package services import ( "github.com/emvi/logbuch" "github.com/muety/wakapi/config" "runtime" "time" "github.com/go-co-op/gocron" "github.com/muety/wakapi/models" ) const ( aggregateIntervalDays int = 1 ) type AggregationService struct { config *config.Config userService IUserService summaryService ISummaryService heartbeatService IHeartbeatService } func NewAggregationService(userService IUserService, summaryService ISummaryService, heartbeatService IHeartbeatService) *AggregationService { return &AggregationService{ config: config.Get(), userService: userService, summaryService: summaryService, heartbeatService: heartbeatService, } } type AggregationJob struct { UserID string From time.Time To time.Time } // Schedule a job to (re-)generate summaries every day shortly after midnight func (srv *AggregationService) Schedule() { // Run once initially if err := srv.Run(nil); err != nil { logbuch.Fatal("failed to run AggregationJob: %v", err) } s := gocron.NewScheduler(time.Local) s.Every(1).Day().At(srv.config.App.AggregationTime).Do(srv.Run, map[string]bool{}) s.StartBlocking() } func (srv *AggregationService) Run(userIds map[string]bool) error { jobs := make(chan *AggregationJob) summaries := make(chan *models.Summary) for i := 0; i < runtime.NumCPU(); i++ { go srv.summaryWorker(jobs, summaries) } for i := 0; i < int(srv.config.Db.MaxConn); i++ { go srv.persistWorker(summaries) } // don't leak open channels go func(c1 chan *AggregationJob, c2 chan *models.Summary) { defer close(c1) defer close(c2) time.Sleep(1 * time.Hour) }(jobs, summaries) return srv.trigger(jobs, userIds) } func (srv *AggregationService) summaryWorker(jobs <-chan *AggregationJob, summaries chan<- *models.Summary) { for job := range jobs { if summary, err := srv.summaryService.Summarize(job.From, job.To, &models.User{ID: job.UserID}); err != nil { logbuch.Error("failed to generate summary (%v, %v, %s) – %v", job.From, job.To, job.UserID, err) } else { logbuch.Info("successfully generated summary (%v, %v, %s)", job.From, job.To, job.UserID) summaries <- summary } } } func (srv *AggregationService) persistWorker(summaries <-chan *models.Summary) { for summary := range summaries { if err := srv.summaryService.Insert(summary); err != nil { logbuch.Error("failed to save summary (%v, %v, %s) – %v", summary.UserID, summary.FromTime, summary.ToTime, err) } } } func (srv *AggregationService) trigger(jobs chan<- *AggregationJob, userIds map[string]bool) error { logbuch.Info("generating summaries") var users []*models.User if allUsers, err := srv.userService.GetAll(); err != nil { logbuch.Error(err.Error()) return err } else if userIds != nil && len(userIds) > 0 { users = make([]*models.User, 0) for _, u := range allUsers { if yes, ok := userIds[u.ID]; yes && ok { users = append(users, u) } } } else { users = allUsers } // Get a map from user ids to the time of their latest summary or nil if none exists yet lastUserSummaryTimes, err := srv.summaryService.GetLatestByUser() if err != nil { logbuch.Error(err.Error()) return err } // Get a map from user ids to the time of their earliest heartbeats or nil if none exists yet firstUserHeartbeatTimes, err := srv.heartbeatService.GetFirstByUsers() if err != nil { logbuch.Error(err.Error()) return err } // Build actual lookup table from it firstUserHeartbeatLookup := make(map[string]models.CustomTime) for _, e := range firstUserHeartbeatTimes { firstUserHeartbeatLookup[e.User] = e.Time } // Generate summary aggregation jobs for _, e := range lastUserSummaryTimes { if e.Time.Valid() { // Case 1: User has aggregated summaries already // -> Spawn jobs to create summaries from their latest aggregation to now generateUserJobs(e.User, e.Time.T(), jobs) } else if t := firstUserHeartbeatLookup[e.User]; t.Valid() { // Case 2: User has no aggregated summaries, yet, but has heartbeats // -> Spawn jobs to create summaries from their first heartbeat to now generateUserJobs(e.User, t.T(), jobs) } // Case 3: User doesn't have heartbeats at all // -> Nothing to do } return nil } func generateUserJobs(userId string, from time.Time, jobs chan<- *AggregationJob) { var to time.Time // Go to next day of either user's first heartbeat or latest aggregation from.Add(-1 * time.Second) from = time.Date( from.Year(), from.Month(), from.Day()+aggregateIntervalDays, 0, 0, 0, 0, from.Location(), ) // Iteratively aggregate per-day summaries until end of yesterday is reached end := getStartOfToday().Add(-1 * time.Second) for from.Before(end) && to.Before(end) { to = time.Date( from.Year(), from.Month(), from.Day()+aggregateIntervalDays, 0, 0, 0, 0, from.Location(), ) jobs <- &AggregationJob{userId, from, to} from = to } } func getStartOfToday() time.Time { now := time.Now() return time.Date(now.Year(), now.Month(), now.Day(), 0, 0, 0, 1, now.Location()) }