// Copyright (C) 2019 Storj Labs, Inc. // See LICENSE for copying information. package audit import ( "bytes" "context" "io" "math/rand" "time" "github.com/spacemonkeygo/monkit/v3" "github.com/vivint/infectious" "github.com/zeebo/errs" "go.uber.org/zap" "storj.io/common/errs2" "storj.io/common/identity" "storj.io/common/memory" "storj.io/common/pb" "storj.io/common/pkcrypto" "storj.io/common/rpc" "storj.io/common/rpc/rpcstatus" "storj.io/common/storj" "storj.io/storj/satellite/metabase" "storj.io/storj/satellite/orders" "storj.io/storj/satellite/overlay" "storj.io/uplink/private/piecestore" ) var ( mon = monkit.Package() // ErrNotEnoughShares is the errs class for when not enough shares are available to do an audit. ErrNotEnoughShares = errs.Class("not enough shares for successful audit") // ErrSegmentDeleted is the errs class when the audited segment was deleted during the audit. ErrSegmentDeleted = errs.Class("segment deleted during audit") // ErrSegmentModified is the errs class used when a segment has been changed in any way. ErrSegmentModified = errs.Class("segment has been modified") ) // Share represents required information about an audited share. type Share struct { Error error PieceNum int NodeID storj.NodeID Data []byte } // Verifier helps verify the correctness of a given stripe. // // architecture: Worker type Verifier struct { log *zap.Logger metabase *metabase.DB orders *orders.Service auditor *identity.PeerIdentity dialer rpc.Dialer overlay *overlay.Service containment Containment minBytesPerSecond memory.Size minDownloadTimeout time.Duration nowFn func() time.Time OnTestingCheckSegmentAlteredHook func() } // NewVerifier creates a Verifier. func NewVerifier(log *zap.Logger, metabase *metabase.DB, dialer rpc.Dialer, overlay *overlay.Service, containment Containment, orders *orders.Service, id *identity.FullIdentity, minBytesPerSecond memory.Size, minDownloadTimeout time.Duration) *Verifier { return &Verifier{ log: log, metabase: metabase, orders: orders, auditor: id.PeerIdentity(), dialer: dialer, overlay: overlay, containment: containment, minBytesPerSecond: minBytesPerSecond, minDownloadTimeout: minDownloadTimeout, nowFn: time.Now, } } // Verify downloads shares then verifies the data correctness at a random stripe. func (verifier *Verifier) Verify(ctx context.Context, segment Segment, skip map[storj.NodeID]bool) (report Report, err error) { defer mon.Task()(&ctx)(&err) if segment.Expired(verifier.nowFn()) { verifier.log.Debug("segment expired before Verify") return Report{}, nil } segmentInfo, err := verifier.metabase.GetSegmentByPosition(ctx, metabase.GetSegmentByPosition{ StreamID: segment.StreamID, Position: segment.Position, }) if err != nil { if metabase.ErrSegmentNotFound.Has(err) { verifier.log.Debug("segment deleted before Verify") return Report{}, nil } return Report{}, err } randomIndex, err := GetRandomStripe(ctx, segmentInfo) if err != nil { return Report{}, err } var offlineNodes storj.NodeIDList var failedNodes storj.NodeIDList var unknownNodes storj.NodeIDList containedNodes := make(map[int]storj.NodeID) sharesToAudit := make(map[int]Share) orderLimits, privateKey, cachedIPsAndPorts, err := verifier.orders.CreateAuditOrderLimits(ctx, segment.Bucket(), segmentInfo, skip) if err != nil { return Report{}, err } // NOTE offlineNodes will include disqualified nodes because they aren't in // the skip list offlineNodes = getOfflineNodes(segmentInfo, orderLimits, skip) if len(offlineNodes) > 0 { verifier.log.Debug("Verify: order limits not created for some nodes (offline/disqualified)", zap.Strings("Node IDs", offlineNodes.Strings())) } shares, err := verifier.DownloadShares(ctx, orderLimits, privateKey, cachedIPsAndPorts, randomIndex, segmentInfo.Redundancy.ShareSize) if err != nil { return Report{ Offlines: offlineNodes, }, err } err = verifier.checkIfSegmentAltered(ctx, segment.SegmentLocation, segmentInfo) if err != nil { if ErrSegmentDeleted.Has(err) { verifier.log.Debug("segment deleted during Verify") return