risingwave_storage/hummock/compactor/
mod.rs

1// Copyright 2022 RisingWave Labs
2//
3// Licensed under the Apache License, Version 2.0 (the "License");
4// you may not use this file except in compliance with the License.
5// You may obtain a copy of the License at
6//
7//     http://www.apache.org/licenses/LICENSE-2.0
8//
9// Unless required by applicable law or agreed to in writing, software
10// distributed under the License is distributed on an "AS IS" BASIS,
11// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
12// See the License for the specific language governing permissions and
13// limitations under the License.
14
15mod compaction_executor;
16mod compaction_filter;
17pub mod compaction_utils;
18mod iceberg_compaction;
19use risingwave_hummock_sdk::compact_task::{CompactTask, ValidationTask};
20use risingwave_pb::compactor::{DispatchCompactionTaskRequest, dispatch_compaction_task_request};
21use risingwave_pb::hummock::PbCompactTask;
22use risingwave_pb::hummock::report_compaction_task_request::{
23    Event as ReportCompactionTaskEvent, HeartBeat as SharedHeartBeat,
24    ReportTask as ReportSharedTask,
25};
26use risingwave_pb::iceberg_compaction::{
27    SubscribeIcebergCompactionEventRequest, SubscribeIcebergCompactionEventResponse,
28    subscribe_iceberg_compaction_event_request,
29};
30use risingwave_rpc_client::GrpcCompactorProxyClient;
31use thiserror_ext::AsReport;
32use tokio::sync::mpsc;
33use tonic::Request;
34
35pub mod compactor_runner;
36mod context;
37pub mod fast_compactor_runner;
38mod iterator;
39mod shared_buffer_compact;
40pub(super) mod task_progress;
41
42use std::collections::{HashMap, VecDeque};
43use std::marker::PhantomData;
44use std::sync::atomic::{AtomicU32, AtomicU64, Ordering};
45use std::sync::{Arc, Mutex};
46use std::time::{Duration, SystemTime};
47
48use await_tree::{InstrumentAwait, SpanExt};
49pub use compaction_executor::CompactionExecutor;
50pub use compaction_filter::{
51    CompactionFilter, DummyCompactionFilter, MultiCompactionFilter, StateCleanUpCompactionFilter,
52    TtlCompactionFilter,
53};
54pub use context::{
55    CompactionAwaitTreeRegRef, CompactorContext, await_tree_key, new_compaction_await_tree_reg_ref,
56};
57use futures::{StreamExt, pin_mut};
58// Import iceberg compactor runner types from the local `iceberg_compaction` module.
59use iceberg_compaction::iceberg_compactor_runner::{
60    IcebergCompactorRunnerConfigBuilder, create_plan_runners,
61};
62use iceberg_compaction::{IcebergTaskQueue, PushResult};
63pub use iterator::{ConcatSstableIterator, SstableStreamIterator};
64use more_asserts::assert_ge;
65use risingwave_hummock_sdk::table_stats::{TableStatsMap, to_prost_table_stats_map};
66use risingwave_hummock_sdk::{
67    HummockCompactionTaskId, HummockSstableObjectId, LocalSstableInfo, compact_task_to_string,
68};
69use risingwave_pb::hummock::compact_task::TaskStatus;
70use risingwave_pb::hummock::subscribe_compaction_event_request::{
71    Event as RequestEvent, HeartBeat, PullTask, ReportTask,
72};
73use risingwave_pb::hummock::subscribe_compaction_event_response::Event as ResponseEvent;
74use risingwave_pb::hummock::{
75    CompactTaskProgress, ReportCompactionTaskRequest, SubscribeCompactionEventRequest,
76    SubscribeCompactionEventResponse,
77};
78use risingwave_rpc_client::HummockMetaClient;
79pub use shared_buffer_compact::{compact, merge_imms_in_memory};
80use tokio::sync::oneshot::Sender;
81use tokio::task::JoinHandle;
82use tokio::time::Instant;
83
84pub use self::compaction_utils::{
85    CompactionStatistics, RemoteBuilderFactory, TaskConfig, check_compaction_result,
86    check_flush_result,
87};
88pub use self::task_progress::TaskProgress;
89use super::multi_builder::CapacitySplitTableBuilder;
90use super::{
91    GetObjectId, HummockResult, ObjectIdManager, SstableBuilderOptions, Xor16FilterBuilder,
92};
93use crate::compaction_catalog_manager::{
94    CompactionCatalogAgentRef, CompactionCatalogManager, CompactionCatalogManagerRef,
95};
96use crate::hummock::compactor::compaction_utils::calculate_task_parallelism;
97use crate::hummock::compactor::compactor_runner::{compact_and_build_sst, compact_done};
98use crate::hummock::compactor::iceberg_compaction::TaskKey;
99use crate::hummock::iterator::{Forward, HummockIterator};
100use crate::hummock::{
101    BlockedXor16FilterBuilder, FilterBuilder, SharedComapctorObjectIdManager, SstableWriterFactory,
102    UnifiedSstableWriterFactory, validate_ssts,
103};
104use crate::monitor::CompactorMetrics;
105
106/// Heartbeat logging interval for compaction tasks
107const COMPACTION_HEARTBEAT_LOG_INTERVAL: Duration = Duration::from_secs(60);
108
109/// Represents the compaction task state for logging purposes
110#[derive(Debug, Clone, PartialEq, Eq)]
111struct CompactionLogState {
112    running_parallelism: u32,
113    pull_task_ack: bool,
114    pending_pull_task_count: u32,
115}
116
117/// Represents the iceberg compaction task state for logging purposes
118#[derive(Debug, Clone, PartialEq, Eq)]
119struct IcebergCompactionLogState {
120    running_parallelism: u32,
121    waiting_parallelism: u32,
122    available_parallelism: u32,
123    pull_task_ack: bool,
124    pending_pull_task_count: u32,
125}
126
127/// Controls periodic logging with state change detection
128struct LogThrottler<T: PartialEq> {
129    last_logged_state: Option<T>,
130    last_heartbeat: Instant,
131    heartbeat_interval: Duration,
132}
133
134impl<T: PartialEq> LogThrottler<T> {
135    fn new(heartbeat_interval: Duration) -> Self {
136        Self {
137            last_logged_state: None,
138            last_heartbeat: Instant::now(),
139            heartbeat_interval,
140        }
141    }
142
143    /// Returns true if logging should occur (state changed or heartbeat interval elapsed)
144    fn should_log(&self, current_state: &T) -> bool {
145        self.last_logged_state.as_ref() != Some(current_state)
146            || self.last_heartbeat.elapsed() >= self.heartbeat_interval
147    }
148
149    /// Updates the state and heartbeat timestamp after logging
150    fn update(&mut self, current_state: T) {
151        self.last_logged_state = Some(current_state);
152        self.last_heartbeat = Instant::now();
153    }
154}
155
156/// Implementation of Hummock compaction.
