1use std::cmp::{Ordering, max, min};
16use std::collections::hash_map::Entry;
17use std::collections::{HashMap, HashSet};
18use std::sync::atomic::AtomicU32;
19
20use anyhow::{Context, anyhow};
21use futures::StreamExt;
22use futures::stream::FuturesUnordered;
23use itertools::Itertools;
24use risingwave_common::bail;
25use risingwave_common::catalog::{DatabaseId, TableId};
26use risingwave_common::id::JobId;
27use risingwave_common::util::stream_graph_visitor::visit_stream_node_cont;
28use risingwave_connector::source::SplitImpl;
29use risingwave_hummock_sdk::change_log::TableChangeLogs;
30use risingwave_hummock_sdk::version::HummockVersion;
31use risingwave_meta_model::SinkId;
32use risingwave_pb::stream_plan::stream_node::PbNodeBody;
33use sea_orm::TransactionTrait;
34use thiserror_ext::AsReport;
35use tracing::{info, warn};
36
37use super::BarrierWorkerRuntimeInfoSnapshot;
38use crate::MetaResult;
39use crate::barrier::DatabaseRuntimeInfoSnapshot;
40use crate::barrier::checkpoint::{
41 BatchRefreshJobCheckpointControl, BatchRefreshLogicalFragments, BatchRefreshRenderResult,
42};
43use crate::barrier::context::{GlobalBarrierWorkerContext, GlobalBarrierWorkerContextImpl};
44use crate::barrier::progress::TrackingJob;
45use crate::barrier::rpc::to_partial_graph_id;
46use crate::controller::fragment::{InflightActorInfo, InflightFragmentInfo};
47use crate::controller::scale::{
48 FragmentRenderMap, LoadedFragment, LoadedFragmentContext, RenderedGraph,
49 render_actor_assignments,
50};
51use crate::controller::utils::StreamingJobExtraInfo;
52use crate::manager::ActiveStreamingWorkerNodes;
53use crate::model::{ActorId, FragmentDownstreamRelation, FragmentId, StreamActor};
54use crate::rpc::ddl_controller::refill_upstream_sink_union_in_table;
55use crate::stream::cdc::reload_cdc_table_snapshot_splits;
56use crate::stream::{
57 SourceChange, StreamFragmentGraph, UpstreamSinkInfo, cleanup_dropped_streaming_jobs,
58};
59
60#[derive(Debug)]
61pub(crate) struct UpstreamSinkRecoveryInfo {
62 target_fragment_id: FragmentId,
63 upstream_infos: Vec<UpstreamSinkInfo>,
64}
65
66#[derive(Debug)]
67pub struct LoadedRecoveryContext {
68 pub fragment_context: LoadedFragmentContext,
69 pub job_extra_info: HashMap<JobId, StreamingJobExtraInfo>,
70 pub upstream_sink_recovery: HashMap<JobId, UpstreamSinkRecoveryInfo>,
71 pub fragment_relations: FragmentDownstreamRelation,
72}
73
74impl LoadedRecoveryContext {
75 fn empty(fragment_context: LoadedFragmentContext) -> Self {
76 Self {
77 fragment_context,
78 job_extra_info: HashMap::new(),
79 upstream_sink_recovery: HashMap::new(),
80 fragment_relations: FragmentDownstreamRelation::default(),
81 }
82 }
83}
84
85pub struct RenderedDatabaseRuntimeInfo {
86 pub job_infos: HashMap<JobId, HashMap<FragmentId, InflightFragmentInfo>>,
87 pub stream_actors: HashMap<ActorId, StreamActor>,
88 pub source_splits: HashMap<ActorId, Vec<SplitImpl>>,
89 pub batch_refresh: HashMap<JobId, BatchRefreshRenderResult>,
91}
92
93pub fn render_runtime_info(
94 actor_id_generator: &AtomicU32,
95 worker_nodes: &ActiveStreamingWorkerNodes,
96 recovery_context: &LoadedRecoveryContext,
97 database_id: DatabaseId,
98) -> MetaResult<Option<RenderedDatabaseRuntimeInfo>> {
99 let Some(mut per_database_context) =
100 recovery_context.fragment_context.for_database(database_id)
101 else {
102 return Ok(None);
103 };
104
105 assert!(!per_database_context.is_empty());
106
107 let batch_refresh_job_ids: HashSet<JobId> = per_database_context
110 .job_map
111 .iter()
112 .filter(|(_, model)| model.refresh_interval_sec.is_some())
113 .map(|(job_id, _)| *job_id)
114 .collect();
115
116 let mut batch_refresh_logical = HashMap::new();
117 if !batch_refresh_job_ids.is_empty() {
118 let batch_refresh_fragment_ids: HashSet<FragmentId> = batch_refresh_job_ids
119 .iter()
120 .flat_map(|job_id| {
121 per_database_context
122 .job_fragments
123 .get(job_id)
124 .unwrap()
125 .keys()
126 .copied()
127 })
128 .collect();
129
130 for &job_id in &batch_refresh_job_ids {
131 let fragments = per_database_context.job_fragments.remove(&job_id).unwrap();
132 let downstreams = fragments
