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binlog.go
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binlog.go
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/*
Copyright 2015 Shlomi Noach, courtesy Booking.com
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package inst
import (
"errors"
"fmt"
"regexp"
"strconv"
"strings"
)
var detachPattern *regexp.Regexp
func init() {
detachPattern, _ = regexp.Compile(`//([^/:]+):([\d]+)`) // e.g. `//binlog.01234:567890`
}
type BinlogType int
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
}
// ParseInstanceKey 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
}
// 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
}
// 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)
}
// PreviousFileCoordinates guesses the filename of the previous 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
}
// FileSmallerThan returns true if this coordinate's file is strictly smaller than the other's.
func (this *BinlogCoordinates) DetachedCoordinates() (isDetached bool, detachedLogFile string, detachedLogPos string) {
detachedCoordinatesSubmatch := detachPattern.FindStringSubmatch(this.LogFile)
if len(detachedCoordinatesSubmatch) == 0 {
return false, "", ""
}
return true, detachedCoordinatesSubmatch[1], detachedCoordinatesSubmatch[2]
}