package actions import ( "fmt" "io" "sync/atomic" "time" "github.com/VictoriaMetrics/VictoriaMetrics/lib/backup/common" "github.com/VictoriaMetrics/VictoriaMetrics/lib/backup/fscommon" "github.com/VictoriaMetrics/VictoriaMetrics/lib/backup/fslocal" "github.com/VictoriaMetrics/VictoriaMetrics/lib/fs" "github.com/VictoriaMetrics/VictoriaMetrics/lib/logger" ) // Restore restores data according to the provided settings. // // Note that the restore works only for VictoriaMetrics backups made from snapshots. // It works improperly on mutable files. type Restore struct { // Concurrency is the number of concurrent workers to run during restore. // Concurrency=1 is used by default. Concurrency int // Src is the source containing backed up data. Src common.RemoteFS // Dst is destination to restore the data. // // If dst points to existing directory, then incremental restore is performed, // i.e. only new data is downloaded from src. Dst *fslocal.FS // SkipBackupCompleteCheck may be set in order to skip for `backup complete` file in Src. // // This may be needed for restoring from old backups with missing `backup complete` file. SkipBackupCompleteCheck bool } // Run runs r with the provided settings. func (r *Restore) Run() error { startTime := time.Now() // Make sure VictoriaMetrics doesn't run during the restore process. if err := fs.MkdirAllIfNotExist(r.Dst.Dir); err != nil { return fmt.Errorf("cannot create dir %q: %s", r.Dst.Dir, err) } flockF, err := fs.CreateFlockFile(r.Dst.Dir) if err != nil { return fmt.Errorf("cannot create lock file in %q; make sure VictoriaMetrics doesn't use the dir; error: %s", r.Dst.Dir, err) } defer fs.MustClose(flockF) concurrency := r.Concurrency src := r.Src dst := r.Dst if !r.SkipBackupCompleteCheck { ok, err := src.HasFile(fscommon.BackupCompleteFilename) if err != nil { return err } if !ok { return fmt.Errorf("cannot find %s file in %s; this means either incomplete backup or old backup; "+ "pass -skipBackupCompleteCheck command-line flag if you still need restoring from this backup", fscommon.BackupCompleteFilename, src) } } logger.Infof("starting restore from %s to %s", src, dst) logger.Infof("obtaining list of parts at %s", src) srcParts, err := src.ListParts() if err != nil { return fmt.Errorf("cannot list src parts: %s", err) } logger.Infof("obtaining list of parts at %s", dst) dstParts, err := dst.ListParts() if err != nil { return fmt.Errorf("cannot list dst parts: %s", err) } backupSize := getPartsSize(srcParts) // Validate srcParts. They must cover the whole files. common.SortParts(srcParts) offset := uint64(0) var pOld common.Part var path string for _, p := range srcParts { if p.Path != path { if offset != pOld.FileSize { return fmt.Errorf("invalid size for %q; got %d; want %d", path, offset, pOld.FileSize) } pOld = p path = p.Path offset = 0 } if p.Offset < offset { return fmt.Errorf("there is an overlap in %d bytes between %s and %s", offset-p.Offset, &pOld, &p) } if p.Offset > offset { if offset == 0 { return fmt.Errorf("there is a gap in %d bytes from file start to %s", p.Offset, &p) } return fmt.Errorf("there is a gap in %d bytes between %s and %s", p.Offset-offset, &pOld, &p) } if p.Size != p.ActualSize { return fmt.Errorf("invalid size for %s; got %d; want %d", &p, p.ActualSize, p.Size) } offset += p.Size } partsToDelete := common.PartsDifference(dstParts, srcParts) deleteSize := uint64(0) if len(partsToDelete) > 0 { // Remove only files with the missing part at offset 0. // Assume other files are partially downloaded during the previous Restore.Run call, // so only the last part in them may be incomplete. // The last part for partially downloaded files will be re-downloaded later. // This addresses https://github.com/VictoriaMetrics/VictoriaMetrics/issues/487 . pathsToDelete := make(map[string]bool) for _, p := range partsToDelete { if p.Offset == 0 { pathsToDelete[p.Path] = true } } logger.Infof("deleting %d files from %s", len(pathsToDelete), dst) for path := range pathsToDelete { logger.Infof("deleting %s from %s", path, dst) size, err := dst.DeletePath(path) if err != nil { return fmt.Errorf("cannot delete %s from %s: %s", path, dst, err) } deleteSize += size } if err != nil { return err } if err := dst.RemoveEmptyDirs(); err != nil { return fmt.Errorf("cannot remove empty directories at %s: %s", dst, err) } } // Re-read dstParts, since additional parts may be removed on the previous step. dstParts, err = dst.ListParts() if err != nil { return fmt.Errorf("cannot list dst parts after the deletion: %s", err) } partsToCopy := common.PartsDifference(srcParts, dstParts) downloadSize := getPartsSize(partsToCopy) if len(partsToCopy) > 0 { perPath := make(map[string][]common.Part) for _, p := range partsToCopy { parts := perPath[p.Path] parts = append(parts, p) perPath[p.Path] = parts } logger.Infof("downloading %d parts from %s to %s", len(partsToCopy), src, dst) bytesDownloaded := uint64(0) err = runParallelPerPath(concurrency, perPath, func(parts []common.Part) error { // Sort partsToCopy in order to properly grow file size during downloading // and to properly resume downloading of incomplete files on the next Restore.Run call. common.SortParts(parts) for _, p := range parts { logger.Infof("downloading %s from %s to %s", &p, src, dst) wc, err := dst.NewWriteCloser(p) if err != nil { return fmt.Errorf("cannot create writer for %q to %s: %s", &p, dst, err) } sw := &statWriter{ w: wc, bytesWritten: &bytesDownloaded, } if err := src.DownloadPart(p, sw); err != nil { return fmt.Errorf("cannot download %s to %s: %s", &p, dst, err) } if err := wc.Close(); err != nil { return fmt.Errorf("cannot close reader from %s from %s: %s", &p, src, err) } } return nil }, func(elapsed time.Duration) { n := atomic.LoadUint64(&bytesDownloaded) logger.Infof("downloaded %d out of %d bytes from %s to %s in %s", n, downloadSize, src, dst, elapsed) }) if err != nil { return err } } logger.Infof("restored %d bytes from backup in %.3f seconds; deleted %d bytes; downloaded %d bytes", backupSize, time.Since(startTime).Seconds(), deleteSize, downloadSize) return nil } type statWriter struct { w io.Writer bytesWritten *uint64 } func (sw *statWriter) Write(p []byte) (int, error) { n, err := sw.w.Write(p) atomic.AddUint64(sw.bytesWritten, uint64(n)) return n, err }