133 .keys()
134 .filter_map(|fid| {
135 recovery_context
136 .fragment_relations
137 .get(fid)
138 .map(|r| (*fid, r.clone()))
139 })
140 .collect();
141 batch_refresh_logical.insert(
142 job_id,
143 BatchRefreshLogicalFragments {
144 fragments,
145 downstreams,
146 },
147 );
148 }
149
150 per_database_context.ensembles.retain(|ensemble| {
152 !ensemble
153 .component_fragments()
154 .all(|fid| batch_refresh_fragment_ids.contains(&fid))
155 });
156 }
157
158 let mut batch_refresh = HashMap::new();
160 for (job_id, logical) in batch_refresh_logical {
161 let extra = recovery_context
162 .job_extra_info
163 .get(&job_id)
164 .expect("should have extra info");
165 let streaming_job_model = per_database_context
166 .job_map
167 .get(&job_id)
168 .expect("should have streaming job model");
169 let database_model = &per_database_context.database_map[&database_id];
170 let partial_graph_id = to_partial_graph_id(database_id, Some(job_id));
171
172 let render_result = BatchRefreshJobCheckpointControl::render_actors_and_build_job_info(
173 &logical.fragments,
174 &logical.downstreams,
175 &extra.job_definition,
176 actor_id_generator,
177 worker_nodes.current(),
178 &database_model.resource_group,
179 streaming_job_model,
180 partial_graph_id,
181 )?;
182
183 batch_refresh.insert(job_id, render_result);
184 }
185
186 if per_database_context.ensembles.is_empty() {
188 return Ok(Some(RenderedDatabaseRuntimeInfo {
189 job_infos: HashMap::new(),
190 stream_actors: HashMap::new(),
191 source_splits: HashMap::new(),
192 batch_refresh,
193 }));
194 }
195
196 let RenderedGraph { mut fragments, .. } = render_actor_assignments(
197 actor_id_generator,
198 worker_nodes.current(),
199 &per_database_context,
200 )?;
201
202 let single_database = match fragments.remove(&database_id) {
203 Some(info) => info,
204 None => return Ok(None),
205 };
206
207 let mut database_map = HashMap::from([(database_id, single_database)]);
208 recovery_table_with_upstream_sinks(
209 &mut database_map,
210 &recovery_context.upstream_sink_recovery,
211 )?;
212 let stream_actors = build_stream_actors(&database_map, &recovery_context.job_extra_info)?;
213
214 let job_infos = database_map
215 .remove(&database_id)
216 .expect("database entry must exist");
217
218 let mut source_splits = HashMap::new();
219 for fragment_infos in job_infos.values() {
220 for fragment in fragment_infos.values() {
221 for (actor_id, info) in &fragment.actors {
222 source_splits.insert(*actor_id, info.splits.clone());
223 }
224 }
225 }
226
227 Ok(Some(RenderedDatabaseRuntimeInfo {
228 job_infos,
229 stream_actors,
230 source_splits,
231 batch_refresh,
232 }))
233}
234
235fn recovery_table_with_upstream_sinks(
240 inflight_jobs: &mut FragmentRenderMap,
241 upstream_sink_recovery: &HashMap<JobId, UpstreamSinkRecoveryInfo>,
242) -> MetaResult<()> {
243 if upstream_sink_recovery.is_empty() {
244 return Ok(());
245 }
246
247 let mut seen_jobs = HashSet::new();
248
249 for jobs in inflight_jobs.values_mut() {
250 for (job_id, fragments) in jobs {
251 if !seen_jobs.insert(*job_id) {
252 return Err(anyhow::anyhow!("Duplicate job id found: {}", job_id).into());
253 }
254
255 if let Some(recovery) = upstream_sink_recovery.get(job_id) {
256 if let Some(target_fragment) = fragments.get_mut(&recovery.target_fragment_id) {
257 refill_upstream_sink_union_in_table(
258 &mut target_fragment.nodes,
259 &recovery.upstream_infos,
260 );
261 } else {
262 return Err(anyhow::anyhow!(
263 "target fragment {} not found for upstream sink recovery of job {}",
264 recovery.target_fragment_id,
265 job_id
266 )
267 .into());
268 }
269 }
270 }
271 }
272
273 Ok(())
274}
275
276fn build_stream_actors(
282 all_info: &FragmentRenderMap,
283 job_extra_info: &HashMap<JobId, StreamingJobExtraInfo>,
284) -> MetaResult<HashMap<ActorId, StreamActor>> {
285 let mut stream_actors = HashMap::new();
286
287 for (job_id, streaming_info) in all_info.values().flatten() {
288 let extra_info = job_extra_info
289 .get(job_id)
290 .cloned()
291 .ok_or_else(|| anyhow!("no streaming job info for {}", job_id))?;
292 let expr_context = extra_info.stream_context().to_expr_context();
