package main import ( "bytes" "context" "fmt" "regexp" "strings" "time" "github.com/imax9000/errors" "github.com/rs/zerolog" "gorm.io/gorm" "gorm.io/gorm/clause" comatproto "github.com/bluesky-social/indigo/api/atproto" "github.com/bluesky-social/indigo/util" "github.com/bluesky-social/indigo/xrpc" "github.com/uabluerail/bsky-tools/xrpcauth" "github.com/uabluerail/indexer/models" "github.com/uabluerail/indexer/pds" "github.com/uabluerail/indexer/repo" "github.com/uabluerail/indexer/util/resolver" ) type WorkItem struct { Repo *repo.Repo signal chan struct{} } type WorkerPool struct { db *gorm.DB input <-chan WorkItem limiter *Limiter workerSignals []chan struct{} resize chan int } func NewWorkerPool(input <-chan WorkItem, db *gorm.DB, size int, limiter *Limiter) *WorkerPool { r := &WorkerPool{ db: db, input: input, limiter: limiter, resize: make(chan int), } r.workerSignals = make([]chan struct{}, size) for i := range r.workerSignals { r.workerSignals[i] = make(chan struct{}) } return r } func (p *WorkerPool) Start(ctx context.Context) error { go p.run(ctx) return nil } func (p *WorkerPool) Resize(ctx context.Context, size int) error { select { case <-ctx.Done(): return ctx.Err() case p.resize <- size: return nil } } func (p *WorkerPool) run(ctx context.Context) { for _, ch := range p.workerSignals { go p.worker(ctx, ch) } workerPoolSize.Set(float64(len(p.workerSignals))) for { select { case <-ctx.Done(): for _, ch := range p.workerSignals { close(ch) } // also wait for all workers to stop? return case newSize := <-p.resize: switch { case newSize > len(p.workerSignals): ch := make([]chan struct{}, newSize-len(p.workerSignals)) for i := range ch { ch[i] = make(chan struct{}) go p.worker(ctx, ch[i]) } p.workerSignals = append(p.workerSignals, ch...) workerPoolSize.Set(float64(len(p.workerSignals))) case newSize < len(p.workerSignals) && newSize > 0: for _, ch := range p.workerSignals[newSize:] { close(ch) } p.workerSignals = p.workerSignals[:newSize] workerPoolSize.Set(float64(len(p.workerSignals))) } } } } func (p *WorkerPool) worker(ctx context.Context, signal chan struct{}) { log := zerolog.Ctx(ctx) for { select { case <-ctx.Done(): return case <-signal: return case work := <-p.input: updates := &repo.Repo{} if err := p.doWork(ctx, work); err != nil { log.Error().Err(err).Msgf("Work task %q failed: %s", work.Repo.DID, err) updates.LastError = err.Error() updates.FailedAttempts = work.Repo.FailedAttempts + 1 reposIndexed.WithLabelValues("false").Inc() } else { updates.FailedAttempts = 0 reposIndexed.WithLabelValues("true").Inc() } updates.LastIndexAttempt = time.Now() err := p.db.Model(&repo.Repo{}). Where(&repo.Repo{ID: work.Repo.ID}). Select("last_error", "last_index_attempt", "failed_attempts"). Updates(updates).Error if err != nil { log.Error().Err(err).Msgf("Failed to update repo info for %q: %s", work.Repo.DID, err) } } } } var postgresFixRegexp = regexp.MustCompile(`([^\\](\\\\)*)(\\u0000)+`) func escapeNullCharForPostgres(b []byte) []byte { return postgresFixRegexp.ReplaceAllFunc(b, func(b []byte) []byte { return bytes.ReplaceAll(b, []byte(`\u0000`), []byte(`<0x00>`)) }) } func (p *WorkerPool) doWork(ctx context.Context, work WorkItem) error { log := zerolog.Ctx(ctx) defer close(work.signal) u, err := resolver.GetPDSEndpoint(ctx, work.Repo.DID) if err != nil { return err } remote, err := pds.EnsureExists(ctx, p.db, u.String()) if err != nil { return fmt.Errorf("failed to get PDS records for %q: %w", u, err) } if work.Repo.PDS != remote.ID { if err := p.db.Model(&work.Repo).Where(&repo.Repo{ID: work.Repo.ID}).Updates(&repo.Repo{PDS: remote.ID}).Error; err != nil { return fmt.Errorf("failed to update repo's PDS to %q: %w", u, err) } work.Repo.PDS = remote.ID } client := xrpcauth.NewAnonymousClient(ctx) client.Host = u.String() client.Client = util.RobustHTTPClient() client.Client.Timeout = 30 * time.Minute retry: if p.limiter != nil { if err := p.limiter.Wait(ctx, u.String()); err != nil { return fmt.Errorf("failed to wait on rate limiter: %w", err) } } b, err := comatproto.SyncGetRepo(ctx, client, work.Repo.DID, "") if err != nil { if err, ok := errors.As[*xrpc.Error](err); ok { if err.IsThrottled() && err.Ratelimit != nil { log.Debug().Str("pds", u.String()).Msgf("Hit a rate limit (%s), sleeping until %s", err.Ratelimit.Policy, err.Ratelimit.Reset) time.Sleep(time.Until(err.Ratelimit.Reset)) goto retry } } reposFetched.WithLabelValues(u.String(), "false").Inc() return fmt.Errorf("failed to fetch repo: %w", err) } reposFetched.WithLabelValues(u.String(), "true").Inc() if work.Repo.PDS == pds.Unknown { remote, err := pds.EnsureExists(ctx, p.db, u.String()) if err != nil { return err } work.Repo.PDS = remote.ID if err := p.db.Model(&work.Repo).Where(&repo.Repo{ID: work.Repo.ID}).Updates(&repo.Repo{PDS: work.Repo.PDS}).Error; err != nil { return fmt.Errorf("failed to set repo's PDS: %w", err) } } newRev, err := repo.GetRev(ctx, bytes.NewReader(b)) if err != nil { return fmt.Errorf("failed to read 'rev' from the fetched repo: %w", err) } newRecs, err := repo.ExtractRecords(ctx, bytes.NewReader(b)) if err != nil { return fmt.Errorf("failed to extract records: %w", err) } recs := []repo.Record{} for k, v := range newRecs { parts := strings.SplitN(k, "/", 2) if len(parts) != 2 { log.Warn().Msgf("Unexpected key format: %q", k) continue } // lang, err := repo.GetLang(ctx, v) // if err == nil { // postsByLanguageIndexed.WithLabelValues(u.String(), lang).Inc() // } recs = append(recs, repo.Record{ Repo: models.ID(work.Repo.ID), Collection: parts[0], Rkey: parts[1], // XXX: proper replacement of \u0000 would require full parsing of JSON // and recursive iteration over all string values, but this // should work well enough for now. Content: escapeNullCharForPostgres(v), AtRev: newRev, }) } recordsFetched.Add(float64(len(recs))) if len(recs) > 0 { for _, batch := range splitInBatshes(recs, 500) { result := p.db.Model(&repo.Record{}). Clauses(clause.OnConflict{ Where: clause.Where{Exprs: []clause.Expression{clause.Or( clause.Eq{Column: clause.Column{Name: "at_rev", Table: "records"}, Value: nil}, clause.Eq{Column: clause.Column{Name: "at_rev", Table: "records"}, Value: ""}, clause.Lt{ Column: clause.Column{Name: "at_rev", Table: "records"}, Value: clause.Column{Name: "at_rev", Table: "excluded"}}, )}}, DoUpdates: clause.AssignmentColumns([]string{"content", "at_rev"}), Columns: []clause.Column{{Name: "repo"}, {Name: "collection"}, {Name: "rkey"}}}). Create(batch) if err := result.Error; err != nil { return fmt.Errorf("inserting records into the database: %w", err) } recordsInserted.Add(float64(result.RowsAffected)) } } err = p.db.Model(&repo.Repo{}).Where(&repo.Repo{ID: work.Repo.ID}). Updates(&repo.Repo{LastIndexedRev: newRev}).Error if err != nil { return fmt.Errorf("updating repo rev: %w", err) } // TODO: check for records that are missing in the repo download // and mark them as deleted. return nil } func splitInBatshes[T any](s []T, batchSize int) [][]T { var r [][]T for i := 0; i < len(s); i += batchSize { if i+batchSize < len(s) { r = append(r, s[i:i+batchSize]) } else { r = append(r, s[i:]) } } return r }