package logstorage import ( "fmt" "strconv" "github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil" "github.com/VictoriaMetrics/VictoriaMetrics/lib/encoding" ) // Field is a single field for the log entry. type Field struct { // Name is the name of the field Name string // Value is the value of the field Value string } // Reset resets f for future re-use. func (f *Field) Reset() { f.Name = "" f.Value = "" } // String returns string representation of f. func (f *Field) String() string { x := f.marshalToJSON(nil) return string(x) } func (f *Field) marshal(dst []byte) []byte { dst = encoding.MarshalBytes(dst, bytesutil.ToUnsafeBytes(f.Name)) dst = encoding.MarshalBytes(dst, bytesutil.ToUnsafeBytes(f.Value)) return dst } func (f *Field) unmarshal(a *arena, src []byte) ([]byte, error) { srcOrig := src // Unmarshal field name b, nSize := encoding.UnmarshalBytes(src) if nSize <= 0 { return srcOrig, fmt.Errorf("cannot unmarshal field name") } src = src[nSize:] f.Name = a.copyBytesToString(b) // Unmarshal field value b, nSize = encoding.UnmarshalBytes(src) if nSize <= 0 { return srcOrig, fmt.Errorf("cannot unmarshal field value") } src = src[nSize:] f.Value = a.copyBytesToString(b) return src, nil } func (f *Field) marshalToJSON(dst []byte) []byte { dst = strconv.AppendQuote(dst, f.Name) dst = append(dst, ':') dst = strconv.AppendQuote(dst, f.Value) return dst } func (f *Field) marshalToLogfmt(dst []byte) []byte { dst = append(dst, f.Name...) dst = append(dst, '=') if needLogfmtQuoting(f.Value) { dst = strconv.AppendQuote(dst, f.Value) } else { dst = append(dst, f.Value...) } return dst } func needLogfmtQuoting(s string) bool { for _, c := range s { if !isTokenRune(c) { return true } } return false } // MarshalFieldsToJSON appends JSON-marshaled fields to dst and returns the result. func MarshalFieldsToJSON(dst []byte, fields []Field) []byte { dst = append(dst, '{') if len(fields) > 0 { dst = fields[0].marshalToJSON(dst) fields = fields[1:] for i := range fields { dst = append(dst, ',') dst = fields[i].marshalToJSON(dst) } } dst = append(dst, '}') return dst } // MarshalFieldsToLogfmt appends logfmt-marshaled fields to dst and returns the result. func MarshalFieldsToLogfmt(dst []byte, fields []Field) []byte { if len(fields) == 0 { return dst } dst = fields[0].marshalToLogfmt(dst) fields = fields[1:] for i := range fields { dst = append(dst, ' ') dst = fields[i].marshalToLogfmt(dst) } return dst } func appendFields(a *arena, dst, src []Field) []Field { for _, f := range src { dst = append(dst, Field{ Name: a.copyString(f.Name), Value: a.copyString(f.Value), }) } return dst } // rows is an aux structure used during rows merge type rows struct { fieldsBuf []Field timestamps []int64 rows [][]Field } // reset resets rs func (rs *rows) reset() { fb := rs.fieldsBuf for i := range fb { fb[i].Reset() } rs.fieldsBuf = fb[:0] rs.timestamps = rs.timestamps[:0] rows := rs.rows for i := range rows { rows[i] = nil } rs.rows = rows[:0] } // appendRows appends rows with the given timestamps to rs. func (rs *rows) appendRows(timestamps []int64, rows [][]Field) { rs.timestamps = append(rs.timestamps, timestamps...) fieldsBuf := rs.fieldsBuf for _, fields := range rows { fieldsLen := len(fieldsBuf) fieldsBuf = append(fieldsBuf, fields...) rs.rows = append(rs.rows, fieldsBuf[fieldsLen:]) } rs.fieldsBuf = fieldsBuf } // mergeRows merges the args and appends them to rs. func (rs *rows) mergeRows(timestampsA, timestampsB []int64, fieldsA, fieldsB [][]Field) { for len(timestampsA) > 0 && len(timestampsB) > 0 { i := 0 minTimestamp := timestampsB[0] for i < len(timestampsA) && timestampsA[i] <= minTimestamp { i++ } rs.appendRows(timestampsA[:i], fieldsA[:i]) fieldsA = fieldsA[i:] timestampsA = timestampsA[i:] fieldsA, fieldsB = fieldsB, fieldsA timestampsA, timestampsB = timestampsB, timestampsA } if len(timestampsA) == 0 { rs.appendRows(timestampsB, fieldsB) } else { rs.appendRows(timestampsA, fieldsA) } }