Report{}, nil } if ErrSegmentModified.Has(err) { verifier.log.Debug("segment modified during Verify") return Report{}, nil } return Report{ Offlines: offlineNodes, }, err } for pieceNum, share := range shares { if share.Error == nil { // no error -- share downloaded successfully sharesToAudit[pieceNum] = share continue } if rpc.Error.Has(share.Error) { if errs.Is(share.Error, context.DeadlineExceeded) { // dial timeout offlineNodes = append(offlineNodes, share.NodeID) verifier.log.Debug("Verify: dial timeout (offline)", zap.Stringer("Node ID", share.NodeID), zap.Error(share.Error)) continue } if errs2.IsRPC(share.Error, rpcstatus.Unknown) { // dial failed -- offline node offlineNodes = append(offlineNodes, share.NodeID) verifier.log.Debug("Verify: dial failed (offline)", zap.Stringer("Node ID", share.NodeID), zap.Error(share.Error)) continue } // unknown transport error unknownNodes = append(unknownNodes, share.NodeID) verifier.log.Info("Verify: unknown transport error (skipped)", zap.Stringer("Node ID", share.NodeID), zap.Error(share.Error)) continue } if errs2.IsRPC(share.Error, rpcstatus.NotFound) { // missing share failedNodes = append(failedNodes, share.NodeID) verifier.log.Info("Verify: piece not found (audit failed)", zap.Stringer("Node ID", share.NodeID), zap.Error(share.Error)) continue } if errs2.IsRPC(share.Error, rpcstatus.DeadlineExceeded) { // dial successful, but download timed out containedNodes[pieceNum] = share.NodeID verifier.log.Info("Verify: download timeout (contained)", zap.Stringer("Node ID", share.NodeID), zap.Error(share.Error)) continue } // unknown error unknownNodes = append(unknownNodes, share.NodeID) verifier.log.Info("Verify: unknown error (skipped)", zap.Stringer("Node ID", share.NodeID), zap.Error(share.Error)) } mon.IntVal("verify_shares_downloaded_successfully").Observe(int64(len(sharesToAudit))) //mon:locked required := segmentInfo.Redundancy.RequiredShares total := segmentInfo.Redundancy.TotalShares if len(sharesToAudit) < int(required) { mon.Counter("not_enough_shares_for_audit").Inc(1) return Report{ Fails: failedNodes, Offlines: offlineNodes, Unknown: unknownNodes, }, ErrNotEnoughShares.New("got %d, required %d", len(sharesToAudit), required) } // ensure we get values, even if only zero values, so that redash can have an alert based on this mon.Counter("not_enough_shares_for_audit").Inc(0) pieceNums, correctedShares, err := auditShares(ctx, required, total, sharesToAudit) if err != nil { return Report{ Fails: failedNodes, Offlines: offlineNodes, Unknown: unknownNodes, }, err } for _, pieceNum := range pieceNums { verifier.log.Info("Verify: share data altered (audit failed)", zap.Stringer("Node ID", shares[pieceNum].NodeID)) failedNodes = append(failedNodes, shares[pieceNum].NodeID) } successNodes := getSuccessNodes(ctx, shares, failedNodes, offlineNodes, unknownNodes, containedNodes) totalInSegment := len(segmentInfo.Pieces) numOffline := len(offlineNodes) numSuccessful := len(successNodes) numFailed := len(failedNodes) numContained := len(containedNodes) numUnknown := len(unknownNodes) totalAudited := numSuccessful + numFailed + numOffline + numContained auditedPercentage := float64(totalAudited) / float64(totalInSegment) offlinePercentage := float64(0) successfulPercentage := float64(0) failedPercentage := float64(0) containedPercentage := float64(0) unknownPercentage := float64(0) if totalAudited > 0 { offlinePercentage = float64(numOffline) / float64(totalAudited) successfulPercentage = float64(numSuccessful) / float64(totalAudited) failedPercentage = float64(numFailed) / float64(totalAudited) containedPercentage = float64(numContained) / float64(totalAudited) unknownPercentage = float64(numUnknown) / float64(totalAudited) } mon.Meter("audit_success_nodes_global").Mark(numSuccessful) //mon:locked mon.Meter("audit_fail_nodes_global").Mark(numFailed) //mon:locked mon.Meter("audit_offline_nodes_global").Mark(numOffline) //mon:locked mon.Meter("audit_contained_nodes_global").Mark(numContained) //mon:locked