157pub struct Compactor {
158    /// The context of the compactor.
159    context: CompactorContext,
160    object_id_getter: Arc<dyn GetObjectId>,
161    task_config: TaskConfig,
162    options: SstableBuilderOptions,
163    get_id_time: Arc<AtomicU64>,
164}
165
166pub type CompactOutput = (usize, Vec<LocalSstableInfo>, CompactionStatistics);
167
168impl Compactor {
169    /// Create a new compactor.
170    pub fn new(
171        context: CompactorContext,
172        options: SstableBuilderOptions,
173        task_config: TaskConfig,
174        object_id_getter: Arc<dyn GetObjectId>,
175    ) -> Self {
176        Self {
177            context,
178            options,
179            task_config,
180            get_id_time: Arc::new(AtomicU64::new(0)),
181            object_id_getter,
182        }
183    }
184
185    /// Compact the given key range and merge iterator.
186    /// Upon a successful return, the built SSTs are already uploaded to object store.
187    ///
188    /// `task_progress` is only used for tasks on the compactor.
189    async fn compact_key_range(
190        &self,
191        iter: impl HummockIterator<Direction = Forward>,
192        compaction_filter: impl CompactionFilter,
193        compaction_catalog_agent_ref: CompactionCatalogAgentRef,
194        task_progress: Option<Arc<TaskProgress>>,
195        task_id: Option<HummockCompactionTaskId>,
196        split_index: Option<usize>,
197    ) -> HummockResult<(Vec<LocalSstableInfo>, CompactionStatistics)> {
198        // Monitor time cost building shared buffer to SSTs.
199        let compact_timer = if self.context.is_share_buffer_compact {
200            self.context
201                .compactor_metrics
202                .write_build_l0_sst_duration
203                .start_timer()
204        } else {
205            self.context
206                .compactor_metrics
207                .compact_sst_duration
208                .start_timer()
209        };
210
211        let (split_table_outputs, table_stats_map) = {
212            let factory = UnifiedSstableWriterFactory::new(self.context.sstable_store.clone());
213            if self.task_config.use_block_based_filter {
214                self.compact_key_range_impl::<_, BlockedXor16FilterBuilder>(
215                    factory,
216                    iter,
217                    compaction_filter,
218                    compaction_catalog_agent_ref,
219                    task_progress.clone(),
220                    self.object_id_getter.clone(),
221                )
222                .instrument_await("compact".verbose())
223                .await?
224            } else {
225                self.compact_key_range_impl::<_, Xor16FilterBuilder>(
226                    factory,
227                    iter,
228                    compaction_filter,
229                    compaction_catalog_agent_ref,
230                    task_progress.clone(),
231                    self.object_id_getter.clone(),
232                )
233                .instrument_await("compact".verbose())
234                .await?
235            }
236        };
237
238        compact_timer.observe_duration();
239
240        Self::report_progress(
241            self.context.compactor_metrics.clone(),
242            task_progress,
243            &split_table_outputs,
244            self.context.is_share_buffer_compact,
245        );
246
247        self.context
248            .compactor_metrics
249            .get_table_id_total_time_duration
250            .observe(self.get_id_time.load(Ordering::Relaxed) as f64 / 1000.0 / 1000.0);
251
252        debug_assert!(
253            split_table_outputs
254                .iter()
255                .all(|table_info| table_info.sst_info.table_ids.is_sorted())
256        );
257
258        if task_id.is_some() {
259            // skip shared buffer compaction
260            tracing::info!(
261                "Finish Task {:?} split_index {:?} sst count {}",
262                task_id,
263                split_index,
264                split_table_outputs.len()
265            );
266        }
267        Ok((split_table_outputs, table_stats_map))
268    }
269
270    pub fn report_progress(
271        metrics: Arc<CompactorMetrics>,
272        task_progress: Option<Arc<TaskProgress>>,
273        ssts: &Vec<LocalSstableInfo>,
274        is_share_buffer_compact: bool,
275    ) {
276        for sst_info in ssts {
277            let sst_size = sst_info.file_size();
278            if let Some(tracker) = &task_progress {
279                tracker.inc_ssts_uploaded();
280                tracker.dec_num_pending_write_io();
281            }
282            if is_share_buffer_compact {
283                metrics.shared_buffer_to_sstable_size.observe(sst_size as _);
284            } else {
285                metrics.compaction_upload_sst_counts.inc();
286            }
287        }
288    }
289
290    async fn compact_key_range_impl<F: SstableWriterFactory, B: FilterBuilder>(
291        &self,
292        writer_factory: F,
293        iter: impl HummockIterator<Direction = Forward>,
294        compaction_filter: impl CompactionFilter,
295        compaction_catalog_agent_ref: CompactionCatalogAgentRef,
296        task_progress: Option<Arc<TaskProgress>>,
297        object_id_getter: Arc<dyn GetObjectId>,
298    ) -> HummockResult<(Vec<LocalSstableInfo>, CompactionStatistics)> {
299        let builder_factory = RemoteBuilderFactory::<F, B> {
300            object_id_getter,
301            limiter: self.context.memory_limiter.clone(),
302            options: self.options.clone(),
303            policy: self.task_config.cache_policy,
304            remote_rpc_cost: self.get_id_time.clone(),
305            compaction_catalog_agent_ref: compaction_catalog_agent_ref.clone(),
306            sstable_writer_factory: writer_factory,
307            _phantom: PhantomData,
308        };
309
310        let mut sst_builder = CapacitySplitTableBuilder::new(
311            builder_factory,
312            self.context.compactor_metrics.clone(),
313            task_progress.clone(),
314            self.task_config.table_vnode_partition.clone(),
315            self.context
316                .storage_opts
317                .compactor_concurrent_uploading_sst_count,
318            compaction_catalog_agent_ref,
319        );
320        let compaction_statistics = compact_and_build_sst(
321            &mut sst_builder,
322            &self.task_config,
323            self.context.compactor_metrics.clone(),
324            iter,
325            compaction_filter,
326        )
327        .instrument_await("compact_and_build_sst".verbose())
328        .await?;
329
330        let ssts = sst_builder
331            .finish()
332            .instrument_await("builder_finish".verbose())
333            .await?;
334
335        Ok((ssts, compaction_statistics))
336    }
337}
338
339/// The background compaction thread that receives compaction tasks from hummock compaction
340/// manager and runs compaction tasks.
