package pruning import ( "fmt" "github.com/pkg/errors" "github.com/zrepl/zrepl/config" "github.com/zrepl/zrepl/pruning/retentiongrid" "regexp" "sort" "time" ) // KeepGrid fits snapshots that match a given regex into a retentiongrid.Grid, // uses the most recent snapshot among those that match the regex as 'now', // and deletes all snapshots that do not fit the grid specification. type KeepGrid struct { retentionGrid *retentiongrid.Grid re *regexp.Regexp } func NewKeepGrid(in *config.PruneGrid) (p *KeepGrid, err error) { if in.Regex == "" { return nil, fmt.Errorf("Regex must not be empty") } re, err := regexp.Compile(in.Regex) if err != nil { return nil, errors.Wrap(err, "Regex is invalid") } // Assert intervals are of increasing length (not necessarily required, but indicates config mistake) lastDuration := time.Duration(0) for i := range in.Grid { if in.Grid[i].Length() < lastDuration { // If all intervals before were keep=all, this is ok allPrevKeepCountAll := true for j := i - 1; allPrevKeepCountAll && j >= 0; j-- { allPrevKeepCountAll = in.Grid[j].KeepCount() == config.RetentionGridKeepCountAll } if allPrevKeepCountAll { goto isMonotonicIncrease } err = errors.New("retention grid interval length must be monotonically increasing") return } isMonotonicIncrease: lastDuration = in.Grid[i].Length() } retentionIntervals := make([]retentiongrid.Interval, len(in.Grid)) for i := range in.Grid { retentionIntervals[i] = &in.Grid[i] } return &KeepGrid{ retentiongrid.NewGrid(retentionIntervals), re, }, nil } type retentionGridAdaptor struct { Snapshot } func (a retentionGridAdaptor) LessThan(b retentiongrid.Entry) bool { return a.Date().Before(b.Date()) } // Prune filters snapshots with the retention grid. func (p *KeepGrid) KeepRule(snaps []Snapshot) (destroyList []Snapshot) { snaps = filterSnapList(snaps, func(snapshot Snapshot) bool { return p.re.MatchString(snapshot.Name()) }) if len(snaps) == 0 { return nil } // Build adaptors for retention grid adaptors := make([]retentiongrid.Entry, 0) for i := range snaps { adaptors = append(adaptors, retentionGridAdaptor{snaps[i]}) } // determine 'now' edge sort.SliceStable(adaptors, func(i, j int) bool { return adaptors[i].LessThan(adaptors[j]) }) now := adaptors[len(adaptors)-1].Date() // Evaluate retention grid _, removea := p.retentionGrid.FitEntries(now, adaptors) // Revert adaptors destroyList = make([]Snapshot, len(removea)) for i := range removea { destroyList[i] = removea[i].(retentionGridAdaptor).Snapshot } return destroyList }