mon.Meter("audit_unknown_nodes_global").Mark(numUnknown) //mon:locked mon.Meter("audit_total_nodes_global").Mark(totalAudited) //mon:locked mon.Meter("audit_total_pointer_nodes_global").Mark(totalInSegment) //mon:locked mon.IntVal("audit_success_nodes").Observe(int64(numSuccessful)) //mon:locked mon.IntVal("audit_fail_nodes").Observe(int64(numFailed)) //mon:locked mon.IntVal("audit_offline_nodes").Observe(int64(numOffline)) //mon:locked mon.IntVal("audit_contained_nodes").Observe(int64(numContained)) //mon:locked mon.IntVal("audit_unknown_nodes").Observe(int64(numUnknown)) //mon:locked mon.IntVal("audit_total_nodes").Observe(int64(totalAudited)) //mon:locked mon.IntVal("audit_total_pointer_nodes").Observe(int64(totalInSegment)) //mon:locked mon.FloatVal("audited_percentage").Observe(auditedPercentage) //mon:locked mon.FloatVal("audit_offline_percentage").Observe(offlinePercentage) //mon:locked mon.FloatVal("audit_successful_percentage").Observe(successfulPercentage) //mon:locked mon.FloatVal("audit_failed_percentage").Observe(failedPercentage) //mon:locked mon.FloatVal("audit_contained_percentage").Observe(containedPercentage) //mon:locked mon.FloatVal("audit_unknown_percentage").Observe(unknownPercentage) //mon:locked pendingAudits, err := createPendingAudits(ctx, containedNodes, correctedShares, segment, segmentInfo, randomIndex) if err != nil { return Report{ Successes: successNodes, Fails: failedNodes, Offlines: offlineNodes, Unknown: unknownNodes, }, err } return Report{ Successes: successNodes, Fails: failedNodes, Offlines: offlineNodes, PendingAudits: pendingAudits, Unknown: unknownNodes, }, nil } // DownloadShares downloads shares from the nodes where remote pieces are located. func (verifier *Verifier) DownloadShares(ctx context.Context, limits []*pb.AddressedOrderLimit, piecePrivateKey storj.PiecePrivateKey, cachedIPsAndPorts map[storj.NodeID]string, stripeIndex int32, shareSize int32) (shares map[int]Share, err error) { defer mon.Task()(&ctx)(&err) shares = make(map[int]Share, len(limits)) ch := make(chan *Share, len(limits)) for i, limit := range limits { if limit == nil { ch <- nil continue } ip := cachedIPsAndPorts[limit.Limit.StorageNodeId] go func(i int, limit *pb.AddressedOrderLimit) { share, err := verifier.GetShare(ctx, limit, piecePrivateKey, ip, stripeIndex, shareSize, i) if err != nil { share = Share{ Error: err, PieceNum: i, NodeID: limit.GetLimit().StorageNodeId, Data: nil, } } ch <- &share }(i, limit) } for range limits { share := <-ch if share != nil { shares[share.PieceNum] = *share } } return shares, nil } // Reverify reverifies the contained nodes in the stripe. func (verifier *Verifier) Reverify(ctx context.Context, segment Segment) (report Report, err error) { defer mon.Task()(&ctx)(&err) // result status enum const ( skipped = iota success offline failed contained unknown erred ) type result struct { nodeID storj.NodeID status int pendingAudit *PendingAudit release bool err error } if segment.Expired(verifier.nowFn()) { verifier.log.Debug("segment expired before Reverify") return Report{}, nil } segmentInfo, err := verifier.metabase.GetSegmentByPosition(ctx, metabase.GetSegmentByPosition{ StreamID: segment.StreamID, Position: segment.Position, }) if err != nil { if metabase.ErrSegmentNotFound.Has(err) { verifier.log.Debug("segment deleted before Reverify") return Report{}, nil } return Report{}, err } pieces := segmentInfo.Pieces ch := make(chan result, len(pieces)) var containedInSegment int64 for _, piece := range pieces { pending, err := verifier.containment.Get(ctx, piece.StorageNode) if err != nil { if ErrContainedNotFound.Has(err) { ch <- result{nodeID: piece.StorageNode, status: skipped} continue } ch <- result{nodeID: piece.StorageNode, status: erred, err: err} verifier.log.Debug("Reverify: error getting from containment db", zap.Stringer("Node ID", piece.StorageNode), zap.Error(err)) continue } containedInSegment++ go func(pending *PendingAudit) { // TODO: Get the exact version of the