341#[must_use]
342pub fn start_iceberg_compactor(
343    compactor_context: CompactorContext,
344    hummock_meta_client: Arc<dyn HummockMetaClient>,
345) -> (JoinHandle<()>, Sender<()>) {
346    let (shutdown_tx, mut shutdown_rx) = tokio::sync::oneshot::channel();
347    let stream_retry_interval = Duration::from_secs(30);
348    let periodic_event_update_interval = Duration::from_millis(1000);
349    let worker_num = compactor_context.compaction_executor.worker_num();
350
351    let max_task_parallelism: u32 = (worker_num as f32
352        * compactor_context.storage_opts.compactor_max_task_multiplier)
353        .ceil() as u32;
354
355    const MAX_PULL_TASK_COUNT: u32 = 4;
356    let max_pull_task_count = std::cmp::min(max_task_parallelism, MAX_PULL_TASK_COUNT);
357
358    assert_ge!(
359        compactor_context.storage_opts.compactor_max_task_multiplier,
360        0.0
361    );
362
363    let join_handle = tokio::spawn(async move {
364        // Initialize task queue with event-driven scheduling
365        let pending_parallelism_budget = (max_task_parallelism as f32
366            * compactor_context
367                .storage_opts
368                .iceberg_compaction_pending_parallelism_budget_multiplier)
369            .ceil() as u32;
370        let mut task_queue =
371            IcebergTaskQueue::new(max_task_parallelism, pending_parallelism_budget);
372
373        // Shutdown tracking for running tasks (task_key -> shutdown_sender)
374        let shutdown_map = Arc::new(Mutex::new(HashMap::<TaskKey, Sender<()>>::new()));
375
376        // Channel for task completion notifications
377        let (task_completion_tx, mut task_completion_rx) =
378            tokio::sync::mpsc::unbounded_channel::<TaskKey>();
379
380        let mut min_interval = tokio::time::interval(stream_retry_interval);
381        let mut periodic_event_interval = tokio::time::interval(periodic_event_update_interval);
382
383        // Track last logged state to avoid duplicate logs
384        let mut log_throttler =
385            LogThrottler::<IcebergCompactionLogState>::new(COMPACTION_HEARTBEAT_LOG_INTERVAL);
386
387        // This outer loop is to recreate stream.
388        'start_stream: loop {
389            // reset state
390            // pull_task_ack.store(true, Ordering::SeqCst);
391            let mut pull_task_ack = true;
392            tokio::select! {
393                // Wait for interval.
394                _ = min_interval.tick() => {},
395                // Shutdown compactor.
396                _ = &mut shutdown_rx => {
397                    tracing::info!("Compactor is shutting down");
398                    return;
399                }
400            }
401
402            let (request_sender, response_event_stream) = match hummock_meta_client
403                .subscribe_iceberg_compaction_event()
404                .await
405            {
406                Ok((request_sender, response_event_stream)) => {
407                    tracing::debug!("Succeeded subscribe_iceberg_compaction_event.");
408                    (request_sender, response_event_stream)
409                }
410
411                Err(e) => {
412                    tracing::warn!(
413                        error = %e.as_report(),
414                        "Subscribing to iceberg compaction tasks failed with error. Will retry.",
415                    );
416                    continue 'start_stream;
417                }
418            };
419
420            pin_mut!(response_event_stream);
421
422            let _executor = compactor_context.compaction_executor.clone();
423
424            // This inner loop is to consume stream or report task progress.
425            let mut event_loop_iteration_now = Instant::now();
426            'consume_stream: loop {
427                {
428                    // report
429                    compactor_context
430                        .compactor_metrics
431                        .compaction_event_loop_iteration_latency
432                        .observe(event_loop_iteration_now.elapsed().as_millis() as _);
433                    event_loop_iteration_now = Instant::now();
434                }
435
436                let request_sender = request_sender.clone();
437                let event: Option<Result<SubscribeIcebergCompactionEventResponse, _>> = tokio::select! {
438                    // Handle task completion notifications
439                    Some(completed_task_key) = task_completion_rx.recv() => {
440                        tracing::debug!(task_id = completed_task_key.0, plan_index = completed_task_key.1, "Task completed, updating queue state");
441                        task_queue.finish_running(completed_task_key);
442                        continue 'consume_stream;
443                    }
444
445                    // Event-driven task scheduling - wait for tasks to become schedulable
446                    _ = task_queue.wait_schedulable() => {
447                        schedule_queued_tasks(
448                            &mut task_queue,
449                            &compactor_context,
450                            &shutdown_map,
451                            &task_completion_tx,
452                        );
453                        continue 'consume_stream;
454                    }
455
456                    _ = periodic_event_interval.tick() => {
457                        // Only handle meta task pulling in periodic tick
458                        let should_restart_stream = handle_meta_task_pulling(
459                            &mut pull_task_ack,
460                            &task_queue,
461                            max_task_parallelism,
462                            max_pull_task_count,
463                            &request_sender,
464                            &mut log_throttler,
465                        );
466
467                        if should_restart_stream {
468                            continue 'start_stream;
469                        }
470                        continue;
471                    }
472                    event = response_event_stream.next() => {
473                        event
474                    }
475
476                    _ = &mut shutdown_rx => {
477                        tracing::info!("Iceberg Compactor is shutting down");
478                        return
479                    }
480                };
481
482                match event {
483                    Some(Ok(SubscribeIcebergCompactionEventResponse {
484                        event,
485                        create_at: _create_at,
486                    })) => {
487                        let event = match event {
488                            Some(event) => event,
489                            None => continue 'consume_stream,
490                        };
491
492                        match event {
493                            risingwave_pb::iceberg_compaction::subscribe_iceberg_compaction_event_response::Event::CompactTask(iceberg_compaction_task) => {
494                                let task_id = iceberg_compaction_task.task_id;
495                                // Note: write_parquet_properties is now built from sink config (IcebergConfig) in create_plan_runners
496                                let compactor_runner_config = match IcebergCompactorRunnerConfigBuilder::default()
497                                    .max_parallelism((worker_num as f32 * compactor_context.storage_opts.iceberg_compaction_task_parallelism_ratio) as u32)
498                                    .min_size_per_partition(compactor_context.storage_opts.iceberg_compaction_min_size_per_partition_mb as u64 * 1024 * 1024)
499                                    .max_file_count_per_partition(compactor_context.storage_opts.iceberg_compaction_max_file_count_per_partition)
500                                    .enable_validate_compaction(compactor_context.storage_opts.iceberg_compaction_enable_validate)
501                                    .max_record_batch_rows(compactor_context.storage_opts.iceberg_compaction_max_record_batch_rows)
502                                    .enable_heuristic_output_parallelism(compactor_context.storage_opts.iceberg_compaction_enable_heuristic_output_parallelism)
503                                    .max_concurrent_closes(compactor_context.storage_opts.iceberg_compaction_max_concurrent_closes)
504                                    .enable_dynamic_size_estimation(compactor_context.storage_opts.iceberg_compaction_enable_dynamic_size_estimation)
505                                    .size_estimation_smoothing_factor(compactor_context.storage_opts.iceberg_compaction_size_estimation_smoothing_factor)
506                                    .target_binpack_group_size_mb(
507                                        compactor_context.storage_opts.iceberg_compaction_target_binpack_group_size_mb
508                                    )
509                                    .min_group_size_mb(
510                                        compactor_context.storage_opts.iceberg_compaction_min_group_size_mb
