/* Copyright 2015 Shlomi Noach */ package binlog import ( "errors" "fmt" "strconv" "strings" ) // BinlogType identifies the type of the log: relay or binary log type BinlogType int // BinaryLog, RelayLog are binlog types const ( BinaryLog BinlogType = iota RelayLog ) // BinlogCoordinates described binary log coordinates in the form of log file & log position. type BinlogCoordinates struct { LogFile string LogPos int64 Type BinlogType } // ParseBinlogCoordinates will parse an InstanceKey from a string representation such as 127.0.0.1:3306 func ParseBinlogCoordinates(logFileLogPos string) (*BinlogCoordinates, error) { tokens := strings.SplitN(logFileLogPos, ":", 2) if len(tokens) != 2 { return nil, fmt.Errorf("ParseBinlogCoordinates: Cannot parse BinlogCoordinates from %s. Expected format is file:pos", logFileLogPos) } if logPos, err := strconv.ParseInt(tokens[1], 10, 0); err != nil { return nil, fmt.Errorf("ParseBinlogCoordinates: invalid pos: %s", tokens[1]) } else { return &BinlogCoordinates{LogFile: tokens[0], LogPos: logPos}, nil } } // DisplayString returns a user-friendly string representation of these coordinates func (this *BinlogCoordinates) DisplayString() string { return fmt.Sprintf("%s:%d", this.LogFile, this.LogPos) } // String returns a user-friendly string representation of these coordinates func (this BinlogCoordinates) String() string { return this.DisplayString() } // Equals tests equality of this corrdinate and another one. func (this *BinlogCoordinates) Equals(other *BinlogCoordinates) bool { if other == nil { return false } return this.LogFile == other.LogFile && this.LogPos == other.LogPos && this.Type == other.Type } // IsEmpty returns true if the log file is empty, unnamed func (this *BinlogCoordinates) IsEmpty() bool { return this.LogFile == "" } // SmallerThan returns true if this coordinate is strictly smaller than the other. func (this *BinlogCoordinates) SmallerThan(other *BinlogCoordinates) bool { if this.LogFile < other.LogFile { return true } if this.LogFile == other.LogFile && this.LogPos < other.LogPos { return true } return false } // SmallerThanOrEquals returns true if this coordinate is the same or equal to the other one. // We do NOT compare the type so we can not use this.Equals() func (this *BinlogCoordinates) SmallerThanOrEquals(other *BinlogCoordinates) bool { if this.SmallerThan(other) { return true } return this.LogFile == other.LogFile && this.LogPos == other.LogPos // No Type comparison } // FileSmallerThan returns true if this coordinate's file is strictly smaller than the other's. func (this *BinlogCoordinates) FileSmallerThan(other *BinlogCoordinates) bool { return this.LogFile < other.LogFile } // FileNumberDistance returns the numeric distance between this corrdinate's file number and the other's. // Effectively it means "how many roatets/FLUSHes would make these coordinates's file reach the other's" func (this *BinlogCoordinates) FileNumberDistance(other *BinlogCoordinates) int { thisNumber, _ := this.FileNumber() otherNumber, _ := other.FileNumber() return otherNumber - thisNumber } // FileNumber returns the numeric value of the file, and the length in characters representing the number in the filename. // Example: FileNumber() of mysqld.log.000789 is (789, 6) func (this *BinlogCoordinates) FileNumber() (int, int) { tokens := strings.Split(this.LogFile, ".") numPart := tokens[len(tokens)-1] numLen := len(numPart) fileNum, err := strconv.Atoi(numPart) if err != nil { return 0, 0 } return fileNum, numLen } // PreviousFileCoordinatesBy guesses the filename of the previous binlog/relaylog, by given offset (number of files back) func (this *BinlogCoordinates) PreviousFileCoordinatesBy(offset int) (BinlogCoordinates, error) { result := BinlogCoordinates{LogPos: 0, Type: this.Type} fileNum, numLen := this.FileNumber() if fileNum == 0 { return result, errors.New("Log file number is zero, cannot detect previous file") } newNumStr := fmt.Sprintf("%d", (fileNum - offset)) newNumStr = strings.Repeat("0", numLen-len(newNumStr)) + newNumStr tokens := strings.Split(this.LogFile, ".") tokens[len(tokens)-1] = newNumStr result.LogFile = strings.Join(tokens, ".") return result, nil } // PreviousFileCoordinates guesses the filename of the previous binlog/relaylog func (this *BinlogCoordinates) PreviousFileCoordinates() (BinlogCoordinates, error) { return this.PreviousFileCoordinatesBy(1) } // NextFileCoordinates guesses the filename of the next binlog/relaylog func (this *BinlogCoordinates) NextFileCoordinates() (BinlogCoordinates, error) { result := BinlogCoordinates{LogPos: 0, Type: this.Type} fileNum, numLen := this.FileNumber() newNumStr := fmt.Sprintf("%d", (fileNum + 1)) newNumStr = strings.Repeat("0", numLen-len(newNumStr)) + newNumStr tokens := strings.Split(this.LogFile, ".") tokens[len(tokens)-1] = newNumStr result.LogFile = strings.Join(tokens, ".") return result, nil }