Clean code

2025-09-06 04:36:32 +00:00 · 2025-08-11 15:48:58 +02:00
parent 68ad9d6021
commit 3fc09107ec
2 changed files with 171 additions and 177 deletions
--- a/crates/index-scheduler/src/processing.rs
+++ b/crates/index-scheduler/src/processing.rs
@ -84,11 +84,11 @@ make_enum_progress! {
        RetrievingTasks,
        RetrievingBatches,
        DeletingTasksDateTime,
        DeletingBatchesDateTime,
        DeletingTasksMetadata,
        DeletingBatchesMetadata,
        DeletingTasks,
        DeletingBatches,
        DeletingBatchesDateTime,
        DeletingBatchesMetadata,
    }
 }
--- a/crates/index-scheduler/src/scheduler/process_batch.rs
+++ b/crates/index-scheduler/src/scheduler/process_batch.rs
@ -1,5 +1,5 @@
 use std::collections::{BTreeSet, HashMap, HashSet};
-use std::ops::{Bound, RangeInclusive};
+use std::ops::RangeInclusive;
 use std::panic::{catch_unwind, AssertUnwindSafe};
 use std::sync::atomic::Ordering;
@ -7,10 +7,11 @@ use meilisearch_types::batches::{BatchEnqueuedAt, BatchId};
 use meilisearch_types::heed::{Database, RoTxn, RwTxn};
 use meilisearch_types::milli::progress::{Progress, VariableNameStep};
 use meilisearch_types::milli::{self, CboRoaringBitmapCodec, ChannelCongestion};
-use meilisearch_types::tasks::{self, Details, IndexSwap, Kind, KindWithContent, Status, Task};
+use meilisearch_types::tasks::{Details, IndexSwap, Kind, KindWithContent, Status, Task};
 use meilisearch_types::versioning::{VERSION_MAJOR, VERSION_MINOR, VERSION_PATCH};
 use milli::update::Settings as MilliSettings;
 use roaring::RoaringBitmap;
 use time::OffsetDateTime;
 use super::create_batch::Batch;
 use crate::processing::{
@ -18,10 +19,7 @@ use crate::processing::{
    InnerSwappingTwoIndexes, SwappingTheIndexes, TaskCancelationProgress, TaskDeletionProgress,
    UpdateIndexProgress,
 };
-use crate::utils::{
+use crate::utils::{remove_n_tasks_datetime_earlier_than, swap_index_uid_in_task, ProcessingBatch};
    remove_n_tasks_datetime_earlier_than, remove_task_datetime, swap_index_uid_in_task,
    ProcessingBatch,
 };
 use crate::{Error, IndexScheduler, Result, TaskId, BEI128};
 #[derive(Debug, Default)]
@ -508,15 +506,16 @@ impl IndexScheduler {
    /// Delete each given task from all the databases (if it is deleteable).
    ///
    /// Return the number of tasks that were actually deleted.
    #[allow(clippy::reversed_empty_ranges)]
    fn delete_matched_tasks(
        &self,
        matched_tasks: &RoaringBitmap,
        progress: &Progress,
    ) -> Result<RoaringBitmap> {
-        fn consecutive_ranges<I>(iter: I) -> impl Iterator<Item = (u32, u32)>
+        /// Given a **sorted** iterator of `u32`, return an iterator of the ranges of consecutive values it contains.
-        where
+        fn consecutive_ranges(
-            I: IntoIterator<Item = u32>,
+            iter: impl IntoIterator<Item = u32>,
-        {
+        ) -> impl Iterator<Item = RangeInclusive<u32>> {
            let mut iter = iter.into_iter().peekable();
            std::iter::from_fn(move || {
@ -533,7 +532,7 @@ impl IndexScheduler {
                    }
                }
-                Some((start, end))
+                Some(start..=end)
            })
        }
@ -543,25 +542,53 @@ impl IndexScheduler {
            mut to_remove: HashMap<i128, RoaringBitmap>,
            db: Database<BEI128, CboRoaringBitmapCodec>,
        ) -> Result<()> {
-            if !to_remove.is_empty() {
+            if to_remove.is_empty() {
-                let mut iter = db.rev_range_mut(wtxn, &range)?;
+                return Ok(());
-                while let Some(i) = iter.next() {
+            }
-                    let (timestamp, mut tasks) = i?;
+
-                    if let Some(to_remove_tasks) = to_remove.remove(&timestamp) {
+            let mut iter = db.rev_range_mut(wtxn, &range)?;
-                        tasks -= &to_remove_tasks;
+            while let Some(i) = iter.next() {
-                        if tasks.is_empty() {
+                let (timestamp, mut tasks) = i?;
-                            // safety: We don't keep references to the database
+                if let Some(to_remove_tasks) = to_remove.remove(&timestamp) {
-                            unsafe { iter.del_current()? };
+                    tasks -= &to_remove_tasks;
-                        } else {
+                    if tasks.is_empty() {
-                            // safety: We don't keep references to the database
+                        // safety: We don't keep references to the database
-                            unsafe { iter.put_current(&timestamp, &tasks)? };
+                        unsafe { iter.del_current()? };
-                        }
+                    } else {
                        // safety: We don't keep references to the database
                        unsafe { iter.put_current(&timestamp, &tasks)? };
                    }
                }
            }
            Ok(())
        }
        trait UnixTimestampNanosOpt {
            fn unix_timestamp_nanos(self) -> Option<i128>;
        }
        impl UnixTimestampNanosOpt for Option<OffsetDateTime> {