511                                    )
512                                    .min_group_file_count(
513                                        compactor_context.storage_opts.iceberg_compaction_min_group_file_count
514                                    )
515                                    .build() {
516                                    Ok(config) => config,
517                                    Err(e) => {
518                                        tracing::warn!(error = %e.as_report(), "Failed to build iceberg compactor runner config {}", task_id);
519                                        continue 'consume_stream;
520                                    }
521                                };
522
523                                // Create multiple plan runners from the task
524                                let plan_runners = match create_plan_runners(
525                                    iceberg_compaction_task,
526                                    compactor_runner_config,
527                                    compactor_context.compactor_metrics.clone(),
528                                ).await {
529                                    Ok(runners) => runners,
530                                    Err(e) => {
531                                        tracing::warn!(error = %e.as_report(), task_id, "Failed to create plan runners");
532                                        continue 'consume_stream;
533                                    }
534                                };
535
536                                if plan_runners.is_empty() {
537                                    tracing::info!(task_id, "No plans to execute");
538                                    continue 'consume_stream;
539                                }
540
541                                // Enqueue each plan runner independently
542                                let total_plans = plan_runners.len();
543                                let mut enqueued_count = 0;
544
545                                for runner in plan_runners {
546                                    let meta = runner.to_meta();
547                                    let required_parallelism = runner.required_parallelism();
548                                    let push_result = task_queue.push(meta.clone(), Some(runner));
549
550                                    match push_result {
551                                        PushResult::Added => {
552                                            enqueued_count += 1;
553                                            tracing::debug!(
554                                                task_id = task_id,
555                                                plan_index = enqueued_count - 1,
556                                                required_parallelism = required_parallelism,
557                                                "Iceberg plan runner added to queue"
558                                            );
559                                        },
560                                        PushResult::RejectedCapacity => {
561                                            tracing::warn!(
562                                                task_id = task_id,
563                                                required_parallelism = required_parallelism,
564                                                pending_budget = pending_parallelism_budget,
565                                                enqueued_count = enqueued_count,
566                                                total_plans = total_plans,
567                                                "Iceberg plan runner rejected - queue capacity exceeded"
568                                            );
569                                            // Stop enqueuing remaining plans
570                                            break;
571                                        },
572                                        PushResult::RejectedTooLarge => {
573                                            tracing::error!(
574                                                task_id = task_id,
575                                                required_parallelism = required_parallelism,
576                                                max_parallelism = max_task_parallelism,
577                                                "Iceberg plan runner rejected - parallelism exceeds max"
578                                            );
579                                        },
580                                        PushResult::RejectedInvalidParallelism => {
581                                            tracing::error!(
582                                                task_id = task_id,
583                                                required_parallelism = required_parallelism,
584                                                "Iceberg plan runner rejected - invalid parallelism"
585                                            );
586                                        },
587                                        PushResult::RejectedDuplicate => {
588                                            tracing::error!(
589                                                task_id = task_id,
590                                                plan_index = meta.plan_index,
591                                                "Iceberg plan runner rejected - duplicate (task_id, plan_index)"
592                                            );
593                                        }
594                                    }
595                                }
596
597                                tracing::info!(
598                                    task_id = task_id,
599                                    total_plans = total_plans,
600                                    enqueued_count = enqueued_count,
601                                    "Enqueued {} of {} Iceberg plan runners",
602                                    enqueued_count,
603                                    total_plans
604                                );
605                            },
606                            risingwave_pb::iceberg_compaction::subscribe_iceberg_compaction_event_response::Event::PullTaskAck(_) => {
607                                // set flag
608                                pull_task_ack = true;
609                            },
610                        }
611                    }
612                    Some(Err(e)) => {
613                        tracing::warn!("Failed to consume stream. {}", e.message());
614                        continue 'start_stream;
615                    }
616                    _ => {
617                        // The stream is exhausted
618                        continue 'start_stream;
619                    }
620                }
621            }
622        }
623    });
624
625    (join_handle, shutdown_tx)
626}
627
628/// The background compaction thread that receives compaction tasks from hummock compaction
629/// manager and runs compaction tasks.
630#[must_use]
631pub fn start_compactor(
632    compactor_context: CompactorContext,
633    hummock_meta_client: Arc<dyn HummockMetaClient>,
634    object_id_manager: Arc<ObjectIdManager>,
635    compaction_catalog_manager_ref: CompactionCatalogManagerRef,
636) -> (JoinHandle<()>, Sender<()>) {
637    type CompactionShutdownMap = Arc<Mutex<HashMap<u64, Sender<()>>>>;
638    let (shutdown_tx, mut shutdown_rx) = tokio::sync::oneshot::channel();
639    let stream_retry_interval = Duration::from_secs(30);
640    let task_progress = compactor_context.task_progress_manager.clone();
641    let periodic_event_update_interval = Duration::from_millis(1000);
642
643    let max_task_parallelism: u32 = (compactor_context.compaction_executor.worker_num() as f32
644        * compactor_context.storage_opts.compactor_max_task_multiplier)
645        .ceil() as u32;
646    let running_task_parallelism = Arc::new(AtomicU32::new(0));
647
648    const MAX_PULL_TASK_COUNT: u32 = 4;
649    let max_pull_task_count = std::cmp::min(max_task_parallelism, MAX_PULL_TASK_COUNT);
650
651    assert_ge!(
652        compactor_context.storage_opts.compactor_max_task_multiplier,
653        0.0
654    );
655
656    let join_handle = tokio::spawn(async move {
657        let shutdown_map = CompactionShutdownMap::default();
658        let mut min_interval = tokio::time::interval(stream_retry_interval);
659        let mut periodic_event_interval = tokio::time::interval(periodic_event_update_interval);
660
661        // Track last logged state to avoid duplicate logs
662        let mut log_throttler =
663            LogThrottler::<CompactionLogState>::new(COMPACTION_HEARTBEAT_LOG_INTERVAL);
664
665        // This outer loop is to recreate stream.
666        'start_stream: loop {
667            // reset state
668            // pull_task_ack.store(true, Ordering::SeqCst);
669            let mut pull_task_ack = true;
670            tokio::select! {
671                // Wait for interval.
672                _ = min_interval.tick() => {},
673                // Shutdown compactor.
