package main import ( "fmt" "log" "regexp" "time" ) type AppConfig struct { Name string `json:"name"` Schedule []string `json:"schedule"` Sources []Location `json:"src"` Destinations []Location `json:"dest"` Before map[string]Location `json:"before"` After map[string]Location `json:"after"` } func (a AppConfig) getTime() time.Time { for _, v := range a.Sources { return cfg.Box[v.Box()].ssh.now } for _, v := range a.Destinations { return cfg.Box[v.Box()].ssh.now } return time.Now() } func (a AppConfig) getSchedule() (string, error) { var schedule string if *debugFlag { log.Printf("AppConfig.getSchedule : %s : Start", a.Name) } refreshSnapshot := make(map[string]bool) for _, v := range a.Sources { refreshSnapshot[v.Box()] = true } for k, _ := range refreshSnapshot { err := cfg.Box[k].ssh.getSnapshotList() if err != nil { if *debugFlag { log.Printf("AppConfig.getSchedule : %s : getSnapshotList(%s) : %s", a.Name, k, err) } return "", err } } if *schedFlag != "" { schedule = *schedFlag } else if a.needYearlySnapshot() { schedule = "yearly" } else if a.needMonthlySnapshot() { schedule = "monthly" } else if a.needWeeklySnapshot() { schedule = "weekly" } else if a.needDailySnapshot() { schedule = "daily" } else if a.needHourlySnapshot() { schedule = "hourly" } else { return schedule, nil } if ret, ok := cfg.Zfsnap[schedule]; !ok { return "", fmt.Errorf("no retention for %s", schedule) } else { re := regexp.MustCompile(`^([0-9]+[ymwdhMs]{1}|forever)$`) if !re.MatchString(ret) { return "", fmt.Errorf("wrong retention format for %s", schedule) } } return schedule, nil } func (a AppConfig) needYearlySnapshot() bool { if *debugFlag { log.Printf("AppConfig.needYearlySnapshot : %s : Start", a.Name) } ret := false // schedule enabled for app ? for _, v := range a.Schedule { if v == "yearly" { ret = true } } if !ret { return false } // finding out the timestamps existing timeSource := make(map[string]map[time.Time]struct{}) timeTotal := make(map[time.Time]struct{}) re := regexp.MustCompile(`^yearly-(?P[0-9]{4}-[0-9]{2}-[0-9]{2}_[0-9]{2}.[0-9]{2}.[0-9]{2})--([0-9]+[ymwdhMs]{1}|forever)$`) for _, src := range a.Sources { timeSource[string(src)] = make(map[time.Time]struct{}) for _, snap := range cfg.Box[src.Box()].ssh.snapshot { if src.Path() == snap.Path() { if re.MatchString(snap.Name()) { dateString := re.ReplaceAllString(snap.Name(), "${Date}") dateTime, err := time.Parse("2006-01-02_15.04.05", dateString) if err != nil { if *debugFlag { log.Printf("AppConfig.needYearlySnapshot : %s : time.Parse(%s) : %s", a.Name, dateString, err) } } else { timeSource[string(src)][dateTime] = struct{}{} timeTotal[dateTime] = struct{}{} } } } } } // cleaning up the available timestamps for common timestamps for t, _ := range timeTotal { for _, v := range timeSource { if _, ok := v[t]; !ok { delete(timeTotal, t) } } } // finding an eligible timestamp now := a.getTime() for t, _ := range timeTotal { if t.Year() == now.Year() { return false } } // no timestamp => need the snapshot ! return true } func (a AppConfig) needMonthlySnapshot() bool { if *debugFlag { log.Printf("AppConfig.needMonthlySnapshot : %s : Start", a.Name) } ret := false // schedule enabled for app ? for _, v := range a.Schedule { if v == "monthly" { ret = true } } if !ret { return false } // finding out the timestamps existing timeSource := make(map[string]map[time.Time]struct{}) timeTotal := make(map[time.Time]struct{}) re := regexp.MustCompile(`^(yearly|monthly)-(?P[0-9]{4}-[0-9]{2}-[0-9]{2}_[0-9]{2}.