293 let job_definition = extra_info.job_definition;
294 let config_override = extra_info.config_override;
295
296 for (fragment_id, fragment_infos) in streaming_info {
297 for (actor_id, InflightActorInfo { vnode_bitmap, .. }) in &fragment_infos.actors {
298 stream_actors.insert(
299 *actor_id,
300 StreamActor {
301 actor_id: *actor_id,
302 fragment_id: *fragment_id,
303 vnode_bitmap: vnode_bitmap.clone(),
304 mview_definition: job_definition.clone(),
305 expr_context: Some(expr_context.clone()),
306 config_override: config_override.clone(),
307 },
308 );
309 }
310 }
311 }
312 Ok(stream_actors)
313}
314
315impl GlobalBarrierWorkerContextImpl {
316 fn resolve_job_committed_epoch(
317 job_id: JobId,
318 fragments: &HashMap<FragmentId, LoadedFragment>,
319 state_table_committed_epochs: &HashMap<TableId, u64>,
320 ) -> MetaResult<u64> {
321 let mut table_id_iter = fragments
322 .values()
323 .flat_map(|fragment| fragment.state_table_ids.iter().copied());
324 let Some(first_table_id) = table_id_iter.next() else {
325 bail!("job {} has no state table", job_id);
326 };
327 let committed_epoch = *state_table_committed_epochs
328 .get(&first_table_id)
329 .ok_or_else(|| anyhow!("cannot get committed epoch on table {}.", first_table_id))?;
330 for table_id in table_id_iter {
331 let table_committed_epoch = *state_table_committed_epochs
332 .get(&table_id)
333 .ok_or_else(|| anyhow!("cannot get committed epoch on table {}.", table_id))?;
334 if committed_epoch != table_committed_epoch {
335 bail!(
336 "table {} has committed epoch {} different to other table {} with committed epoch {} in job {}",
337 first_table_id,
338 committed_epoch,
339 table_id,
340 table_committed_epoch,
341 job_id
342 );
343 }
344 }
345
346 Ok(committed_epoch)
347 }
348
349 async fn finish_completed_batch_refresh_background_jobs(
350 &self,
351 recovery_context: &LoadedRecoveryContext,
352 state_table_committed_epochs: &HashMap<TableId, u64>,
353 background_jobs: &mut HashSet<JobId>,
354 ) -> MetaResult<()> {
355 let background_job_ids = background_jobs.iter().copied().collect_vec();
356 for job_id in background_job_ids {
357 let Some(job) = recovery_context.fragment_context.job_map.get(&job_id) else {
358 continue;
359 };
360 if job.refresh_interval_sec.is_none() {
361 continue;
362 }
363 let Some(fragments) = recovery_context.fragment_context.job_fragments.get(&job_id)
364 else {
365 continue;
366 };
367
368 let committed_epoch =
369 Self::resolve_job_committed_epoch(job_id, fragments, state_table_committed_epochs)?;
370 let snapshot_backfill_info = StreamFragmentGraph::collect_snapshot_backfill_info_impl(
371 fragments
372 .values()
373 .map(|fragment| (&fragment.nodes, fragment.fragment_type_mask)),
374 )?
375 .0
376 .ok_or_else(|| anyhow!("batch refresh job {} has no snapshot backfill info", job_id))?;
377 let snapshot_epoch = snapshot_backfill_info
378 .upstream_mv_table_id_to_backfill_epoch
379 .values()
380 .find_map(|e| *e)
381 .unwrap_or(committed_epoch);
382 if committed_epoch < snapshot_epoch {
383 continue;
384 }
385
386 info!(
387 %job_id,
388 committed_epoch,
389 snapshot_epoch,
390 "finish completed batch refresh background job during recovery"
391 );
392 self.finish_creating_job(TrackingJob::recovered_from_fragment_nodes(
393 job_id,
394 fragments
395 .iter()
396 .map(|(fragment_id, fragment)| (*fragment_id, &fragment.nodes)),
397 ))
398 .await?;
399 background_jobs.remove(&job_id);
400 }
401
402 Ok(())
403 }
404
405 async fn apply_pre_applied_drop_cancel(
406 &self,
407 database_id: Option<DatabaseId>,
408 ) -> MetaResult<bool> {
409 let drop_cancel = self.scheduled_barriers.pre_apply_drop_cancel(database_id);
410 let has_drop_streaming_jobs = !drop_cancel.streaming_job_ids.is_empty();
411 cleanup_dropped_streaming_jobs(
412 &self.refresh_manager,
413 &self.hummock_manager,
414 &self.metadata_manager,
415 drop_cancel.streaming_job_ids,
416 drop_cancel.dropped_state_table_ids,
417 "drop_streaming_jobs",
418 )
419 .await?;
420 Ok(has_drop_streaming_jobs)
421 }
422
423 async fn clean_dirty_streaming_jobs(&self, database_id: Option<DatabaseId>) -> MetaResult<()> {
