// Copyright (C) 2019 Storj Labs, Inc. // See LICENSE for copying information. package satellitedb import ( "context" "database/sql" "errors" "storj.io/common/pb" "storj.io/storj/satellite/satellitedb/dbx" ) type irreparableDB struct { db *satelliteDB } // IncrementRepairAttempts a db entry for to increment the repair attempts field func (db *irreparableDB) IncrementRepairAttempts(ctx context.Context, segmentInfo *pb.IrreparableSegment) (err error) { defer mon.Task()(&ctx)(&err) err = db.db.WithTx(ctx, func(ctx context.Context, tx *dbx.Tx) (err error) { bytes, err := pb.Marshal(segmentInfo.SegmentDetail) if err != nil { return err } dbxInfo, err := tx.Get_Irreparabledb_By_Segmentpath(ctx, dbx.Irreparabledb_Segmentpath(segmentInfo.Path)) if err != nil { if errors.Is(err, sql.ErrNoRows) { // no rows err, so create/insert an entry return tx.CreateNoReturn_Irreparabledb( ctx, dbx.Irreparabledb_Segmentpath(segmentInfo.Path), dbx.Irreparabledb_Segmentdetail(bytes), dbx.Irreparabledb_PiecesLostCount(int64(segmentInfo.LostPieces)), dbx.Irreparabledb_SegDamagedUnixSec(segmentInfo.LastRepairAttempt), dbx.Irreparabledb_RepairAttemptCount(segmentInfo.RepairAttemptCount), ) } return err } // row exits increment the attempt counter dbxInfo.RepairAttemptCount++ updateFields := dbx.Irreparabledb_Update_Fields{} updateFields.RepairAttemptCount = dbx.Irreparabledb_RepairAttemptCount(dbxInfo.RepairAttemptCount) updateFields.SegDamagedUnixSec = dbx.Irreparabledb_SegDamagedUnixSec(segmentInfo.LastRepairAttempt) err = tx.UpdateNoReturn_Irreparabledb_By_Segmentpath( ctx, dbx.Irreparabledb_Segmentpath(dbxInfo.Segmentpath), updateFields, ) return err }) return Error.Wrap(err) } // Get a irreparable's segment info from the db func (db *irreparableDB) Get(ctx context.Context, segmentPath []byte) (resp *pb.IrreparableSegment, err error) { defer mon.Task()(&ctx)(&err) dbxInfo, err := db.db.Get_Irreparabledb_By_Segmentpath(ctx, dbx.Irreparabledb_Segmentpath(segmentPath)) if err != nil { return nil, Error.Wrap(err) } p := &pb.Pointer{} err = pb.Unmarshal(dbxInfo.Segmentdetail, p) if err != nil { return nil, Error.Wrap(err) } return &pb.IrreparableSegment{ Path: dbxInfo.Segmentpath, SegmentDetail: p, LostPieces: int32(dbxInfo.PiecesLostCount), LastRepairAttempt: dbxInfo.SegDamagedUnixSec, RepairAttemptCount: dbxInfo.RepairAttemptCount, }, nil } // GetLimited returns a list of irreparable segment info starting after the last segment info we retrieved func (db *irreparableDB) GetLimited(ctx context.Context, limit int, lastSeenSegmentPath []byte) (resp []*pb.IrreparableSegment, err error) { defer mon.Task()(&ctx)(&err) // the offset is hardcoded to 0 since we are using the lastSeenSegmentPath to // indicate the item we last listed instead. In a perfect world this db query would // not take an offset as an argument, but currently dbx only supports `limitoffset` const offset = 0 rows, err := db.db.Limited_Irreparabledb_By_Segmentpath_Greater_OrderBy_Asc_Segmentpath(ctx, dbx.Irreparabledb_Segmentpath(lastSeenSegmentPath), limit, offset, ) if err != nil { return nil, err } for _, row := range rows { p := &pb.Pointer{} err = pb.Unmarshal(row.Segmentdetail, p) if err != nil { return nil, err } segment := &pb.IrreparableSegment{ Path: row.Segmentpath, SegmentDetail: p, LostPieces: int32(row.PiecesLostCount), LastRepairAttempt: row.SegDamagedUnixSec, RepairAttemptCount: row.RepairAttemptCount, } resp = append(resp, segment) } return resp, err } // Delete a irreparable's segment info from the db func (db *irreparableDB) Delete(ctx context.Context, segmentPath []byte) (err error) { defer mon.Task()(&ctx)(&err) _, err = db.db.Delete_Irreparabledb_By_Segmentpath(ctx, dbx.Irreparabledb_Segmentpath(segmentPath)) return Error.Wrap(err) }