c := char(b, cursor) switch c { case '"': cursor++ return cursor, nil, nil case nul: return 0, nil, errUnexpectedEndOfJSON("string", cursor) } keyIdx := 0 bitmap := d.keyBitmapUint8 start := cursor for { c := char(b, cursor) switch c { case '"': fieldSetIndex := bits.TrailingZeros8(curBit) field := d.sortedFieldSets[fieldSetIndex] keyLen := cursor - start cursor++ if keyLen < field.keyLen { // early match return cursor, nil, nil } return cursor, field, nil case nul: return 0, nil, errUnexpectedEndOfJSON("string", cursor) case '\\': cursor++ chars, nextCursor := decodeKeyCharByEscapedChar(buf, cursor) for _, c := range chars { curBit &= bitmap[keyIdx][largeToSmallTable[c]] if curBit == 0 { return decodeKeyNotFound(b, cursor) } keyIdx++ } cursor = nextCursor default: curBit &= bitmap[keyIdx][largeToSmallTable[c]] if curBit == 0 { return decodeKeyNotFound(b, cursor) } keyIdx++ } cursor++ } default: return cursor, nil, errNotAtBeginningOfValue(cursor) } } } func decodeKeyByBitmapUint16(d *structDecoder, buf []byte, cursor int64) (int64, *structFieldSet, error) { var ( curBit uint16 = math.MaxUint16 ) b := (*sliceHeader)(unsafe.Pointer(&buf)).data for { switch char(b, cursor) { case ' ', '\n', '\t', '\r': cursor++ case '"': cursor++ c := char(b, cursor) switch c { case '"': cursor++ return cursor, nil, nil case nul: return 0, nil, errUnexpectedEndOfJSON("string", cursor) } keyIdx := 0 bitmap := d.keyBitmapUint16 start := cursor for { c := char(b, cursor) switch c { case '"': fieldSetIndex := bits.TrailingZeros16(curBit) field := d.sortedFieldSets[fieldSetIndex] keyLen := cursor - start cursor++ if keyLen < field.keyLen { // early match return cursor, nil, nil } return cursor, field, nil case nul: return 0, nil, errUnexpectedEndOfJSON("string", cursor) case '\\': cursor++ chars, nextCursor := decodeKeyCharByEscapedChar(buf, cursor) for _, c := range chars { curBit &= bitmap[keyIdx][largeToSmallTable[c]] if curBit == 0 { return decodeKeyNotFound(b, cursor) } keyIdx++ } cursor = nextCursor default: curBit &= bitmap[keyIdx][largeToSmallTable[c]] if curBit == 0 { return decodeKeyNotFound(b, cursor) } keyIdx++ } cursor++ } default: return cursor, nil, errNotAtBeginningOfValue(cursor) } } } func decodeKeyNotFound(b unsafe.Pointer, cursor int64) (int64, *structFieldSet, error) { for { cursor++ switch char(b, cursor) { case '"': cursor++ return cursor, nil, nil case '\\': cursor++ if char(b, cursor) == nul { return 0, nil, errUnexpectedEndOfJSON("string", cursor) } case nul: return 0, nil, errUnexpectedEndOfJSON("string", cursor) } } } func decodeKey(d *structDecoder, buf []byte, cursor int64) (int64, *structFieldSet, error) { key, c, err := d.stringDecoder.decodeByte(buf, cursor) if err != nil { return 0, nil, err } cursor = c k := *(*string)(unsafe.Pointer(&key)) field, exists := d.fieldMap[k] if !exists { return cursor, nil, nil } return cursor, field, nil } func decodeKeyByBitmapUint8Stream(d *structDecoder, s *stream) (*structFieldSet, string, error) { var ( curBit uint8 = math.MaxUint8 ) _, cursor, p := s.stat() for { switch char(p, cursor) { case ' ', '\n', '\t', '\r': cursor++ case nul: s.cursor = cursor if s.read() { _, cursor, p = s.stat() continue } return nil, "", errNotAtBeginningOfValue(s.totalOffset()) case '"': cursor++ FIRST_CHAR: start := cursor switch char(p, cursor) { case '"': cursor++ s.cursor = cursor return nil, "", nil case nul: s.cursor = cursor if s.read() { _, cursor, p = s.stat() goto FIRST_CHAR } return nil, "", errUnexpectedEndOfJSON("string", s.totalOffset()) } keyIdx := 0 bitmap := d.keyBitmapUint8 for { c := char(p, cursor) switch c { case '"': fieldSetIndex := bits.TrailingZeros8(curBit) field := d.sortedFieldSets[fieldSetIndex] keyLen := cursor - start cursor++ s.cursor = cursor if keyLen < field.keyLen { // early match return nil, field.key, nil } return field, field.key, nil case nul: s.cursor = cursor if s.read() { _, cursor, p = s.stat() continue } return nil, "", errUnexpectedEndOfJSON("string", s.totalOffset()) case '\\': s.cursor = cursor + 1 // skip '\' char chars, err := decodeKeyCharByEscapeCharStream(s) if err != nil { return nil, "", err } cursor = s.cursor for _, c := range chars { curBit &= bitmap[keyIdx][largeToSmallTable[c]] if curBit == 0 { s.cursor = cursor return decodeKeyNotFoundStream(s, start) } keyIdx++ } default: curBit &= bitmap[keyIdx][largeToSmallTable[c]] if curBit == 0 { s.cursor = cursor return decodeKeyNotFoundStream(s, start) } keyIdx++ } cursor++ } default: return nil, "", errNotAtBeginningOfValue(s.totalOffset()) } } } func decodeKeyByBitmapUint16Stream(d *structDecoder, s *stream) (*structFieldSet, string, error) { var ( curBit uint16 = math.MaxUint16 ) _, cursor, p := s.stat() for { switch char(p, cursor) { case ' ', '\n', '\t', '\r': cursor++ case nul: s.cursor = cursor if s.read() { _, cursor, p = s.stat() continue } return nil, "", errNotAtBeginningOfValue(s.totalOffset()) case '"': cursor++ FIRST_CHAR: start := cursor switch char(p, cursor) { case '"': cursor++ s.cursor = cursor return nil, "", nil case nul: s.cursor = cursor if s.read() { _, cursor, p = s.stat() goto FIRST_CHAR } return nil, "", errUnexpectedEndOfJSON("string", s.totalOffset()) } keyIdx := 0 bitmap := d.keyBitmapUint16 for { c := char(p, cursor) switch c { case '"': fieldSetIndex := bits.TrailingZeros16(curBit) field := d.sortedFieldSets[fieldSetIndex] keyLen := cursor - start cursor++ s.cursor = cursor if keyLen < field.keyLen { // early match return nil, field.key, nil } return field, field.key, nil case nul: s.cursor = cursor if s.read() { _, cursor, p = s.stat() continue } return nil, "", errUnexpectedEndOfJSON("string", s.totalOffset()) case '\\': s.cursor = cursor + 1 // skip '\' char chars, err := decodeKeyCharByEscapeCharStream(s) if err != nil { return nil, "", err } cursor = s.cursor for _, c := range chars { curBit &= bitmap[keyIdx][largeToSmallTable[c]] if curBit == 0 { s.cursor = cursor return decodeKeyNotFoundStream(s, start) } keyIdx++ } default: curBit &= bitmap[keyIdx][largeToSmallTable[c]] if curBit == 0 { s.cursor = cursor return decodeKeyNotFoundStream(s, start) } keyIdx++ } cursor++ } default: return nil, "", errNotAtBeginningOfValue(s.totalOffset()) } } } // decode from '\uXXXX' func decodeKeyCharByUnicodeRuneStream(s *stream) ([]byte, error) { const defaultOffset = 4 const surrogateOffset = 6 if s.cursor+defaultOffset >= s.length { if !s.read() { return nil, errInvalidCharacter(s.char(), "escaped unicode char", s.totalOffset()) } } r := unicodeToRune(s.buf[s.cursor : s.cursor+defaultOffset]) if utf16.IsSurrogate(r) { s.cursor += defaultOffset if s.cursor+surrogateOffset >= s.length { s.read() } if s.cursor+surrogateOffset >= s.length || s.buf[s.cursor] != '\\' || s.buf[s.cursor+1] != 'u' { s.cursor += defaultOffset - 1 return []byte(string(unicode.ReplacementChar)), nil } r2 := unicodeToRune(s.buf[s.cursor+defaultOffset+2 : s.cursor+surrogateOffset]) if r := utf16.DecodeRune(r, r2); r != unicode.ReplacementChar { s.cursor += defaultOffset - 1 return []byte(string(r)), nil } } s.cursor += defaultOffset - 1 return []byte(string(r)), nil } func decodeKeyCharByEscapeCharStream(s *stream) ([]byte, error) { c := s.buf[s.cursor] s.cursor++ RETRY: switch c { case '"': return []byte{'"'}, nil case '\\': return []byte{'\\'}, nil case '/': return []byte{'/'}, nil case 'b': return []byte{'\b'}, nil case 'f': return []byte{'\f'}, nil case 'n': return []byte{'\n'}, nil case 'r': return []byte{'\r'}, nil case 't': return []byte{'\t'}, nil case 'u': return decodeKeyCharByUnicodeRuneStream(s) case nul: if !s.read() { return nil, errInvalidCharacter(s.char(), "escaped char", s.totalOffset()) } goto RETRY default: return nil, errUnexpectedEndOfJSON("struct field", s.totalOffset()) } } func decodeKeyNotFoundStream(s *stream, start int64) (*structFieldSet, string, error) { buf, cursor, p := s.stat() for { cursor++ switch char(p, cursor) { case '"': b := buf[start:cursor] key := *(*string)(unsafe.Pointer(&b)) cursor++ s.cursor = cursor return nil, key, nil case '\\': cursor++ if char(p, cursor) == nul { s.cursor = cursor if !s.read() { return nil, "", errUnexpectedEndOfJSON("string", s.totalOffset()) } buf, cursor, p = s.statForRetry() } case nul: s.cursor = cursor if !s.read() { return nil, "", errUnexpectedEndOfJSON("string", s.totalOffset()) } buf, cursor, p = s.statForRetry() } } } func decodeKeyStream(d *structDecoder, s *stream) (*structFieldSet, string, error) { key, err := d.stringDecoder.decodeStreamByte(s) if err != nil { return nil, "", err } k := *(*string)(unsafe.Pointer(&key)) return d.fieldMap[k], k, nil } func (d *structDecoder) decodeStream(s *stream, depth int64, p unsafe.Pointer) error { depth++ if depth > maxDecodeNestingDepth { return errExceededMaxDepth(s.char(), s.cursor) } s.skipWhiteSpace() switch s.char() { case 'n': if err := nullBytes(s); err != nil { return err } return nil case nul: s.read() default: if s.char() != '{' { return errNotAtBeginningOfValue(s.totalOffset()) } } s.cursor++ s.skipWhiteSpace() if s.char() == '}' { s.cursor++ return nil } for { s.reset() field, key, err := d.keyStreamDecoder(d, s) if err != nil { return err } s.skipWhiteSpace() if s.char() != ':' { return errExpected("colon after object key", s.totalOffset()) } s.cursor++ if s.char() == nul { if !s.read() { return errExpected("object value after colon", s.totalOffset()) } } if field != nil { if field.err != nil { return field.err } if err := field.dec.decodeStream(s, depth, unsafe.Pointer(uintptr(p)+field.offset)); err != nil { return err } } else if s.disallowUnknownFields { return fmt.Errorf("json: unknown field %q", key) } else { if err := s.skipValue(depth); err != nil { return err } } s.skipWhiteSpace() c := s.char() if c == '}' { s.cursor++ return nil } if c != ',' { return errExpected("comma after object element", s.totalOffset()) } s.cursor++ } } func (d *structDecoder) decode(buf []byte, cursor, depth int64, p unsafe.Pointer) (int64, error) { depth++ if depth > maxDecodeNestingDepth { return 0, errExceededMaxDepth(buf[cursor], cursor) } buflen := int64(len(buf)) cursor = skipWhiteSpace(buf, cursor) b := (*sliceHeader)(unsafe.Pointer(&buf)).data switch char(b, cursor) { case 'n': if err := validateNull(buf, cursor); err != nil { return 0, err } cursor += 4 return cursor, nil case '{': default: return 0, errNotAtBeginningOfValue(cursor) } cursor++ cursor = skipWhiteSpace(buf, cursor) if buf[cursor] == '}' { cursor++ return cursor, nil } for { c, field, err := d.keyDecoder(d, buf, cursor) if err != nil { return 0, err } cursor = skipWhiteSpace(buf, c) if char(b, cursor) != ':' { return 0, errExpected("colon after object key", cursor) } cursor++ if cursor >= buflen { return 0, errExpected("object value after colon", cursor) } if field != nil { if field.err != nil { return 0, field.err } c, err := field.dec.decode(buf, cursor, depth, unsafe.Pointer(uintptr(p)+field.offset)) if err != nil { return 0, err } cursor = c } else { c, err := skipValue(buf, cursor, depth) if err != nil { return 0, err } cursor = c } cursor = skipWhiteSpace(buf, cursor) if char(b, cursor) == '}' { cursor++ return cursor, nil } if char(b, cursor) != ',' { return 0, errExpected("comma after object element", cursor) } cursor++ } }