425 self.metadata_manager
426 .catalog_controller
427 .clean_dirty_subscription(database_id)
428 .await?;
429
430 let cleaned_dirty_jobs = self
431 .metadata_manager
432 .catalog_controller
433 .clean_dirty_creating_jobs(database_id)
434 .await?;
435 if database_id.is_some() {
436 cleanup_dropped_streaming_jobs(
439 &self.refresh_manager,
440 &self.hummock_manager,
441 &self.metadata_manager,
442 cleaned_dirty_jobs.streaming_job_ids,
443 cleaned_dirty_jobs.dropped_table_ids,
444 "clean_dirty_creating_jobs",
445 )
446 .await?;
447 }
448 self.metadata_manager
449 .reset_all_refresh_jobs_to_idle()
450 .await?;
451
452 self.source_manager
454 .apply_source_change(SourceChange::DropSource {
455 dropped_source_ids: cleaned_dirty_jobs.source_ids,
456 })
457 .await;
458
459 Ok(())
460 }
461
462 async fn reset_sink_coordinator(&self, database_id: Option<DatabaseId>) -> MetaResult<()> {
463 if let Some(database_id) = database_id {
464 let sink_ids = self
465 .metadata_manager
466 .catalog_controller
467 .list_sink_ids(Some(database_id))
468 .await?;
469 self.sink_manager
470 .stop_sink_coordinator(sink_ids.clone())
471 .await;
472 self.iceberg_pk_index_sink_manager
473 .unregister_sinks(sink_ids);
474 } else {
475 self.sink_manager.reset().await;
476 self.iceberg_pk_index_sink_manager.reset();
477 }
478 Ok(())
479 }
480
481 async fn reregister_iceberg_pk_index_sinks(
483 &self,
484 database_id: Option<DatabaseId>,
485 ) -> MetaResult<()> {
486 let pb_sinks = self
487 .metadata_manager
488 .catalog_controller
489 .list_sinks()
490 .await?;
491 let mut futs = FuturesUnordered::new();
492 for pb_sink in pb_sinks {
493 if database_id.is_some_and(|db_id| pb_sink.database_id != db_id)
494 || !crate::manager::iceberg_pk_index_sink::is_iceberg_pk_index_sink(
495 &pb_sink.properties,
496 )
497 {
498 continue;
499 }
500 let config = crate::manager::iceberg_pk_index_sink::build_iceberg_config(&pb_sink)
501 .with_context(|| {
502 format!(
503 "build iceberg config while re-registering v3 sink {}",
504 pb_sink.id
505 )
506 })?;
507 let manager = &self.iceberg_pk_index_sink_manager;
508 futs.push(async move { (pb_sink.id, manager.register_sink(pb_sink.id, config).await) });
509 }
510
511 while let Some((id, res)) = futs.next().await {
512 if let Err(e) = res {
513 let msg = format!("register iceberg v3 sink {} during recovery", id);
514 return Err(e.context(msg).into());
515 }
516 }
517 Ok(())
518 }
519
520 async fn abort_dirty_pending_sink_state(
521 &self,
522 database_id: Option<DatabaseId>,
523 ) -> MetaResult<()> {
524 let pending_sinks: HashSet<SinkId> = self
525 .metadata_manager
526 .catalog_controller
527 .list_all_pending_sinks(database_id)
528 .await?;
529
530 if pending_sinks.is_empty() {
531 return Ok(());
532 }
533
534 let sink_with_state_tables: HashMap<SinkId, Vec<TableId>> = self
535 .metadata_manager
536 .catalog_controller
537 .fetch_sink_with_state_table_ids(pending_sinks)
538 .await?;
539
540 let mut sink_committed_epoch: HashMap<SinkId, u64> = HashMap::new();
541
542 for (sink_id, table_ids) in sink_with_state_tables {
543 let Some(table_id) = table_ids.first() else {
544 return Err(anyhow!("no state table id in sink: {}", sink_id).into());
545 };
546
547 self.hummock_manager
548 .on_current_version(|version| -> MetaResult<()> {
549 if let Some(committed_epoch) = version.table_committed_epoch(*table_id) {
550 assert!(
551 sink_committed_epoch
552 .insert(sink_id, committed_epoch)
553 .is_none()
554 );
555 Ok(())
556 } else {
557 Err(anyhow!("cannot get committed epoch on table {}.", table_id).into())
558 }
559 })
560 .await?;
561 }
562
563 self.metadata_manager
564 .catalog_controller
565 .abort_pending_sink_epochs(sink_committed_epoch)
566 .await?;
567
568 Ok(())
569 }
570
571 async fn purge_state_table_from_hummock(
572 &self,
573 all_state_table_ids: &HashSet<TableId>,
574 ) -> MetaResult<()> {
575 self.hummock_manager.purge(all_state_table_ids).await?;
576 Ok(())
577 }
578
579 async fn list_background_job_progress(
580 &self,
581 database_id: Option<DatabaseId>,
582 ) -> MetaResult<HashSet<JobId>> {
583 let mgr = &self.metadata_manager;
584 mgr.catalog_controller