674                _ = &mut shutdown_rx => {
675                    tracing::info!("Compactor is shutting down");
676                    return;
677                }
678            }
679
680            let (request_sender, response_event_stream) =
681                match hummock_meta_client.subscribe_compaction_event().await {
682                    Ok((request_sender, response_event_stream)) => {
683                        tracing::debug!("Succeeded subscribe_compaction_event.");
684                        (request_sender, response_event_stream)
685                    }
686
687                    Err(e) => {
688                        tracing::warn!(
689                            error = %e.as_report(),
690                            "Subscribing to compaction tasks failed with error. Will retry.",
691                        );
692                        continue 'start_stream;
693                    }
694                };
695
696            pin_mut!(response_event_stream);
697
698            let executor = compactor_context.compaction_executor.clone();
699            let object_id_manager = object_id_manager.clone();
700
701            // This inner loop is to consume stream or report task progress.
702            let mut event_loop_iteration_now = Instant::now();
703            'consume_stream: loop {
704                {
705                    // report
706                    compactor_context
707                        .compactor_metrics
708                        .compaction_event_loop_iteration_latency
709                        .observe(event_loop_iteration_now.elapsed().as_millis() as _);
710                    event_loop_iteration_now = Instant::now();
711                }
712
713                let running_task_parallelism = running_task_parallelism.clone();
714                let request_sender = request_sender.clone();
715                let event: Option<Result<SubscribeCompactionEventResponse, _>> = tokio::select! {
716                    _ = periodic_event_interval.tick() => {
717                        let progress_list = get_task_progress(task_progress.clone());
718
719                        if let Err(e) = request_sender.send(SubscribeCompactionEventRequest {
720                            event: Some(RequestEvent::HeartBeat(
721                                HeartBeat {
722                                    progress: progress_list
723                                }
724                            )),
725                            create_at: SystemTime::now()
726                                .duration_since(std::time::UNIX_EPOCH)
727                                .expect("Clock may have gone backwards")
728                                .as_millis() as u64,
729                        }) {
730                            tracing::warn!(error = %e.as_report(), "Failed to report task progress");
731                            // re subscribe stream
732                            continue 'start_stream;
733                        }
734
735
736                        let mut pending_pull_task_count = 0;
737                        if pull_task_ack {
738                            // TODO: Compute parallelism on meta side
739                            pending_pull_task_count = (max_task_parallelism - running_task_parallelism.load(Ordering::SeqCst)).min(max_pull_task_count);
740
741                            if pending_pull_task_count > 0 {
742                                if let Err(e) = request_sender.send(SubscribeCompactionEventRequest {
743                                    event: Some(RequestEvent::PullTask(
744                                        PullTask {
745                                            pull_task_count: pending_pull_task_count,
746                                        }
747                                    )),
748                                    create_at: SystemTime::now()
749                                        .duration_since(std::time::UNIX_EPOCH)
750                                        .expect("Clock may have gone backwards")
751                                        .as_millis() as u64,
752                                }) {
753                                    tracing::warn!(error = %e.as_report(), "Failed to pull task");
754
755                                    // re subscribe stream
756                                    continue 'start_stream;
757                                } else {
758                                    pull_task_ack = false;
759                                }
760                            }
761                        }
762
763                        let running_count = running_task_parallelism.load(Ordering::SeqCst);
764                        let current_state = CompactionLogState {
765                            running_parallelism: running_count,
766                            pull_task_ack,
767                            pending_pull_task_count,
768                        };
769
770                        // Log only when state changes or periodically as heartbeat
771                        if log_throttler.should_log(&current_state) {
772                            tracing::info!(
773                                running_parallelism_count = %current_state.running_parallelism,
774                                pull_task_ack = %current_state.pull_task_ack,
775                                pending_pull_task_count = %current_state.pending_pull_task_count
776                            );
777                            log_throttler.update(current_state);
778                        }
779
780                        continue;
781                    }
782                    event = response_event_stream.next() => {
783                        event
784                    }
785
786                    _ = &mut shutdown_rx => {
787                        tracing::info!("Compactor is shutting down");
788                        return
789                    }
790                };
791
792                fn send_report_task_event(
793                    compact_task: &CompactTask,
794                    table_stats: TableStatsMap,
795                    object_timestamps: HashMap<HummockSstableObjectId, u64>,
796                    request_sender: &mpsc::UnboundedSender<SubscribeCompactionEventRequest>,
797                ) {
798                    if let Err(e) = request_sender.send(SubscribeCompactionEventRequest {
799                        event: Some(RequestEvent::ReportTask(ReportTask {
800                            task_id: compact_task.task_id,
801                            task_status: compact_task.task_status.into(),
802                            sorted_output_ssts: compact_task
803                                .sorted_output_ssts
804                                .iter()
805                                .map(|sst| sst.into())
806                                .collect(),
807                            table_stats_change: to_prost_table_stats_map(table_stats),
808                            object_timestamps,
809                        })),
810                        create_at: SystemTime::now()
811                            .duration_since(std::time::UNIX_EPOCH)
812                            .expect("Clock may have gone backwards")
813                            .as_millis() as u64,
814                    }) {
815                        let task_id = compact_task.task_id;
816                        tracing::warn!(error = %e.as_report(), "Failed to report task {task_id:?}");
817                    }
818                }
819
820                match event {
821                    Some(Ok(SubscribeCompactionEventResponse { event, create_at })) => {
822                        let event = match event {
823                            Some(event) => event,
824                            None => continue 'consume_stream,
825                        };
826                        let shutdown = shutdown_map.clone();
827                        let context = compactor_context.clone();
828                        let consumed_latency_ms = SystemTime::now()
829                            .duration_since(std::time::UNIX_EPOCH)
830                            .expect("Clock may have gone backwards")
831                            .as_millis() as u64
832                            - create_at;
833                        context
834                            .compactor_metrics
835                            .compaction_event_consumed_latency
836                            .observe(consumed_latency_ms as _);
837
838                        let object_id_manager = object_id_manager.clone();
839                        let compaction_catalog_manager_ref = compaction_catalog_manager_ref.clone();
840
841                        match event {
842                            ResponseEvent::CompactTask(compact_task) => {
843                                let compact_task = CompactTask::from(compact_task);
844                                let parallelism =
845                                    calculate_task_parallelism(&compact_task, &context);
846
847                                assert_ne!(parallelism, 0, "splits cannot be empty");
848
849                                if (max_task_parallelism
850                                    - running_task_parallelism.load(Ordering::SeqCst))
851                                    < parallelism as u32
852                                {
853                                    tracing::warn!(
854                                        "Not enough core parallelism to serve the task {} task_parallelism {} running_task_parallelism {} max_task_parallelism {}",
855                                        compact_task.task_id,
856                                        parallelism,
857                                        max_task_parallelism,
858                                        running_task_parallelism.load(Ordering::Relaxed),
859                                    );
860                                    let (compact_task, table_stats, object_timestamps) =
861                                        compact_done(
862                                            compact_task,
863                                            context.clone(),
864                                            vec![],
865                                            TaskStatus::NoAvailCpuResourceCanceled,
866                                        );
867
868                                    send_report_task_event(
869                                        &compact_task,
870                                        table_stats,
871                                        object_timestamps,
872                                        &request_sender,
873                                    );
874
875                                    continue 'consume_stream;
876                                }
877
878                                running_task_parallelism
879                                    .fetch_add(parallelism as u32, Ordering::SeqCst);
880                                executor.spawn(async move {
881                                    let (tx, rx) = tokio::sync::oneshot::channel();
882                                    let task_id = compact_task.task_id;
883                                    shutdown.lock().unwrap().insert(task_id, tx);
884
885                                    let ((compact_task, table_stats, object_timestamps), _memory_tracker)= compactor_runner::compact(
886                                        context.clone(),
887                                        compact_task,
888                                        rx,