object. But where to take the version from the pending audit? pendingObject, err := verifier.metabase.GetObjectLatestVersion(ctx, metabase.GetObjectLatestVersion{ ObjectLocation: pending.Segment.Object(), }) if err != nil { if storj.ErrObjectNotFound.Has(err) { ch <- result{nodeID: pending.NodeID, status: skipped, release: true} return } ch <- result{nodeID: pending.NodeID, status: erred, err: err} verifier.log.Debug("Reverify: error getting pending segment's object from metabase", zap.Stringer("Node ID", pending.NodeID), zap.Error(err)) return } if pendingObject.ExpiresAt != nil && !pendingObject.ExpiresAt.IsZero() && pendingObject.ExpiresAt.Before(verifier.nowFn()) { verifier.log.Debug("Reverify: segment already expired", zap.Stringer("Node ID", pending.NodeID)) ch <- result{nodeID: pending.NodeID, status: skipped, release: true} return } pendingSegmentInfo, err := verifier.metabase.GetSegmentByPosition(ctx, metabase.GetSegmentByPosition{ StreamID: pendingObject.StreamID, Position: pending.Segment.Position, }) if err != nil { if metabase.ErrSegmentNotFound.Has(err) { ch <- result{nodeID: pending.NodeID, status: skipped, release: true} return } ch <- result{nodeID: pending.NodeID, status: erred, err: err} verifier.log.Debug("Reverify: error getting pending segment from metabase", zap.Stringer("Node ID", pending.NodeID), zap.Error(err)) return } // TODO: is this check still necessary? If the segment was found by its StreamID and position, the RootPieceID should not had changed. if pendingSegmentInfo.RootPieceID != pending.PieceID { ch <- result{nodeID: pending.NodeID, status: skipped, release: true} return } var pieceNum uint16 found := false for _, piece := range pendingSegmentInfo.Pieces { if piece.StorageNode == pending.NodeID { pieceNum = piece.Number found = true } } if !found { ch <- result{nodeID: pending.NodeID, status: skipped, release: true} return } limit, piecePrivateKey, cachedIPAndPort, err := verifier.orders.CreateAuditOrderLimit(ctx, pending.Segment.Bucket(), pending.NodeID, pieceNum, pending.PieceID, pending.ShareSize) if err != nil { if overlay.ErrNodeDisqualified.Has(err) { ch <- result{nodeID: pending.NodeID, status: skipped, release: true} verifier.log.Debug("Reverify: order limit not created (disqualified)", zap.Stringer("Node ID", pending.NodeID)) return } if overlay.ErrNodeFinishedGE.Has(err) { ch <- result{nodeID: pending.NodeID, status: skipped, release: true} verifier.log.Debug("Reverify: order limit not created (completed graceful exit)", zap.Stringer("Node ID", pending.NodeID)) return } if overlay.ErrNodeOffline.Has(err) { ch <- result{nodeID: pending.NodeID, status: offline} verifier.log.Debug("Reverify: order limit not created (offline)", zap.Stringer("Node ID", pending.NodeID)) return } ch <- result{nodeID: pending.NodeID, status: erred, err: err} verifier.log.Debug("Reverify: error creating order limit", zap.Stringer("Node ID", pending.NodeID), zap.Error(err)) return } share, err := verifier.GetShare(ctx, limit, piecePrivateKey, cachedIPAndPort, pending.StripeIndex, pending.ShareSize, int(pieceNum)) // check if the pending audit was deleted while downloading the share _, getErr := verifier.containment.Get(ctx, pending.NodeID) if getErr != nil { if ErrContainedNotFound.Has(getErr) { ch <- result{nodeID: pending.NodeID, status: skipped} verifier.log.Debug("Reverify: pending audit deleted during reverification", zap.Stringer("Node ID", pending.NodeID), zap.Error(getErr)) return } ch <- result{nodeID: pending.NodeID, status: erred, err: getErr} verifier.log.Debug("Reverify: error getting from containment db", zap.Stringer("Node ID", pending.NodeID), zap.Error(getErr)) return } // analyze the error from GetShare if err != nil { if rpc.Error.Has(err) { if errs.Is(err, context.DeadlineExceeded) { // dial timeout ch <- result{nodeID: pending.NodeID, status: offline} verifier.log.Debug("Reverify: dial timeout (offline)", zap.Stringer("Node ID", pending.NodeID), zap.Error(err)) return } if errs2.IsRPC(err, rpcstatus.Unknown) { // dial