585 .list_background_creating_jobs(false, database_id)
586 .await
587 }
588
589 async fn load_recovery_context(
590 &self,
591 database_id: Option<DatabaseId>,
592 ) -> MetaResult<LoadedRecoveryContext> {
593 let inner = self
594 .metadata_manager
595 .catalog_controller
596 .get_inner_read_guard()
597 .await;
598 let txn = inner.db.begin().await?;
599
600 let fragment_context = self
601 .metadata_manager
602 .catalog_controller
603 .load_fragment_context_in_txn(&txn, database_id)
604 .await
605 .inspect_err(|err| {
606 warn!(error = %err.as_report(), "load fragment context failed");
607 })?;
608
609 if fragment_context.is_empty() {
610 return Ok(LoadedRecoveryContext::empty(fragment_context));
611 }
612
613 let job_ids = fragment_context.job_map.keys().copied().collect_vec();
614 let job_extra_info = self
615 .metadata_manager
616 .catalog_controller
617 .get_streaming_job_extra_info_in_txn(&txn, job_ids)
618 .await?;
619
620 let mut upstream_targets = HashMap::new();
621 for fragment in fragment_context
622 .job_fragments
623 .values()
624 .flat_map(|fragments| fragments.values())
625 {
626 let mut has_upstream_union = false;
627 visit_stream_node_cont(&fragment.nodes, |node| {
628 if let Some(PbNodeBody::UpstreamSinkUnion(_)) = node.node_body {
629 has_upstream_union = true;
630 false
631 } else {
632 true
633 }
634 });
635
636 if has_upstream_union
637 && let Some(previous) =
638 upstream_targets.insert(fragment.job_id, fragment.fragment_id)
639 {
640 bail!(
641 "multiple upstream sink union fragments found for job {}, fragment {}, kept {}",
642 fragment.job_id,
643 fragment.fragment_id,
644 previous
645 );
646 }
647 }
648
649 let mut upstream_sink_recovery = HashMap::new();
650 if !upstream_targets.is_empty() {
651 let tables = self
652 .metadata_manager
653 .catalog_controller
654 .get_user_created_table_by_ids_in_txn(&txn, upstream_targets.keys().copied())
655 .await?;
656
657 for table in tables {
658 let job_id = table.id.as_job_id();
659 let Some(target_fragment_id) = upstream_targets.get(&job_id) else {
660 tracing::debug!(
662 job_id = %job_id,
663 "upstream sink union target fragment not found for table"
664 );
665 continue;
666 };
667
668 let upstream_infos = self
669 .metadata_manager
670 .catalog_controller
671 .get_all_upstream_sink_infos_in_txn(&txn, &table, *target_fragment_id as _)
672 .await?;
673
674 upstream_sink_recovery.insert(
675 job_id,
676 UpstreamSinkRecoveryInfo {
677 target_fragment_id: *target_fragment_id,
678 upstream_infos,
679 },
680 );
681 }
682 }
683
684 let fragment_relations = self
685 .metadata_manager
686 .catalog_controller
687 .get_fragment_downstream_relations_in_txn(
688 &txn,
689 fragment_context
690 .job_fragments
691 .values()
692 .flat_map(|fragments| fragments.keys().copied())
693 .collect_vec(),
694 )
695 .await?;
696
697 Ok(LoadedRecoveryContext {
698 fragment_context,
699 job_extra_info,
700 upstream_sink_recovery,
701 fragment_relations,
702 })
703 }
704
705 #[expect(clippy::type_complexity)]
706 fn resolve_hummock_version_epochs(
707 background_jobs: impl Iterator<Item = (JobId, &HashMap<FragmentId, LoadedFragment>)>,
708 version: &HummockVersion,
709 table_change_log: &TableChangeLogs,
710 ) -> MetaResult<(
711 HashMap<TableId, u64>,
712 HashMap<TableId, Vec<(Vec<u64>, u64)>>,
713 )> {
714 let table_committed_epoch: HashMap<_, _> = version
715 .state_table_info
716 .info()
717 .iter()
718 .map(|(table_id, info)| (*table_id, info.committed_epoch))
719 .collect();
720 let get_table_committed_epoch = |table_id| -> anyhow::Result<u64> {
721 Ok(*table_committed_epoch
722 .get(&table_id)
723 .ok_or_else(|| anyhow!("cannot get committed epoch on table {}.", table_id))?)
724 };
725 let mut min_downstream_committed_epochs = HashMap::new();
726 for (job_id, fragments) in background_jobs {
727 let job_committed_epoch =
728 Self::resolve_job_committed_epoch(job_id, fragments, &table_committed_epoch)?;
729 if let (Some(snapshot_backfill_info), _) =
730 StreamFragmentGraph::collect_snapshot_backfill_info_impl(
731 fragments
732 .values()
733 .map(|fragment| (&fragment.nodes, fragment.fragment_type_mask)),
734 )?