889                                        object_id_manager.clone(),
890                                        compaction_catalog_manager_ref.clone(),
891                                    )
892                                    .await;
893
894                                    shutdown.lock().unwrap().remove(&task_id);
895                                    running_task_parallelism.fetch_sub(parallelism as u32, Ordering::SeqCst);
896
897                                    send_report_task_event(
898                                        &compact_task,
899                                        table_stats,
900                                        object_timestamps,
901                                        &request_sender,
902                                    );
903
904                                    let enable_check_compaction_result =
905                                    context.storage_opts.check_compaction_result;
906                                    let need_check_task = !compact_task.sorted_output_ssts.is_empty() && compact_task.task_status == TaskStatus::Success;
907
908                                    if enable_check_compaction_result && need_check_task {
909                                        let compact_table_ids = compact_task.build_compact_table_ids();
910                                        match compaction_catalog_manager_ref.acquire(compact_table_ids.into_iter().collect()).await {
911                                            Ok(compaction_catalog_agent_ref) =>  {
912                                                match check_compaction_result(&compact_task, context.clone(), compaction_catalog_agent_ref).await
913                                                {
914                                                    Err(e) => {
915                                                        tracing::warn!(error = %e.as_report(), "Failed to check compaction task {}",compact_task.task_id);
916                                                    }
917                                                    Ok(true) => (),
918                                                    Ok(false) => {
919                                                        panic!("Failed to pass consistency check for result of compaction task:\n{:?}", compact_task_to_string(&compact_task));
920                                                    }
921                                                }
922                                            },
923                                            Err(e) => {
924                                                tracing::warn!(error = %e.as_report(), "failed to acquire compaction catalog agent");
925                                            }
926                                        }
927                                    }
928                                });
929                            }
930                            ResponseEvent::VacuumTask(_) => {
931                                unreachable!("unexpected vacuum task");
932                            }
933                            ResponseEvent::FullScanTask(_) => {
934                                unreachable!("unexpected scan task");
935                            }
936                            ResponseEvent::ValidationTask(validation_task) => {
937                                let validation_task = ValidationTask::from(validation_task);
938                                executor.spawn(async move {
939                                    validate_ssts(validation_task, context.sstable_store.clone())
940                                        .await;
941                                });
942                            }
943                            ResponseEvent::CancelCompactTask(cancel_compact_task) => match shutdown
944                                .lock()
945                                .unwrap()
946                                .remove(&cancel_compact_task.task_id)
947                            {
948                                Some(tx) => {
949                                    if tx.send(()).is_err() {
950                                        tracing::warn!(
951                                            "Cancellation of compaction task failed. task_id: {}",
952                                            cancel_compact_task.task_id
953                                        );
954                                    }
955                                }
956                                _ => {
957                                    tracing::warn!(
958                                        "Attempting to cancel non-existent compaction task. task_id: {}",
959                                        cancel_compact_task.task_id
960                                    );
961                                }
962                            },
963
964                            ResponseEvent::PullTaskAck(_pull_task_ack) => {
965                                // set flag
966                                pull_task_ack = true;
967                            }
968                        }
969                    }
970                    Some(Err(e)) => {
971                        tracing::warn!("Failed to consume stream. {}", e.message());
972                        continue 'start_stream;
973                    }
974                    _ => {
975                        // The stream is exhausted
976                        continue 'start_stream;
977                    }
978                }
979            }
980        }
981    });
982
983    (join_handle, shutdown_tx)
984}
985
986/// The background compaction thread that receives compaction tasks from hummock compaction
987/// manager and runs compaction tasks.
988#[must_use]
989pub fn start_shared_compactor(
990    grpc_proxy_client: GrpcCompactorProxyClient,
991    mut receiver: mpsc::UnboundedReceiver<Request<DispatchCompactionTaskRequest>>,
992    context: CompactorContext,
993) -> (JoinHandle<()>, Sender<()>) {
994    type CompactionShutdownMap = Arc<Mutex<HashMap<u64, Sender<()>>>>;
995    let task_progress = context.task_progress_manager.clone();
996    let (shutdown_tx, mut shutdown_rx) = tokio::sync::oneshot::channel();
997    let periodic_event_update_interval = Duration::from_millis(1000);
998
999    let join_handle = tokio::spawn(async move {
1000        let shutdown_map = CompactionShutdownMap::default();
1001
1002        let mut periodic_event_interval = tokio::time::interval(periodic_event_update_interval);
1003        let executor = context.compaction_executor.clone();
1004        let report_heartbeat_client = grpc_proxy_client.clone();
1005        'consume_stream: loop {
1006            let request: Option<Request<DispatchCompactionTaskRequest>> = tokio::select! {
1007                _ = periodic_event_interval.tick() => {
1008                    let progress_list = get_task_progress(task_progress.clone());
1009                    let report_compaction_task_request = ReportCompactionTaskRequest{
1010                        event: Some(ReportCompactionTaskEvent::HeartBeat(
1011                            SharedHeartBeat {
1012                                progress: progress_list
1013                            }
1014                        )),
1015                     };
1016                    if let Err(e) = report_heartbeat_client.report_compaction_task(report_compaction_task_request).await{
1017                        tracing::warn!(error = %e.as_report(), "Failed to report heartbeat");
1018                    }
1019                    continue
1020                }
1021
1022
1023                _ = &mut shutdown_rx => {
1024                    tracing::info!("Compactor is shutting down");
1025                    return
1026                }
1027
1028                request = receiver.recv() => {
1029                    request
1030                }
1031
1032            };
1033            match request {
1034                Some(request) => {
1035                    let context = context.clone();
1036                    let shutdown = shutdown_map.clone();
1037
1038                    let cloned_grpc_proxy_client = grpc_proxy_client.clone();
1039                    executor.spawn(async move {
1040                        let DispatchCompactionTaskRequest {
1041                            tables,
1042                            output_object_ids,
1043                            task: dispatch_task,
1044                        } = request.into_inner();
1045                        let table_id_to_catalog = tables.into_iter().fold(HashMap::new(), |mut acc, table| {
1046                            acc.insert(table.id, table);
1047                            acc
1048                        });
1049
1050                        let mut output_object_ids_deque: VecDeque<_> = VecDeque::new();
1051                        output_object_ids_deque.extend(output_object_ids.into_iter().map(Into::<HummockSstableObjectId>::into));
1052                        let shared_compactor_object_id_manager =
1053                            SharedComapctorObjectIdManager::new(output_object_ids_deque, cloned_grpc_proxy_client.clone(), context.storage_opts.sstable_id_remote_fetch_number);
1054                            match dispatch_task.unwrap() {
1055                                dispatch_compaction_task_request::Task::CompactTask(compact_task) => {
1056                                    let compact_task = CompactTask::from(&compact_task);
1057                                    let (tx, rx) = tokio::sync::oneshot::channel();
1058                                    let task_id = compact_task.task_id;
1059                                    shutdown.lock().unwrap().insert(task_id, tx);
1060
1061                                    let compaction_catalog_agent_ref = CompactionCatalogManager::build_compaction_catalog_agent(table_id_to_catalog);
1062                                    let ((compact_task, table_stats, object_timestamps), _memory_tracker)= compactor_runner::compact_with_agent(
1063                                        context.clone(),
1064                                        compact_task,
1065                                        rx,
1066                                        shared_compactor_object_id_manager,
1067                                        compaction_catalog_agent_ref.clone(),
1068                                    )
1069                                    .await;
1070                                    shutdown.lock().unwrap().remove(&task_id);
1071                                    let report_compaction_task_request = ReportCompactionTaskRequest {
1072                                        event: Some(ReportCompactionTaskEvent::ReportTask(ReportSharedTask {
1073                                            compact_task: Some(PbCompactTask::from(&compact_task)),
1074                                            table_stats_change: to_prost_table_stats_map(table_stats),
1075                                            object_timestamps,
1076                                    })),
1077                                    };
1078
1079                                    match cloned_grpc_proxy_client
1080                                        .report_compaction_task(report_compaction_task_request)
1081                                        .await
1082                                    {
1083                                        Ok(_) => {
1084                                            // TODO: remove this method after we have running risingwave cluster with fast compact algorithm stably for a long time.