[0-9]{2}.[0-9]{2})--([0-9]+[ymwdhMs]{1}|forever)$`) for _, src := range a.Sources { timeSource[string(src)] = make(map[time.Time]struct{}) for _, snap := range cfg.Box[src.Box()].ssh.snapshot { if src.Path() == snap.Path() { if re.MatchString(snap.Name()) { dateString := re.ReplaceAllString(snap.Name(), "${Date}") dateTime, err := time.Parse("2006-01-02_15.04.05", dateString) if err != nil { if *debugFlag { log.Printf("AppConfig.needYearlySnapshot : %s : time.Parse(%s) : %s", a.Name, dateString, err) } } else { timeSource[string(src)][dateTime] = struct{}{} timeTotal[dateTime] = struct{}{} } } } } } // cleaning up the available timestamps for common timestamps for t, _ := range timeTotal { for _, v := range timeSource { if _, ok := v[t]; !ok { delete(timeTotal, t) } } } // finding an eligible timestamp now := a.getTime() for t, _ := range timeTotal { if t.Year() == now.Year() && t.Month() == now.Month() { return false } } // no timestamp => need the snapshot ! return true } func (a AppConfig) needWeeklySnapshot() bool { if *debugFlag { log.Printf("AppConfig.needWeeklySnapshot : %s : Start", a.Name) } ret := false // schedule enabled for app ? for _, v := range a.Schedule { if v == "weekly" { ret = true } } if !ret { return false } // finding out the timestamps existing timeSource := make(map[string]map[time.Time]struct{}) timeTotal := make(map[time.Time]struct{}) re := regexp.MustCompile(`^(yearly|monthly|weekly)-(?P[0-9]{4}-[0-9]{2}-[0-9]{2}_[0-9]{2}.[0-9]{2}.[0-9]{2})--([0-9]+[ymwdhMs]{1}|forever)$`) for _, src := range a.Sources { timeSource[string(src)] = make(map[time.Time]struct{}) for _, snap := range cfg.Box[src.Box()].ssh.snapshot { if src.Path() == snap.Path() { if re.MatchString(snap.Name()) { dateString := re.ReplaceAllString(snap.Name(), "${Date}") dateTime, err := time.Parse("2006-01-02_15.04.05", dateString) if err != nil { if *debugFlag { log.Printf("AppConfig.needYearlySnapshot : %s : time.Parse(%s) : %s", a.Name, dateString, err) } } else { timeSource[string(src)][dateTime] = struct{}{} timeTotal[dateTime] = struct{}{} } } } } } // cleaning up the available timestamps for common timestamps for t, _ := range timeTotal { for _, v := range timeSource { if _, ok := v[t]; !ok { delete(timeTotal, t) } } } // finding an eligible timestamp now := a.getTime() nowYear, nowWeek := now.ISOWeek() for t, _ := range timeTotal { snapYear, snapWeek := t.ISOWeek() if nowYear == snapYear && nowWeek == snapWeek { return false } } // no timestamp => need the snapshot ! return true } func (a AppConfig) needDailySnapshot() bool { if *debugFlag { log.Printf("AppConfig.needDailySnapshot : %s : Start", a.Name) } ret := false // schedule enabled for app ? for _, v := range a.Schedule { if v == "daily" { ret = true } } if !ret { return false } // finding out the timestamps existing timeSource := make(map[string]map[time.Time]struct{}) timeTotal := make(map[time.Time]struct{}) re := regexp.MustCompile(`^(yearly|monthly|weekly|daily)-(?P[0-9]{4}-[0-9]{2}-[0-9]{2}_[0-9]{2}.[0-9]{2}.