735 {
736 for (upstream_table, snapshot_epoch) in
737 snapshot_backfill_info.upstream_mv_table_id_to_backfill_epoch
738 {
739 let snapshot_epoch = snapshot_epoch.ok_or_else(|| {
740 anyhow!(
741 "recovered snapshot backfill job {} has not filled snapshot epoch to upstream {}",
742 job_id, upstream_table
743 )
744 })?;
745 let pinned_epoch = max(snapshot_epoch, job_committed_epoch);
746 match min_downstream_committed_epochs.entry(upstream_table) {
747 Entry::Occupied(entry) => {
748 let prev_min_epoch = entry.into_mut();
749 *prev_min_epoch = min(*prev_min_epoch, pinned_epoch);
750 }
751 Entry::Vacant(entry) => {
752 entry.insert(pinned_epoch);
753 }
754 }
755 }
756 }
757 }
758 let mut log_epochs = HashMap::new();
759 for (upstream_table_id, downstream_committed_epoch) in min_downstream_committed_epochs {
760 let upstream_committed_epoch = get_table_committed_epoch(upstream_table_id)?;
761 match upstream_committed_epoch.cmp(&downstream_committed_epoch) {
762 Ordering::Less => {
763 bail!(
764 "downstream epoch {} later than upstream epoch {} of table {}",
765 downstream_committed_epoch,
766 upstream_committed_epoch,
767 upstream_table_id
768 );
769 }
770 Ordering::Equal => {
771 continue;
772 }
773 Ordering::Greater => {
774 if let Some(table_change_log) = table_change_log.get(&upstream_table_id) {
775 let epochs = table_change_log
776 .filter_epoch((downstream_committed_epoch, upstream_committed_epoch))
777 .map(|epoch_log| {
778 (
779 epoch_log.non_checkpoint_epochs.clone(),
780 epoch_log.checkpoint_epoch,
781 )
782 })
783 .collect_vec();
784 let first_epochs = epochs.first();
785 if let Some((_, first_checkpoint_epoch)) = &first_epochs
786 && *first_checkpoint_epoch == downstream_committed_epoch
787 {
788 } else {
789 bail!(
790 "resolved first log epoch {:?} on table {} not matched with downstream committed epoch {}",
791 epochs,
792 upstream_table_id,
793 downstream_committed_epoch
794 );
795 }
796 log_epochs
797 .try_insert(upstream_table_id, epochs)
798 .expect("non-duplicated");
799 } else {
800 bail!(
801 "upstream table {} on epoch {} has lagged downstream on epoch {} but no table change log",
802 upstream_table_id,
803 upstream_committed_epoch,
804 downstream_committed_epoch
805 );
806 }
807 }
808 }
809 }
810 Ok((table_committed_epoch, log_epochs))
811 }
812
813 pub(super) async fn reload_runtime_info_impl(
814 &self,
815 ) -> MetaResult<BarrierWorkerRuntimeInfoSnapshot> {
816 {
817 {
818 {
819 self.clean_dirty_streaming_jobs(None)
820 .await
821 .context("clean dirty streaming jobs")?;
822
823 self.reset_sink_coordinator(None)
824 .await
825 .context("reset sink coordinator")?;
826 self.abort_dirty_pending_sink_state(None)
827 .await
828 .context("abort dirty pending sink state")?;
829
830 self.reregister_iceberg_pk_index_sinks(None)
834 .await
835 .context("re-register iceberg v3 sinks after recovery")?;
836
837 tracing::info!("recovering background job progress");
839 let mut initial_background_jobs = self
840 .list_background_job_progress(None)
841 .await
842 .context("recover background job progress should not fail")?;
843
844 tracing::info!("recovered background job progress");
845
846 let _ = self.apply_pre_applied_drop_cancel(None).await?;
848 self.metadata_manager
849 .catalog_controller
850 .cleanup_dropped_tables()
851 .await;
852
853 let active_streaming_nodes =
854 ActiveStreamingWorkerNodes::new_snapshot(self.metadata_manager.clone())
855 .await?;
856
857 let background_streaming_jobs =
858 initial_background_jobs.iter().cloned().collect_vec();
859
860 tracing::info!(
861 "background streaming jobs: {:?} total {}",
862 background_streaming_jobs,
863 background_streaming_jobs.len()
864 );
865
866 let unreschedulable_jobs = {
867 let mut unreschedulable_jobs = HashSet::new();
868
869 for job_id in background_streaming_jobs {
870 let scan_types = self
871 .metadata_manager
872 .get_job_backfill_scan_types(job_id)
873 .await?;
874
875 if scan_types
876 .values()
877 .any(|scan_type| !scan_type.is_reschedulable(false))
878 {
879 unreschedulable_jobs.insert(job_id);
880 }
881 }
882
883 unreschedulable_jobs
884 };
885
886 if !unreschedulable_jobs.is_empty() {
887 info!(
888 "unreschedulable background jobs: {:?}",
889 unreschedulable_jobs
890 );
891 }
892
893 if !unreschedulable_jobs.is_empty() {
897 bail!(
898 "Recovery for unreschedulable background jobs is not yet implemented. \
899 This path is triggered when the following jobs have at least one scan type that is not reschedulable: {:?}.",
900 unreschedulable_jobs
901 );
902 }
903
904 let mut recovery_context = self.load_recovery_context(None).await?;
905 if self.apply_pre_applied_drop_cancel(None).await? {
906 recovery_context = self.load_recovery_context(None).await?;