failed -- offline node verifier.log.Debug("Reverify: dial failed (offline)", zap.Stringer("Node ID", pending.NodeID), zap.Error(err)) ch <- result{nodeID: pending.NodeID, status: offline} return } // unknown transport error ch <- result{nodeID: pending.NodeID, status: unknown, pendingAudit: pending, release: true} verifier.log.Info("Reverify: unknown transport error (skipped)", zap.Stringer("Node ID", pending.NodeID), zap.Error(err)) return } if errs2.IsRPC(err, rpcstatus.NotFound) { // Get the original segment err := verifier.checkIfSegmentAltered(ctx, pending.Segment, pendingSegmentInfo) if err != nil { ch <- result{nodeID: pending.NodeID, status: skipped, release: true} verifier.log.Debug("Reverify: audit source changed before reverification", zap.Stringer("Node ID", pending.NodeID), zap.Error(err)) return } // missing share ch <- result{nodeID: pending.NodeID, status: failed, release: true} verifier.log.Info("Reverify: piece not found (audit failed)", zap.Stringer("Node ID", pending.NodeID), zap.Error(err)) return } if errs2.IsRPC(err, rpcstatus.DeadlineExceeded) { // dial successful, but download timed out ch <- result{nodeID: pending.NodeID, status: contained, pendingAudit: pending} verifier.log.Info("Reverify: download timeout (contained)", zap.Stringer("Node ID", pending.NodeID), zap.Error(err)) return } // unknown error ch <- result{nodeID: pending.NodeID, status: unknown, pendingAudit: pending, release: true} verifier.log.Info("Reverify: unknown error (skipped)", zap.Stringer("Node ID", pending.NodeID), zap.Error(err)) return } downloadedHash := pkcrypto.SHA256Hash(share.Data) if bytes.Equal(downloadedHash, pending.ExpectedShareHash) { ch <- result{nodeID: pending.NodeID, status: success, release: true} verifier.log.Info("Reverify: hashes match (audit success)", zap.Stringer("Node ID", pending.NodeID)) } else { err := verifier.checkIfSegmentAltered(ctx, pending.Segment, pendingSegmentInfo) if err != nil { ch <- result{nodeID: pending.NodeID, status: skipped, release: true} verifier.log.Debug("Reverify: audit source changed before reverification", zap.Stringer("Node ID", pending.NodeID), zap.Error(err)) return } verifier.log.Info("Reverify: hashes mismatch (audit failed)", zap.Stringer("Node ID", pending.NodeID), zap.Binary("expected hash", pending.ExpectedShareHash), zap.Binary("downloaded hash", downloadedHash)) ch <- result{nodeID: pending.NodeID, status: failed, release: true} } }(pending) } for range pieces { result := <-ch switch result.status { case skipped: case success: report.Successes = append(report.Successes, result.nodeID) case offline: report.Offlines = append(report.Offlines, result.nodeID) case failed: report.Fails = append(report.Fails, result.nodeID) case contained: report.PendingAudits = append(report.PendingAudits, result.pendingAudit) case unknown: report.Unknown = append(report.Unknown, result.nodeID) case erred: err = errs.Combine(err, result.err) default: } if result.release { _, errDelete := verifier.containment.Delete(ctx, result.nodeID) if errDelete != nil { verifier.log.Debug("Error deleting node from containment db", zap.Stringer("Node ID", result.nodeID), zap.Error(errDelete)) } } } mon.Meter("reverify_successes_global").Mark(len(report.Successes)) //mon:locked mon.Meter("reverify_offlines_global").Mark(len(report.Offlines)) //mon:locked mon.Meter("reverify_fails_global").Mark(len(report.Fails)) //mon:locked mon.Meter("reverify_contained_global").Mark(len(report.PendingAudits)) //mon:locked mon.Meter("reverify_unknown_global").Mark(len(report.Unknown)) //mon:locked mon.IntVal("reverify_successes").Observe(int64(len(report.Successes))) //mon:locked mon.IntVal("reverify_offlines").Observe(int64(len(report.Offlines))) //mon:locked mon.IntVal("reverify_fails").Observe(int64(len(report.Fails))) //mon:locked mon.IntVal("reverify_contained").Observe(int64(len(report.PendingAudits))) //mon:locked mon.IntVal("reverify_unknown").Observe(int64(len(report.Unknown))) //mon:locked