[0-9]{2})--([0-9]+[ymwdhMs]{1}|forever)$`) for _, src := range a.Sources { timeSource[string(src)] = make(map[time.Time]struct{}) for _, snap := range cfg.Box[src.Box()].ssh.snapshot { if src.Path() == snap.Path() { if re.MatchString(snap.Name()) { dateString := re.ReplaceAllString(snap.Name(), "${Date}") dateTime, err := time.Parse("2006-01-02_15.04.05", dateString) if err != nil { if *debugFlag { log.Printf("AppConfig.needYearlySnapshot : %s : time.Parse(%s) : %s", a.Name, dateString, err) } } else { timeSource[string(src)][dateTime] = struct{}{} timeTotal[dateTime] = struct{}{} } } } } } // cleaning up the available timestamps for common timestamps for t, _ := range timeTotal { for _, v := range timeSource { if _, ok := v[t]; !ok { delete(timeTotal, t) } } } // finding an eligible timestamp now := a.getTime() for t, _ := range timeTotal { if t.Year() == now.Year() && t.Month() == now.Month() && t.Day() == now.Day() { return false } } // no timestamp => need the snapshot ! return true } func (a AppConfig) needHourlySnapshot() bool { if *debugFlag { log.Printf("AppConfig.needHourlySnapshot : %s : Start", a.Name) } ret := false // schedule enabled for app ? for _, v := range a.Schedule { if v == "hourly" { ret = true } } if !ret { return false } // finding out the timestamps existing timeSource := make(map[string]map[time.Time]struct{}) timeTotal := make(map[time.Time]struct{}) re := regexp.MustCompile(`^(yearly|monthly|weekly|daily|hourly)-(?P[0-9]{4}-[0-9]{2}-[0-9]{2}_[0-9]{2}.[0-9]{2}.[0-9]{2})--([0-9]+[ymwdhMs]{1}|forever)$`) for _, src := range a.Sources { timeSource[string(src)] = make(map[time.Time]struct{}) for _, snap := range cfg.Box[src.Box()].ssh.snapshot { if src.Path() == snap.Path() { if re.MatchString(snap.Name()) { dateString := re.ReplaceAllString(snap.Name(), "${Date}") dateTime, err := time.Parse("2006-01-02_15.04.05", dateString) if err != nil { if *debugFlag { log.Printf("AppConfig.needYearlySnapshot : %s : time.Parse(%s) : %s", a.Name, dateString, err) } } else { timeSource[string(src)][dateTime] = struct{}{} timeTotal[dateTime] = struct{}{} } } } } } // cleaning up the available timestamps for common timestamps for t, _ := range timeTotal { for _, v := range timeSource { if _, ok := v[t]; !ok { delete(timeTotal, t) } } } // finding an eligible timestamp now := a.getTime() for t, _ := range timeTotal { if t.Year() == now.Year() && t.Month() == now.Month() && t.Day() == now.Day() && t.Hour() == now.Hour() { return false } } // no timestamp => need the snapshot ! return true } func (a AppConfig) CheckZFS() error { if *debugFlag { log.Printf("AppConfig.CheckZFS : %s : Start", a.Name) } for _, src := range a.Sources { if !cfg.Box[src.Box()].ssh.isZFS(src.Path()) { return fmt.Errorf("No path %s on source", string(src)) } for _, dest := range a.Destinations { if !cfg.Box[dest.Box()].ssh.isZFS(dest.Path() + "/" + src.Box() + "/" + src.Path()) { err := cfg.Box[dest.Box()].ssh.createZFS(dest.Path() + "/" + src.Box() + "/" + src.Path()) if err != nil { if *debugFlag { log.Printf("AppConfig.CheckZFS : %s : Error creating %s on %s", a.Name, dest.Path()+"/"+src.Box()+"/"+src.Path(), dest.Box()) } return err } } } } return nil } func (a AppConfig) ExecBefore(schedule string) error { if *debugFlag { log.Printf("AppConfig.ExecBefore : %s : Start %s", a.Name, schedule) } for k, v := range a.Before { re := regexp.MustCompile(k) if re.MatchString(schedule) { err := cfg.Box[v.Box()].ssh.exec(v.Path()) if err != nil { if *debugFlag { log.Printf("AppConfig.ExecBefore : %s : Error executing %s", a.Name, string(v)) } return err } } } return nil } func (a AppConfig) ExecAfter(schedule string) error { if *debugFlag { log.Printf("AppConfig.ExecAfter : %s : Start %s", a.Name, schedule) } for k, v := range a.After { re := regexp.MustCompile(k) if re.MatchString(schedule) { err := cfg.Box[v.Box()].ssh.exec(v.Path()) if