907 }
908
909 self.purge_state_table_from_hummock(
910 &recovery_context
911 .fragment_context
912 .job_fragments
913 .values()
914 .flat_map(|fragments| fragments.values())
915 .flat_map(|fragment| fragment.state_table_ids.iter().copied())
916 .collect(),
917 )
918 .await
919 .context("purge state table from hummock")?;
920
921 let (state_table_committed_epochs, state_table_log_epochs) = self
922 .hummock_manager
923 .on_current_version_and_table_change_log(|version, table_change_log| {
924 Self::resolve_hummock_version_epochs(
925 recovery_context
926 .fragment_context
927 .job_fragments
928 .iter()
929 .filter_map(|(job_id, job)| {
930 initial_background_jobs
931 .contains(job_id)
932 .then_some((*job_id, job))
933 }),
934 version,
935 table_change_log,
936 )
937 })
938 .await?;
939
940 self.finish_completed_batch_refresh_background_jobs(
941 &recovery_context,
942 &state_table_committed_epochs,
943 &mut initial_background_jobs,
944 )
945 .await?;
946
947 let mv_depended_subscriptions = self
948 .metadata_manager
949 .get_mv_depended_subscriptions(None)
950 .await?;
951
952 let background_jobs = {
954 let mut refreshed_background_jobs = self
955 .list_background_job_progress(None)
956 .await
957 .context("recover background job progress should not fail")?;
958 recovery_context
959 .fragment_context
960 .job_map
961 .keys()
962 .filter_map(|job_id| {
963 refreshed_background_jobs.remove(job_id).then_some(*job_id)
964 })
965 .collect()
966 };
967
968 let database_infos = self
969 .metadata_manager
970 .catalog_controller
971 .list_databases()
972 .await?;
973
974 let cdc_table_snapshot_splits =
975 reload_cdc_table_snapshot_splits(&self.env.meta_store_ref().conn, None)
976 .await?;
977
978 Ok(BarrierWorkerRuntimeInfoSnapshot {
979 active_streaming_nodes,
980 recovery_context,
981 state_table_committed_epochs,
982 state_table_log_epochs,
983 mv_depended_subscriptions,
984 background_jobs,
985 hummock_version_stats: self.hummock_manager.get_version_stats().await,
986 database_infos,
987 cdc_table_snapshot_splits,
988 })
989 }
990 }
991 }
992 }
993
994 pub(super) async fn reload_database_runtime_info_impl(
995 &self,
996 database_id: DatabaseId,
997 ) -> MetaResult<DatabaseRuntimeInfoSnapshot> {
998 self.clean_dirty_streaming_jobs(Some(database_id))
999 .await
1000 .context("clean dirty streaming jobs")?;
1001
1002 self.reset_sink_coordinator(Some(database_id))
1003 .await
1004 .context("reset sink coordinator")?;
1005 self.abort_dirty_pending_sink_state(Some(database_id))
1006 .await
1007 .context("abort dirty pending sink state")?;
1008 self.reregister_iceberg_pk_index_sinks(Some(database_id))
1009 .await
1010 .context("re-register iceberg v3 sinks after recovery")?;
1011
1012 tracing::info!(
1014 ?database_id,
1015 "recovering background job progress of database"
1016 );
1017
1018 let mut background_jobs = self
1019 .list_background_job_progress(Some(database_id))
1020 .await
1021 .context("recover background job progress of database should not fail")?;
1022 tracing::info!(?database_id, "recovered background job progress");
1023
1024 let _ = self
1026 .apply_pre_applied_drop_cancel(Some(database_id))
1027 .await?;
1028
1029 let recovery_context = self.load_recovery_context(Some(database_id)).await?;
1030
1031 let missing_background_jobs = background_jobs
1032 .iter()
1033 .filter(|job_id| {
1034 !recovery_context
1035 .fragment_context
1036 .job_map
1037 .contains_key(*job_id)
1038 })
1039 .copied()
1040 .collect_vec();
1041 if !missing_background_jobs.is_empty() {
1042 warn!(
1043 database_id = %database_id,
1044 missing_job_ids = ?missing_background_jobs,
1045 "background jobs missing in rendered info"
1046 );
1047 }
1048
1049 let (state_table_committed_epochs, state_table_log_epochs) = self
1050 .hummock_manager
1051 .on_current_version_and_table_change_log(|version, table_change_log| {
1052 Self::resolve_hummock_version_epochs(
1053 background_jobs.iter().filter_map(|job_id| {
1054 recovery_context
1055 .fragment_context
1056 .job_fragments
1057 .get(job_id)
1058 .map(|job| (*job_id, job))
1059 }),
1060 version,
1061 table_change_log,
1062 )
1063 })
1064 .await?;
1065
1066 self.finish_completed_batch_refresh_background_jobs(
1067 &recovery_context,
1068 &state_table_committed_epochs,
1069 &mut background_jobs,
1070 )
1071 .await?;
1072
1073 let mv_depended_subscriptions = self
1074 .metadata_manager
1075 .get_mv_depended_subscriptions(Some(database_id))
1076 .await?;
1077
1078 let cdc_table_snapshot_splits =
1079 reload_cdc_table_snapshot_splits(&self.env.meta_store_ref().conn, Some(database_id))
1080 .await?;
1081
1082 self.refresh_manager
1083 .remove_trackers_by_database(database_id);