1085                                            let enable_check_compaction_result = context.storage_opts.check_compaction_result;
1086                                            let need_check_task = !compact_task.sorted_output_ssts.is_empty() && compact_task.task_status == TaskStatus::Success;
1087                                            if enable_check_compaction_result && need_check_task {
1088                                                match check_compaction_result(&compact_task, context.clone(),compaction_catalog_agent_ref).await {
1089                                                    Err(e) => {
1090                                                        tracing::warn!(error = %e.as_report(), "Failed to check compaction task {}", task_id);
1091                                                    },
1092                                                    Ok(true) => (),
1093                                                    Ok(false) => {
1094                                                        panic!("Failed to pass consistency check for result of compaction task:\n{:?}", compact_task_to_string(&compact_task));
1095                                                    }
1096                                                }
1097                                            }
1098                                        }
1099                                        Err(e) => tracing::warn!(error = %e.as_report(), "Failed to report task {task_id:?}"),
1100                                    }
1101
1102                                }
1103                                dispatch_compaction_task_request::Task::VacuumTask(_) => {
1104                                    unreachable!("unexpected vacuum task");
1105                                }
1106                                dispatch_compaction_task_request::Task::FullScanTask(_) => {
1107                                    unreachable!("unexpected scan task");
1108                                }
1109                                dispatch_compaction_task_request::Task::ValidationTask(validation_task) => {
1110                                    let validation_task = ValidationTask::from(validation_task);
1111                                    validate_ssts(validation_task, context.sstable_store.clone()).await;
1112                                }
1113                                dispatch_compaction_task_request::Task::CancelCompactTask(cancel_compact_task) => {
1114                                    match shutdown
1115                                        .lock()
1116                                        .unwrap()
1117                                        .remove(&cancel_compact_task.task_id)
1118                                    { Some(tx) => {
1119                                        if tx.send(()).is_err() {
1120                                            tracing::warn!(
1121                                                "Cancellation of compaction task failed. task_id: {}",
1122                                                cancel_compact_task.task_id
1123                                            );
1124                                        }
1125                                    } _ => {
1126                                        tracing::warn!(
1127                                            "Attempting to cancel non-existent compaction task. task_id: {}",
1128                                            cancel_compact_task.task_id
1129                                        );
1130                                    }}
1131                                }
1132                            }
1133                    });
1134                }
1135                None => continue 'consume_stream,
1136            }
1137        }
1138    });
1139    (join_handle, shutdown_tx)
1140}
1141
1142fn get_task_progress(
1143    task_progress: Arc<
1144        parking_lot::lock_api::Mutex<parking_lot::RawMutex, HashMap<u64, Arc<TaskProgress>>>,
1145    >,
1146) -> Vec<CompactTaskProgress> {
1147    let mut progress_list = Vec::new();
1148    for (&task_id, progress) in &*task_progress.lock() {
1149        progress_list.push(progress.snapshot(task_id));
1150    }
1151    progress_list
1152}
1153
1154/// Schedule queued tasks if we have capacity
1155fn schedule_queued_tasks(
1156    task_queue: &mut IcebergTaskQueue,
1157    compactor_context: &CompactorContext,
1158    shutdown_map: &Arc<Mutex<HashMap<TaskKey, Sender<()>>>>,
1159    task_completion_tx: &tokio::sync::mpsc::UnboundedSender<TaskKey>,
1160) {
1161    while let Some(popped_task) = task_queue.pop() {
1162        let task_id = popped_task.meta.task_id;
1163        let plan_index = popped_task.meta.plan_index;
1164        let task_key = (task_id, plan_index);
1165
1166        // Get unique_ident before moving runner
1167        let unique_ident = popped_task.runner.as_ref().map(|r| r.unique_ident());
1168
1169        let Some(runner) = popped_task.runner else {
1170            tracing::error!(
1171                task_id = task_id,
1172                plan_index = plan_index,
1173                "Popped task missing runner - this should not happen"
1174            );
1175            task_queue.finish_running(task_key);
1176            continue;
1177        };
1178
1179        let executor = compactor_context.compaction_executor.clone();
1180        let shutdown_map_clone = shutdown_map.clone();
1181        let completion_tx_clone = task_completion_tx.clone();
1182
1183        tracing::info!(
1184            task_id = task_id,
1185            plan_index = plan_index,
1186            unique_ident = ?unique_ident,
1187            required_parallelism = popped_task.meta.required_parallelism,
1188            "Starting iceberg compaction task from queue"
1189        );
1190
1191        executor.spawn(async move {
1192            let (tx, rx) = tokio::sync::oneshot::channel();
1193            {
1194                let mut shutdown_guard = shutdown_map_clone.lock().unwrap();
1195                shutdown_guard.insert(task_key, tx);
1196            }
1197
1198            let _cleanup_guard = scopeguard::guard(
1199                (task_key, shutdown_map_clone, completion_tx_clone),
1200                move |(task_key, shutdown_map, completion_tx)| {
1201                    {
1202                        let mut shutdown_guard = shutdown_map.lock().unwrap();
1203                        shutdown_guard.remove(&task_key);
1204                    }
1205                    // Notify main loop that task is completed
1206                    // Multiple tasks can send completion notifications concurrently via mpsc
1207                    if completion_tx.send(task_key).is_err() {
