// Copyright (C) 2019 Storj Labs, Inc. // See LICENSE for copying information. package checker import ( "context" "time" "github.com/gogo/protobuf/proto" "github.com/zeebo/errs" "go.uber.org/zap" monkit "gopkg.in/spacemonkeygo/monkit.v2" "storj.io/storj/internal/sync2" "storj.io/storj/pkg/datarepair/irreparable" "storj.io/storj/pkg/datarepair/queue" "storj.io/storj/pkg/overlay" "storj.io/storj/pkg/pb" "storj.io/storj/pkg/pointerdb" "storj.io/storj/pkg/storj" "storj.io/storj/storage" ) // Error is a standard error class for this package. var ( Error = errs.Class("checker error") mon = monkit.Package() ) // Config contains configurable values for checker type Config struct { Interval time.Duration `help:"how frequently checker should audit segments" default:"30s"` } // Checker contains the information needed to do checks for missing pieces type Checker struct { pointerdb *pointerdb.Service repairQueue queue.RepairQueue overlay *overlay.Cache irrdb irreparable.DB logger *zap.Logger Loop sync2.Cycle } // NewChecker creates a new instance of checker func NewChecker(pointerdb *pointerdb.Service, repairQueue queue.RepairQueue, overlay *overlay.Cache, irrdb irreparable.DB, limit int, logger *zap.Logger, interval time.Duration) *Checker { // TODO: reorder arguments checker := &Checker{ pointerdb: pointerdb, repairQueue: repairQueue, overlay: overlay, irrdb: irrdb, logger: logger, Loop: *sync2.NewCycle(interval), } return checker } // Run the checker loop func (checker *Checker) Run(ctx context.Context) (err error) { defer mon.Task()(&ctx)(&err) return checker.Loop.Run(ctx, func(ctx context.Context) error { err := checker.IdentifyInjuredSegments(ctx) if err != nil { checker.logger.Error("error with injured segments identification: ", zap.Error(err)) } return nil }) } // Close halts the Checker loop func (checker *Checker) Close() error { checker.Loop.Close() return nil } // IdentifyInjuredSegments checks for missing pieces off of the pointerdb and overlay cache func (checker *Checker) IdentifyInjuredSegments(ctx context.Context) (err error) { defer mon.Task()(&ctx)(&err) var remoteSegmentsChecked int64 var remoteSegmentsNeedingRepair int64 var remoteSegmentsLost int64 var remoteSegmentInfo []string err = checker.pointerdb.Iterate("", "", true, false, func(it storage.Iterator) error { var item storage.ListItem for it.Next(&item) { pointer := &pb.Pointer{} err = proto.Unmarshal(item.Value, pointer) if err != nil { return Error.New("error unmarshalling pointer %s", err) } remote := pointer.GetRemote() if remote == nil { continue } pieces := remote.GetRemotePieces() if pieces == nil { checker.logger.Debug("no pieces on remote segment") continue } var nodeIDs storj.NodeIDList for _, p := range pieces { nodeIDs = append(nodeIDs, p.NodeId) } // Find all offline nodes offlineNodes, err := checker.overlay.OfflineNodes(ctx, nodeIDs) if err != nil { return Error.New("error getting offline nodes %s", err) } invalidNodes, err := checker.invalidNodes(ctx, nodeIDs) if err != nil { return Error.New("error getting invalid nodes %s", err) } missingIndices := combineOfflineWithInvalid(offlineNodes, invalidNodes) var missingPieces []int32 for _, i := range missingIndices { missingPieces = append(missingPieces, pieces[i].GetPieceNum()) } remoteSegmentsChecked++ numHealthy := len(nodeIDs) - len(missingPieces) if (int32(numHealthy) >= pointer.Remote.Redundancy.MinReq) && (int32(numHealthy) <= pointer.Remote.Redundancy.RepairThreshold) { remoteSegmentsNeedingRepair++ err = checker.repairQueue.Insert(ctx, &pb.InjuredSegment{ Path: string(item.Key), LostPieces: missingPieces, }) if err != nil { return Error.New("error adding injured segment to queue %s", err) } } else if int32(numHealthy) < pointer.Remote.Redundancy.MinReq { pathElements := storj.SplitPath(storj.Path(item.Key)) // check to make sure there are at least *4* path elements. the first three // are project, segment, and bucket name, but we want to make sure we're talking // about an actual object, and that there's an object name specified if len(pathElements) >= 4 { project, bucketName, segmentpath := pathElements[0], pathElements[2], pathElements[3] lostSegInfo := storj.JoinPaths(project, bucketName, segmentpath) if contains(remoteSegmentInfo, lostSegInfo) == false { remoteSegmentInfo = append(remoteSegmentInfo, lostSegInfo) } } // TODO: irreparable segment should be using storj.NodeID or something, since at the point of repair // it may have been already repaired once. remoteSegmentsLost++ // make an entry in to the irreparable table segmentInfo := &pb.IrreparableSegment{ Path: item.Key, SegmentDetail: pointer, LostPieces: int32(len(missingPieces)), LastRepairAttempt: time.Now().Unix(), RepairAttemptCount: int64(1), } //add the entry if new or update attempt count if already exists err := checker.irrdb.IncrementRepairAttempts(ctx, segmentInfo) if err != nil { return Error.New("error handling irreparable segment to queue %s", err) } } } return nil }, ) if err != nil { return err } mon.IntVal("remote_segments_checked").Observe(remoteSegmentsChecked) mon.IntVal("remote_segments_needing_repair").Observe(remoteSegmentsNeedingRepair) mon.IntVal("remote_segments_lost").Observe(remoteSegmentsLost) mon.IntVal("remote_files_lost").Observe(int64(len(remoteSegmentInfo))) return nil } // Find invalidNodes by checking the audit results that are place in overlay func (checker *Checker) invalidNodes(ctx context.Context, nodeIDs storj.NodeIDList) (invalidNodes []int, err error) { // filter if nodeIDs have invalid pieces from auditing results maxStats := &overlay.NodeStats{ AuditSuccessRatio: 0, // TODO: update when we have stats added to overlay UptimeRatio: 0, // TODO: update when we have stats added to overlay } invalidIDs, err := checker.overlay.FindInvalidNodes(ctx, nodeIDs, maxStats) if err != nil { return nil, Error.New("error getting valid nodes from overlay %s", err) } invalidNodesMap := make(map[storj.NodeID]bool) for _, invalidID := range invalidIDs { invalidNodesMap[invalidID] = true } for i, nID := range nodeIDs { if invalidNodesMap[nID] { invalidNodes = append(invalidNodes, i) } } return invalidNodes, nil } // combine the offline nodes with nodes marked invalid by overlay func combineOfflineWithInvalid(offlineNodes []int, invalidNodes []int) (missingPieces []int32) { for _, offline := range offlineNodes { missingPieces = append(missingPieces, int32(offline)) } offlineMap := make(map[int]bool) for _, i := range offlineNodes { offlineMap[i] = true } for _, i := range invalidNodes { if !offlineMap[i] { missingPieces = append(missingPieces, int32(i)) } } return missingPieces } // checks for a string in slice func contains(a []string, x string) bool { for _, n := range a { if x == n { return true } } return false }