1084
1085 Ok(DatabaseRuntimeInfoSnapshot {
1086 recovery_context,
1087 state_table_committed_epochs,
1088 state_table_log_epochs,
1089 mv_depended_subscriptions,
1090 background_jobs,
1091 cdc_table_snapshot_splits,
1092 })
1093 }
1094}
1095
1096#[cfg(test)]
1097mod tests {
1098 use std::collections::HashMap;
1099
1100 use risingwave_common::catalog::FragmentTypeMask;
1101 use risingwave_common::id::WorkerId;
1102 use risingwave_meta_model::DispatcherType;
1103 use risingwave_meta_model::fragment::DistributionType;
1104 use risingwave_pb::stream_plan::stream_node::PbNodeBody;
1105 use risingwave_pb::stream_plan::{
1106 PbDispatchOutputMapping, PbStreamNode, UpstreamSinkUnionNode as PbUpstreamSinkUnionNode,
1107 };
1108
1109 use super::*;
1110 use crate::controller::fragment::InflightActorInfo;
1111 use crate::model::DownstreamFragmentRelation;
1112 use crate::stream::UpstreamSinkInfo;
1113
1114 #[test]
1115 fn test_recovery_table_with_upstream_sinks_updates_union_node() {
1116 let database_id = DatabaseId::new(1);
1117 let job_id = JobId::new(10);
1118 let fragment_id = FragmentId::new(100);
1119 let sink_fragment_id = FragmentId::new(200);
1120
1121 let mut inflight_jobs: FragmentRenderMap = HashMap::new();
1122 let fragment = InflightFragmentInfo {
1123 fragment_id,
1124 distribution_type: DistributionType::Hash,
1125 fragment_type_mask: FragmentTypeMask::empty(),
1126 vnode_count: 1,
1127 nodes: PbStreamNode {
1128 node_body: Some(PbNodeBody::UpstreamSinkUnion(Box::new(
1129 PbUpstreamSinkUnionNode {
1130 init_upstreams: vec![],
1131 },
1132 ))),
1133 ..Default::default()
1134 },
1135 actors: HashMap::new(),
1136 state_table_ids: HashSet::new(),
1137 };
1138
1139 inflight_jobs
1140 .entry(database_id)
1141 .or_default()
1142 .entry(job_id)
1143 .or_default()
1144 .insert(fragment_id, fragment);
1145
1146 let upstream_sink_recovery = HashMap::from([(
1147 job_id,
1148 UpstreamSinkRecoveryInfo {
1149 target_fragment_id: fragment_id,
1150 upstream_infos: vec![UpstreamSinkInfo {
1151 sink_id: SinkId::new(1),
1152 sink_fragment_id,
1153 sink_output_fields: vec![],
1154 sink_original_target_columns: vec![],
1155 project_exprs: vec![],
1156 new_sink_downstream: DownstreamFragmentRelation {
1157 downstream_fragment_id: FragmentId::new(300),
1158 dispatcher_type: DispatcherType::Hash,
1159 dist_key_indices: vec![],
1160 output_mapping: PbDispatchOutputMapping::default(),
1161 },
1162 }],
1163 },
1164 )]);
1165
1166 recovery_table_with_upstream_sinks(&mut inflight_jobs, &upstream_sink_recovery).unwrap();
1167
1168 let updated = inflight_jobs
1169 .get(&database_id)
1170 .unwrap()
1171 .get(&job_id)
1172 .unwrap()
1173 .get(&fragment_id)
1174 .unwrap();
1175
1176 let PbNodeBody::UpstreamSinkUnion(updated_union) =
1177 updated.nodes.node_body.as_ref().unwrap()
1178 else {
1179 panic!("expected upstream sink union node");
1180 };
1181
1182 assert_eq!(updated_union.init_upstreams.len(), 1);
1183 assert_eq!(
1184 updated_union.init_upstreams[0].upstream_fragment_id,
1185 sink_fragment_id.as_raw_id()
1186 );
1187 }
1188
1189 #[test]
1190 fn test_build_stream_actors_uses_preloaded_extra_info() {
1191 let database_id = DatabaseId::new(2);
1192 let job_id = JobId::new(20);
1193 let fragment_id = FragmentId::new(120);
1194 let actor_id = ActorId::new(500);
1195
1196 let mut inflight_jobs: FragmentRenderMap = HashMap::new();
1197 inflight_jobs
1198 .entry(database_id)
1199 .or_default()
1200 .entry(job_id)
1201 .or_default()
1202 .insert(
1203 fragment_id,
1204 InflightFragmentInfo {
1205 fragment_id,
1206 distribution_type: DistributionType::Hash,
1207 fragment_type_mask: FragmentTypeMask::empty(),
1208 vnode_count: 1,
1209 nodes: PbStreamNode::default(),
1210 actors: HashMap::from([(
1211 actor_id,
1212 InflightActorInfo {
1213 worker_id: WorkerId::new(1),
1214 vnode_bitmap: None,
1215 splits: vec![],
1216 },
1217 )]),
1218 state_table_ids: HashSet::new(),
1219 },
1220 );
1221
1222 let job_extra_info = HashMap::from([(
1223 job_id,
1224 StreamingJobExtraInfo {
1225 timezone: Some("UTC".to_owned()),
1226 config_override: "cfg".into(),
1227 job_definition: "definition".to_owned(),
1228 backfill_orders: None,
1229 refresh_interval_sec: None,
1230 },
1231 )]);
1232
1233 let stream_actors = build_stream_actors(&inflight_jobs, &job_extra_info).unwrap();
1234
1235 let actor = stream_actors.get(&actor_id).unwrap();
1236 assert_eq!(actor.actor_id, actor_id);
1237 assert_eq!(actor.fragment_id, fragment_id);
1238 assert_eq!(actor.mview_definition, "definition");
1239 assert_eq!(&*actor.config_override, "cfg");
1240 let expr_ctx = actor.expr_context.as_ref().unwrap();
1241 assert_eq!(expr_ctx.time_zone, "UTC");
1242 }
1243}