1208                        tracing::warn!(task_id = task_key.0, plan_index = task_key.1, "Failed to notify task completion - main loop may have shut down");
1209                    }
1210                },
1211            );
1212
1213            if let Err(e) = runner.compact(rx).await {
1214                tracing::warn!(error = %e.as_report(), task_id = task_key.0, plan_index = task_key.1, "Failed to compact iceberg runner");
1215            }
1216        });
1217    }
1218}
1219
1220/// Handle pulling new tasks from meta service
1221/// Returns true if the stream should be restarted
1222fn handle_meta_task_pulling(
1223    pull_task_ack: &mut bool,
1224    task_queue: &IcebergTaskQueue,
1225    max_task_parallelism: u32,
1226    max_pull_task_count: u32,
1227    request_sender: &mpsc::UnboundedSender<SubscribeIcebergCompactionEventRequest>,
1228    log_throttler: &mut LogThrottler<IcebergCompactionLogState>,
1229) -> bool {
1230    let mut pending_pull_task_count = 0;
1231    if *pull_task_ack {
1232        // Use queue's running parallelism for pull decision
1233        let current_running_parallelism = task_queue.running_parallelism_sum();
1234        pending_pull_task_count =
1235            (max_task_parallelism - current_running_parallelism).min(max_pull_task_count);
1236
1237        if pending_pull_task_count > 0 {
1238            if let Err(e) = request_sender.send(SubscribeIcebergCompactionEventRequest {
1239                event: Some(subscribe_iceberg_compaction_event_request::Event::PullTask(
1240                    subscribe_iceberg_compaction_event_request::PullTask {
1241                        pull_task_count: pending_pull_task_count,
1242                    },
1243                )),
1244                create_at: SystemTime::now()
1245                    .duration_since(std::time::UNIX_EPOCH)
1246                    .expect("Clock may have gone backwards")
1247                    .as_millis() as u64,
1248            }) {
1249                tracing::warn!(error = %e.as_report(), "Failed to pull task - will retry on stream restart");
1250                return true; // Signal to restart stream
1251            } else {
1252                *pull_task_ack = false;
1253            }
1254        }
1255    }
1256
1257    let running_count = task_queue.running_parallelism_sum();
1258    let waiting_count = task_queue.waiting_parallelism_sum();
1259    let available_count = max_task_parallelism.saturating_sub(running_count);
1260    let current_state = IcebergCompactionLogState {
1261        running_parallelism: running_count,
1262        waiting_parallelism: waiting_count,
1263        available_parallelism: available_count,
1264        pull_task_ack: *pull_task_ack,
1265        pending_pull_task_count,
1266    };
1267
1268    // Log only when state changes or periodically as heartbeat
1269    if log_throttler.should_log(&current_state) {
1270        tracing::info!(
1271            running_parallelism_count = %current_state.running_parallelism,
1272            waiting_parallelism_count = %current_state.waiting_parallelism,
1273            available_parallelism = %current_state.available_parallelism,
1274            pull_task_ack = %current_state.pull_task_ack,
1275            pending_pull_task_count = %current_state.pending_pull_task_count
1276        );
1277        log_throttler.update(current_state);
1278    }
1279
1280    false // No need to restart stream
1281}
1282
1283#[cfg(test)]
1284mod tests {
1285    use super::*;
1286
1287    #[test]
1288    fn test_log_state_equality() {
1289        // Test CompactionLogState
1290        let state1 = CompactionLogState {
1291            running_parallelism: 10,
1292            pull_task_ack: true,
1293            pending_pull_task_count: 2,
1294        };
1295        let state2 = CompactionLogState {
1296            running_parallelism: 10,
1297            pull_task_ack: true,
1298            pending_pull_task_count: 2,
1299        };
1300        let state3 = CompactionLogState {
1301            running_parallelism: 11,
1302            pull_task_ack: true,
1303            pending_pull_task_count: 2,
1304        };
1305        assert_eq!(state1, state2);
1306        assert_ne!(state1, state3);
1307
1308        // Test IcebergCompactionLogState
1309        let ice_state1 = IcebergCompactionLogState {
1310            running_parallelism: 10,
1311            waiting_parallelism: 5,
1312            available_parallelism: 15,
1313            pull_task_ack: true,
1314            pending_pull_task_count: 2,
1315        };
1316        let ice_state2 = IcebergCompactionLogState {
1317            running_parallelism: 10,
1318            waiting_parallelism: 6,
1319            available_parallelism: 15,
1320            pull_task_ack: true,
1321            pending_pull_task_count: 2,
1322        };
1323        assert_ne!(ice_state1, ice_state2);
1324    }
1325
1326    #[test]
1327    fn test_log_throttler_state_change_detection() {
1328        let mut throttler = LogThrottler::<CompactionLogState>::new(Duration::from_secs(60));
1329        let state1 = CompactionLogState {
1330            running_parallelism: 10,
1331            pull_task_ack: true,
1332            pending_pull_task_count: 2,
1333        };
1334        let state2 = CompactionLogState {
1335            running_parallelism: 11,
1336            pull_task_ack: true,
1337            pending_pull_task_count: 2,
1338        };
1339
1340        // First call should always log
1341        assert!(throttler.should_log(&state1));
1342        throttler.update(state1.clone());
1343
1344        // Same state should not log
1345        assert!(!throttler.should_log(&state1));
1346
1347        // Changed state should log
1348        assert!(throttler.should_log(&state2));
1349        throttler.update(state2.clone());
1350
1351        // Same state again should not log
1352        assert!(!throttler.should_log(&state2));
1353    }
1354
1355    #[test]
1356    fn test_log_throttler_heartbeat() {
1357        let mut throttler = LogThrottler::<CompactionLogState>::new(Duration::from_millis(10));
1358        let state = CompactionLogState {
1359            running_parallelism: 10,
1360            pull_task_ack: true,
1361            pending_pull_task_count: 2,
1362        };
1363
1364        // First call should log
1365        assert!(throttler.should_log(&state));
1366        throttler.update(state.clone());
1367
1368        // Same state immediately should not log
1369        assert!(!throttler.should_log(&state));
1370
1371        // Wait for heartbeat interval to pass
1372        std::thread::sleep(Duration::from_millis(15));
1373
1374        // Same state after interval should log (heartbeat)
1375        assert!(throttler.should_log(&state));
1376    }
1377}
risingwave_storage/hummock/compactor/mod.rs

risingwave_storage/hummock/compactor/
mod.rs