err != nil { if *debugFlag { log.Printf("AppConfig.ExecAfter : %s : Error executing %s on %s", a.Name, v.Path(), v.Box()) } return err } } } return nil } func (a AppConfig) TakeSnapshot(schedule string) error { if *debugFlag { log.Printf("AppConfig.TakeSnapshot : %s : Start %s", a.Name, schedule) } takeSnapshot := make(map[string]string) delSnapshot := make(map[string]string) for _, v := range a.Sources { takeSnapshot[v.Box()] = takeSnapshot[v.Box()] + " " + v.Path() for _, v2 := range a.Destinations { delSnapshot[v2.Box()] = delSnapshot[v2.Box()] + " " + v2.Path() + "/" + v.Box() + "/" + v.Path() } } for k, v := range takeSnapshot { if *debugFlag { log.Printf("AppConfig.TakeSnapshot : %s : taking snapshot on %s for %s", a.Name, k, v) } err := cfg.Box[k].ssh.exec("/usr/sbin/zfsnap snapshot -p " + schedule + "- -a " + cfg.Zfsnap[schedule] + v) if err != nil { if *debugFlag { log.Printf("AppConfig.TakeSnapshot : %s : Error executing zfsnap on %s", a.Name, k) } return err } } return nil } func (a AppConfig) RefreshSnapshot() error { if *debugFlag { log.Printf("AppConfig.RefreshSnapshot : %s : Start", a.Name) } refreshSnapshot := make(map[string]struct{}) for _, v := range a.Sources { refreshSnapshot[v.Box()] = struct{}{} } for _, v := range a.Destinations { refreshSnapshot[v.Box()] = struct{}{} } for k, _ := range refreshSnapshot { if *debugFlag { log.Printf("AppConfig.RefreshSnapshot : %s : refreshing snapshots for source %s", a.Name, k) } err := cfg.Box[k].ssh.getSnapshotList() if err != nil { if *debugFlag { log.Printf("AppConfig.RefreshSnapshot : %s : Error getting snapshots on %s", a.Name, k) } return err } } return nil } func (a AppConfig) SendSnapshots() error { if *debugFlag { log.Printf("AppConfig.SendSnapshots : %s : Start", a.Name) } for _, src := range a.Sources { for _, dest := range a.Destinations { if *debugFlag { log.Printf("AppConfig.SendSnapshots : %s : Sending snapshots from %s to %s", a.Name, string(src), string(dest)) } dLastSnapshot, err := cfg.Box[dest.Box()].ssh.getLastSnapshot(dest.Path() + "/" + src.Box() + "/" + src.Path()) if err != nil { if *debugFlag { log.Printf("AppConfig.SendSnapshots : %s : No snapshot for %s on %s", a.Name, string(src), dest.Box()) } sFirstSnapshot, err := cfg.Box[src.Box()].ssh.getFirstSnapshot(src.Path()) if err != nil { if *debugFlag { log.Printf("AppConfig.SendSnapshots : %s : No snapshot for %s", a.Name, string(src)) } return err } if *debugFlag { log.Printf("AppConfig.SendSnapshots : %s : Initializing snapshot on %s from %s", a.Name, dest.Box(), string(sFirstSnapshot)) } err = cfg.Box[dest.Box()].ssh.exec("/usr/bin/ssh " + cfg.Box[src.Box()].User + "@" + src.Box() + " /sbin/zfs send " + string(sFirstSnapshot) + " | /sbin/zfs recv -F " + dest.Path() + "/" + src.Box() + "/" + src.Path()) if err != nil { if *debugFlag { log.Printf("AppConfig.SendSnapshots : %s : Initializing snapshot on %s from %s failed (%s)", a.Name, dest.Box(), string(sFirstSnapshot), err) } return err } var sCurrSnapshot Snapshot sNextSnapshot := sFirstSnapshot for !cfg.Box[src.Box()].ssh.isLastSnapshot(sNextSnapshot) { sCurrSnapshot = sNextSnapshot sNextSnapshot, err = cfg.Box[src.Box()].ssh.getNextSnapshot(sNextSnapshot) if *debugFlag { log.Printf("AppConfig.SendSnapshots : %s : Sending incrementally %s to %s", a.Name, string(sNextSnapshot), dest.Box()) } err = cfg.Box[dest.Box()].ssh.exec("/usr/bin/ssh " + cfg.Box[src.Box()].User + "@" + src.Box() + " /sbin/zfs send -I " + string(sCurrSnapshot) + " " + string(sNextSnapshot) + " | /sbin/zfs recv " + dest.Path() + "/" + src.Box() + "/" + src.Path()) if err != nil { if *debugFlag { log.Printf("AppConfig.SendSnapshots : %s : Sending snapshot on %s from %s failed (%s)", a.Name, dest.Box(), string(sNextSnapshot), err) } return err } } if *debugFlag { log.Printf("AppConfig.SendSnapshots : %s : All snapshots sent for %s", a.Name, string(src)) } } else { if *debugFlag { log.Printf("AppConfig.SendSnapshots : %s : Last snapshot on %s is %s", a.Name, dest.Box(), string(dLastSnapshot)) } var sCurrSnapshot Snapshot sNextSnapshot := Snapshot(string(dLastSnapshot)[len(string(dest))+1:]) for !cfg.Box[src.Box()].ssh.isLastSnapshot(sNextSnapshot) { sCurrSnapshot = sNextSnapshot sNextSnapshot, err = cfg.Box[src.Box()].ssh.getNextSnapshot(sNextSnapshot) if *debugFlag { log.Printf("AppConfig.SendSnapshots : %s : Sending incrementally %s to %s", a.Name, string(sNextSnapshot), dest.Box()) } err = cfg.Box[dest.Box()].ssh.exec("/usr/bin/ssh " + cfg.Box[src.Box()].User + "@" + src.Box() + " /sbin/zfs send -I " + string(sCurrSnapshot) + " " + string(sNextSnapshot) + " | /sbin/zfs recv " + dest.Path() + "/" + src.Box() + "/" + src.Path()) if err != nil { if *debugFlag { log.Printf("AppConfig.SendSnapshots : %s : Sending snapshot on %s from %s failed (%s)", a.Name, dest.Box(), string(sNextSnapshot), err) } return err } } } } } return nil } func (a AppConfig) CleanupSnapshot() error { if *debugFlag { log.Printf("AppConfig.CleanupSnapshot : %s : Start", a.Name) } cleanupSnapshot := make(map[string]string) for _, dest := range a.Destinations { for _, src := range a.Sources { cleanupSnapshot[src.Box()] = cleanupSnapshot[src.Box()] + " " + src.Path() cleanupSnapshot[dest.Box()] = cleanupSnapshot[dest.Box()] + " " + dest.Path() + "/" + src.Box() + "/" + src.Path() } } for k, v := range cleanupSnapshot { if *debugFlag { log.Printf("AppConfig.CleanupSnapshot : %s : cleaning snapshots on %s for%s", a.Name, k, v) } err := cfg.Box[k].ssh.exec("/usr/sbin/zfsnap destroy -p hourly- -p daily- -p weekly- -p monthly- -p yearly-" + v) if err != nil { if *debugFlag { log.Printf("AppConfig.CleanupSnapshot : %s : Error executing zfsnap on %s", a.Name, k) } return err } } return nil } func (a AppConfig) RunAppBackup() error { if *debugFlag { log.Printf("AppConfig.RunAppBackup : %s : Start", a.Name) } schedule, err := a.getSchedule() if err != nil { if *debugFlag { log.Printf("AppConfig.RunAppBackup : %s : Error getting schedule : %s", a.Name, err) } return err } if schedule != "" { err = a.CheckZFS() if err != nil { if *debugFlag { log.Printf("AppConfig.RunAppBackup : %s : CheckZFS : %s", a.Name, err) } return err } err = a.ExecBefore(schedule) if err != nil { if *debugFlag { log.Printf("AppConfig.RunAppBackup : %s : ExecBefore : %s", a.Name, err) } return err } } err = a.RefreshSnapshot() if err != nil { if *debugFlag { log.Printf("AppConfig.RunAppBackup : %s : RefreshSnapshot : %s", a.Name, err) } return err } err = a.SendSnapshots() if err != nil { if *debugFlag { log.Printf("AppConfig.RunAppBackup : %s : SendSnapshots : %s", a.Name, err) } return err } if schedule != "" { err = a.ExecAfter(schedule) if err != nil { if *debugFlag { log.Printf("AppConfig.RunAppBackup : %s : ExecAfter : %s", a.Name, err) } return err } } err = a.CleanupSnapshot() if err != nil { if *debugFlag { log.Printf("AppConfig.RunAppBackup : %s : RefreshSnapshot : %s", a.Name, err) } return err } return nil }