mon.IntVal("reverify_contained_in_segment").Observe(containedInSegment) //mon:locked mon.IntVal("reverify_total_in_segment").Observe(int64(len(pieces))) //mon:locked return report, err } // GetShare use piece store client to download shares from nodes. func (verifier *Verifier) GetShare(ctx context.Context, limit *pb.AddressedOrderLimit, piecePrivateKey storj.PiecePrivateKey, cachedIPAndPort string, stripeIndex, shareSize int32, pieceNum int) (share Share, err error) { defer mon.Task()(&ctx)(&err) bandwidthMsgSize := shareSize // determines number of seconds allotted for receiving data from a storage node timedCtx := ctx if verifier.minBytesPerSecond > 0 { maxTransferTime := time.Duration(int64(time.Second) * int64(bandwidthMsgSize) / verifier.minBytesPerSecond.Int64()) if maxTransferTime < verifier.minDownloadTimeout { maxTransferTime = verifier.minDownloadTimeout } var cancel func() timedCtx, cancel = context.WithTimeout(ctx, maxTransferTime) defer cancel() } targetNodeID := limit.GetLimit().StorageNodeId log := verifier.log.Named(targetNodeID.String()) var ps *piecestore.Client // if cached IP is given, try connecting there first if cachedIPAndPort != "" { nodeAddr := storj.NodeURL{ ID: targetNodeID, Address: cachedIPAndPort, } ps, err = piecestore.Dial(timedCtx, verifier.dialer, nodeAddr, piecestore.DefaultConfig) if err != nil { log.Debug("failed to connect to audit target node at cached IP", zap.String("cached-ip-and-port", cachedIPAndPort), zap.Error(err)) } } // if no cached IP was given, or connecting to cached IP failed, use node address if ps == nil { nodeAddr := storj.NodeURL{ ID: targetNodeID, Address: limit.GetStorageNodeAddress().Address, } ps, err = piecestore.Dial(timedCtx, verifier.dialer, nodeAddr, piecestore.DefaultConfig) if err != nil { return Share{}, Error.Wrap(err) } } defer func() { err := ps.Close() if err != nil { verifier.log.Error("audit verifier failed to close conn to node: %+v", zap.Error(err)) } }() offset := int64(shareSize) * int64(stripeIndex) downloader, err := ps.Download(timedCtx, limit.GetLimit(), piecePrivateKey, offset, int64(shareSize)) if err != nil { return Share{}, err } defer func() { err = errs.Combine(err, downloader.Close()) }() buf := make([]byte, shareSize) _, err = io.ReadFull(downloader, buf) if err != nil { return Share{}, err } return Share{ Error: nil, PieceNum: pieceNum, NodeID: targetNodeID, Data: buf, }, nil } // checkIfSegmentAltered checks if oldSegment has been altered since it was selected for audit. func (verifier *Verifier) checkIfSegmentAltered(ctx context.Context, location metabase.SegmentLocation, oldSegment metabase.Segment) (err error) { defer mon.Task()(&ctx)(&err) if verifier.OnTestingCheckSegmentAlteredHook != nil { verifier.OnTestingCheckSegmentAlteredHook() } newSegment, err := verifier.metabase.GetSegmentByPosition(ctx, metabase.GetSegmentByPosition{ StreamID: oldSegment.StreamID, Position: oldSegment.Position, }) if err != nil { if metabase.ErrSegmentNotFound.Has(err) { return ErrSegmentDeleted.New("%q", location.Encode()) } return err } if !oldSegment.Pieces.Equal(newSegment.Pieces) { return ErrSegmentModified.New("%q", location.Encode()) } return nil } // SetNow allows tests to have the server act as if the current time is whatever they want. func (verifier *Verifier) SetNow(nowFn func() time.Time) { verifier.nowFn = nowFn } // auditShares takes the downloaded shares and uses infectious's Correct function to check that they // haven't been altered. auditShares returns a slice containing the piece numbers of altered shares, // and a slice of the corrected shares. func auditShares(ctx context.Context, required, total int16, originals map[int]Share) (pieceNums []int, corrected []infectious.Share, err error) { defer mon.Task()(&ctx)(&err) f, err := infectious.NewFEC(int(required), int(total)) if err != nil { return nil, nil, err } copies, err := makeCopies(ctx, originals) if err != nil { return nil, nil, err } err = f.Correct(copies) if err != nil { return nil, nil, err } for _, share := range copies { if !bytes.Equal(originals[share.Number].Data, share.Data) { pieceNums = append(pieceNums, share.Number) } } return pieceNums, copies, nil } // makeCopies takes in a map of audit Shares and deep copies their data to a slice of infectious Shares. func makeCopies(ctx context.Context, originals map[int]Share) (copies []infectious.Share, err error) { defer mon.Task()(&ctx)(&err) copies = make([]infectious.Share, 0, len(originals)) for _, original := range originals { copies = append(copies, infectious.Share{ Data: append([]byte{}, original.Data...), Number: original.PieceNum}) } return copies, nil } // getOfflines nodes returns these storage nodes from the segment which have no // order limit nor are skipped. func getOfflineNodes(segment metabase.Segment, limits []*pb.AddressedOrderLimit, skip map[storj.NodeID]bool) storj.NodeIDList { var offlines storj.NodeIDList nodesWithLimit := make(map[storj.NodeID]bool, len(limits)) for _, limit := range limits { if limit != nil { nodesWithLimit[limit.GetLimit().StorageNodeId] = true } } for _, piece := range segment.Pieces { if !nodesWithLimit[piece.StorageNode] && !skip[piece.StorageNode] { offlines = append(offlines, piece.StorageNode) } } return offlines } // getSuccessNodes uses the failed nodes, offline nodes and contained nodes arrays to determine which nodes passed the audit. func getSuccessNodes(ctx context.Context, shares map[int]Share, failedNodes, offlineNodes, unknownNodes storj.NodeIDList, containedNodes map[int]storj.NodeID) (successNodes storj.NodeIDList) { defer mon.Task()(&ctx)(nil) fails := make(map[storj.NodeID]bool) for _, fail := range failedNodes { fails[fail] = true } for _, offline := range offlineNodes { fails[offline] = true } for _, unknown := range unknownNodes { fails[unknown] = true } for _, contained := range containedNodes { fails[contained] = true } for _, share := range shares { if !fails[share.NodeID] { successNodes = append(successNodes, share.NodeID) } } return successNodes } func createPendingAudits(ctx context.Context, containedNodes map[int]storj.NodeID, correctedShares []infectious.Share, segment Segment, segmentInfo metabase.Segment, randomIndex int32) (pending []*PendingAudit, err error) { defer mon.Task()(&ctx)(&err) if len(containedNodes) == 0 { return nil, nil } required := int(segmentInfo.Redundancy.RequiredShares) total := int(segmentInfo.Redundancy.TotalShares) shareSize := segmentInfo.Redundancy.ShareSize fec, err := infectious.NewFEC(required, total) if err != nil { return nil, Error.Wrap(err) } stripeData, err := rebuildStripe(ctx, fec, correctedShares, int(shareSize)) if err != nil { return nil, Error.Wrap(err) } for pieceNum, nodeID := range containedNodes { share := make([]byte, shareSize) err = fec.EncodeSingle(stripeData, share, pieceNum) if err != nil { return nil, Error.Wrap(err) } pending = append(pending, &PendingAudit{ NodeID: nodeID, PieceID: segmentInfo.RootPieceID, StripeIndex: randomIndex, ShareSize: shareSize, ExpectedShareHash: pkcrypto.SHA256Hash(share), Segment: segment.SegmentLocation, }) } return pending, nil } func rebuildStripe(ctx context.Context, fec *infectious.FEC, corrected []infectious.Share, shareSize int) (_ []byte, err error) { defer mon.Task()(&ctx)(&err) stripe := make([]byte, fec.Required()*shareSize) err = fec.Rebuild(corrected, func(share infectious.Share) { copy(stripe[share.Number*shareSize:], share.Data) }) if err != nil { return nil, err } return stripe, nil } // GetRandomStripe takes a segment and returns a random stripe index within that segment. func GetRandomStripe(ctx context.Context, segment metabase.Segment) (index int32, err error) { defer mon.Task()(&ctx)(&err) // the last segment could be smaller than stripe size if segment.EncryptedSize < segment.Redundancy.StripeSize() { return 0, nil } var src cryptoSource rnd := rand.New(src) numStripes := segment.EncryptedSize / segment.Redundancy.StripeSize() randomStripeIndex := rnd.Int31n(numStripes) return randomStripeIndex, nil }