// Copyright (C) 2019 Storj Labs, Inc. // See LICENSE for copying information. package rollup import ( "context" "time" "go.uber.org/zap" "storj.io/storj/internal/memory" "storj.io/storj/pkg/pb" "storj.io/storj/pkg/storj" "storj.io/storj/satellite/accounting" ) // Config contains configurable values for rollup type Config struct { Interval time.Duration `help:"how frequently rollup should run" releaseDefault:"24h" devDefault:"120s"` MaxAlphaUsage memory.Size `help:"the bandwidth and storage usage limit for the alpha release" default:"25GB"` DeleteTallies bool `help:"option for deleting tallies after they are rolled up" default:"false"` } // Service is the rollup service for totalling data on storage nodes on daily intervals type Service struct { logger *zap.Logger ticker *time.Ticker sdb accounting.StoragenodeAccounting deleteTallies bool } // New creates a new rollup service func New(logger *zap.Logger, sdb accounting.StoragenodeAccounting, interval time.Duration, deleteTallies bool) *Service { return &Service{ logger: logger, ticker: time.NewTicker(interval), sdb: sdb, deleteTallies: deleteTallies, } } // Run the Rollup loop func (r *Service) Run(ctx context.Context) (err error) { defer mon.Task()(&ctx)(&err) r.logger.Info("Rollup service starting up") for { err = r.Rollup(ctx) if err != nil { r.logger.Error("Query failed", zap.Error(err)) } select { case <-r.ticker.C: // wait for the next interval to happen case <-ctx.Done(): // or the Rollup is canceled via context return ctx.Err() } } } // Rollup aggregates storage and bandwidth amounts for the time interval func (r *Service) Rollup(ctx context.Context) (err error) { defer mon.Task()(&ctx)(&err) // only Rollup new things - get LastRollup lastRollup, err := r.sdb.LastTimestamp(ctx, accounting.LastRollup) if err != nil { return Error.Wrap(err) } rollupStats := make(accounting.RollupStats) latestTally, err := r.RollupStorage(ctx, lastRollup, rollupStats) if err != nil { return Error.Wrap(err) } err = r.RollupBW(ctx, lastRollup, rollupStats) if err != nil { return Error.Wrap(err) } //remove the latest day (which we cannot know is complete), then push to DB latestTally = time.Date(latestTally.Year(), latestTally.Month(), latestTally.Day(), 0, 0, 0, 0, latestTally.Location()) delete(rollupStats, latestTally) if len(rollupStats) == 0 { r.logger.Info("RollupStats is empty") return nil } err = r.sdb.SaveRollup(ctx, latestTally, rollupStats) if err != nil { return Error.Wrap(err) } if r.deleteTallies { // Delete already rolled up tallies err = r.sdb.DeleteTalliesBefore(ctx, latestTally) if err != nil { return Error.Wrap(err) } } return nil } // RollupStorage rolls up storage tally, modifies rollupStats map func (r *Service) RollupStorage(ctx context.Context, lastRollup time.Time, rollupStats accounting.RollupStats) (latestTally time.Time, err error) { defer mon.Task()(&ctx)(&err) tallies, err := r.sdb.GetTalliesSince(ctx, lastRollup) if err != nil { return time.Now(), Error.Wrap(err) } if len(tallies) == 0 { r.logger.Info("Rollup found no new tallies") return time.Now(), nil } //loop through tallies and build Rollup for _, tallyRow := range tallies { node := tallyRow.NodeID // tallyEndTime is the time the at rest tally was saved tallyEndTime := tallyRow.IntervalEndTime.UTC() if tallyEndTime.After(latestTally) { latestTally = tallyEndTime } //create or get AccoutingRollup day entry iDay := time.Date(tallyEndTime.Year(), tallyEndTime.Month(), tallyEndTime.Day(), 0, 0, 0, 0, tallyEndTime.Location()) if rollupStats[iDay] == nil { rollupStats[iDay] = make(map[storj.NodeID]*accounting.Rollup) } if rollupStats[iDay][node] == nil { rollupStats[iDay][node] = &accounting.Rollup{NodeID: node, StartTime: iDay} } //increment data at rest sum rollupStats[iDay][node].AtRestTotal += tallyRow.DataTotal } return latestTally, nil } // RollupBW aggregates the bandwidth rollups, modifies rollupStats map func (r *Service) RollupBW(ctx context.Context, lastRollup time.Time, rollupStats accounting.RollupStats) (err error) { defer mon.Task()(&ctx)(&err) var latestTally time.Time bws, err := r.sdb.GetBandwidthSince(ctx, lastRollup.UTC()) if err != nil { return Error.Wrap(err) } if len(bws) == 0 { r.logger.Info("Rollup found no new bw rollups") return nil } for _, row := range bws { nodeID := row.NodeID // interval is the time the bw order was saved interval := row.IntervalStart.UTC() if interval.After(latestTally) { latestTally = interval } day := time.Date(interval.Year(), interval.Month(), interval.Day(), 0, 0, 0, 0, interval.Location()) if rollupStats[day] == nil { rollupStats[day] = make(map[storj.NodeID]*accounting.Rollup) } if rollupStats[day][nodeID] == nil { rollupStats[day][nodeID] = &accounting.Rollup{NodeID: nodeID, StartTime: day} } switch row.Action { case uint(pb.PieceAction_INVALID): r.logger.Info("invalid order action type") case uint(pb.PieceAction_PUT): rollupStats[day][nodeID].PutTotal += int64(row.Settled) case uint(pb.PieceAction_GET): rollupStats[day][nodeID].GetTotal += int64(row.Settled) case uint(pb.PieceAction_GET_AUDIT): rollupStats[day][nodeID].GetAuditTotal += int64(row.Settled) case uint(pb.PieceAction_GET_REPAIR): rollupStats[day][nodeID].GetRepairTotal += int64(row.Settled) case uint(pb.PieceAction_PUT_REPAIR): rollupStats[day][nodeID].PutRepairTotal += int64(row.Settled) default: r.logger.Info("delete order type") } } return nil }