package main import ( "context" "fmt" "time" "github.com/rs/zerolog" "github.com/uabluerail/indexer/pds" "github.com/uabluerail/indexer/repo" "gorm.io/gorm" ) type Scheduler struct { db *gorm.DB output chan<- WorkItem queue map[string]*repo.Repo inProgress map[string]*repo.Repo } func NewScheduler(output chan<- WorkItem, db *gorm.DB) *Scheduler { return &Scheduler{ db: db, output: output, queue: map[string]*repo.Repo{}, inProgress: map[string]*repo.Repo{}, } } func (s *Scheduler) Start(ctx context.Context) error { go s.run(ctx) return nil } func (s *Scheduler) run(ctx context.Context) { log := zerolog.Ctx(ctx) t := time.NewTicker(time.Minute) defer t.Stop() if err := s.fillQueue(ctx); err != nil { log.Error().Err(err).Msgf("Failed to get more tasks for the queue: %s", err) } done := make(chan string) for { if len(s.queue) > 0 { next := WorkItem{signal: make(chan struct{})} for _, r := range s.queue { next.Repo = r break } select { case <-ctx.Done(): return case <-t.C: if err := s.fillQueue(ctx); err != nil { log.Error().Err(err).Msgf("Failed to get more tasks for the queue: %s", err) } case s.output <- next: delete(s.queue, next.Repo.DID) s.inProgress[next.Repo.DID] = next.Repo go func(did string, ch chan struct{}) { select { case <-ch: case <-ctx.Done(): } done <- did }(next.Repo.DID, next.signal) s.updateQueueLenMetrics() case did := <-done: delete(s.inProgress, did) s.updateQueueLenMetrics() } } else { select { case <-ctx.Done(): return case <-t.C: if err := s.fillQueue(ctx); err != nil { log.Error().Err(err).Msgf("Failed to get more tasks for the queue: %s", err) } case did := <-done: delete(s.inProgress, did) s.updateQueueLenMetrics() } } } } func (s *Scheduler) fillQueue(ctx context.Context) error { const maxQueueLen = 10000 const maxAttempts = 3 if len(s.queue)+len(s.inProgress) >= maxQueueLen { return nil } remotes := []pds.PDS{} if err := s.db.Find(&remotes).Error; err != nil { return fmt.Errorf("failed to get the list of PDSs: %w", err) } perPDSLimit := 0 if len(remotes) > 0 { perPDSLimit = maxQueueLen * 2 / len(remotes) } // Fake remote to account for repos we didn't have a PDS for yet. remotes = append(remotes, pds.PDS{ID: pds.Unknown}) for _, remote := range remotes { repos := []repo.Repo{} err := s.db.Raw(`SELECT * FROM "repos" WHERE pds = ? AND (last_indexed_rev is null OR last_indexed_rev = '') AND failed_attempts < ? UNION SELECT * FROM "repos" WHERE pds = ? AND (first_rev_since_reset is not null AND first_rev_since_reset <> '' AND last_indexed_rev < first_rev_since_reset) AND failed_attempts < ? LIMIT ?`, remote.ID, maxAttempts, remote.ID, maxAttempts, perPDSLimit). Scan(&repos).Error if err != nil { return fmt.Errorf("querying DB: %w", err) } for _, r := range repos { if s.queue[r.DID] != nil || s.inProgress[r.DID] != nil { continue } copied := r s.queue[r.DID] = &copied reposQueued.Inc() } s.updateQueueLenMetrics() } return nil } func (s *Scheduler) updateQueueLenMetrics() { queueLenght.WithLabelValues("queued").Set(float64(len(s.queue))) queueLenght.WithLabelValues("inProgress").Set(float64(len(s.inProgress))) }