            fn unix_timestamp_nanos(self) -> Option<i128> {
                self.map(|dt| dt.unix_timestamp_nanos())
            }
        }
        impl UnixTimestampNanosOpt for i128 {
            fn unix_timestamp_nanos(self) -> Option<i128> {
                Some(self)
            }
        }
        /// Extends a range to include the given value
        fn extend_range(value: impl UnixTimestampNanosOpt, range: &mut RangeInclusive<i128>) {
            let Some(value) = value.unix_timestamp_nanos() else { return };
            if value < *range.start() {
                *range = value..=*range.end();
            }
            if value > *range.end() {
                *range = *range.start()..=value;
            }
        }
        progress.update_progress(TaskDeletionProgress::RetrievingTasks);
        let rtxn = self.env.read_txn()?;
@ -569,37 +596,27 @@ impl IndexScheduler {
        // 1. Remove from this list the tasks that we are not allowed to delete
        let enqueued_tasks = self.queue.tasks.get_status(&rtxn, Status::Enqueued)?;
        let processing_tasks = &self.processing_tasks.read().unwrap().processing.clone();
        let all_task_ids = self.queue.tasks.all_task_ids(&rtxn)?;
        let mut to_delete_tasks = all_task_ids & matched_tasks;
        to_delete_tasks -= &**processing_tasks;
        to_delete_tasks -= &enqueued_tasks;
-        // 2. We now have a list of tasks to delete, delete them
+        // 2. We now have a list of tasks to delete. Read their metadata to list what needs to be updated.
        let mut affected_indexes = HashSet::new();
        let mut affected_statuses = HashSet::new();
        let mut affected_kinds = HashSet::new();
        let mut affected_canceled_by = RoaringBitmap::new();
-        // The tasks that have been removed *per batches*.
+        let mut affected_batches: HashMap<BatchId, RoaringBitmap> = HashMap::new(); // The tasks that have been removed *per batches*.
-        let mut affected_batches: HashMap<BatchId, RoaringBitmap> = HashMap::new();
+        let mut enqueued_range = i128::MAX..=i128::MIN;
-
+        let mut started_range = i128::MAX..=i128::MIN;
-        let (atomic_progress, task_progress) = AtomicTaskStep::new(to_delete_tasks.len() as u32);
+        let mut finished_range = i128::MAX..=i128::MIN;
        progress.update_progress(task_progress);
        let mut min_enqueued = i128::MAX;
        let mut max_enqueued = i128::MIN;
        let mut min_started = i128::MAX;
        let mut max_started = i128::MIN;
        let mut min_finished = i128::MAX;
        let mut max_finished = i128::MIN;
        let mut tasks_enqueued_to_remove: HashMap<i128, RoaringBitmap> = HashMap::new();
        let mut tasks_started_to_remove: HashMap<i128, RoaringBitmap> = HashMap::new();
        let mut tasks_finished_to_remove: HashMap<i128, RoaringBitmap> = HashMap::new();
        let (atomic_progress, task_progress) = AtomicTaskStep::new(to_delete_tasks.len() as u32);
        progress.update_progress(task_progress);
        for range in consecutive_ranges(to_delete_tasks.iter()) {
-            let iter = self
+            let iter = self.queue.tasks.all_tasks.range(&rtxn, &range)?;
                .queue
                .tasks
                .all_tasks
                .range(&rtxn, &(Bound::Included(range.0), Bound::Included(range.1)))?;
            for task in iter {
                let (task_id, task) = task?;
@ -608,33 +625,16 @@ impl IndexScheduler {
                affected_kinds.insert(task.kind.as_kind());
                let enqueued_at = task.enqueued_at.unix_timestamp_nanos();
-                if enqueued_at < min_enqueued {
+                extend_range(enqueued_at, &mut enqueued_range);
                    min_enqueued = enqueued_at;
                }
                if enqueued_at > max_enqueued {
                    max_enqueued = enqueued_at;
                }
                tasks_enqueued_to_remove.entry(enqueued_at).or_default().insert(task_id);
-                if let Some(started_at) = task.started_at {
+                if let Some(started_at) = task.started_at.unix_timestamp_nanos() {
-                    let started_at = started_at.unix_timestamp_nanos();
+                    extend_range(started_at, &mut started_range);
                    if started_at < min_started {
                        min_started = started_at;
                    }
                    if started_at > max_started {
                        max_started = started_at;
                    }
                    tasks_started_to_remove.entry(started_at).or_default().insert(task_id);
                }
-                if let Some(finished_at) = task.finished_at {
+                if let Some(finished_at) = task.finished_at.unix_timestamp_nanos() {
-                    let finished_at = finished_at.unix_timestamp_nanos();
+                    extend_range(finished_at, &mut finished_range);
                    if finished_at < min_finished {
                        min_finished = finished_at;
                    }
                    if finished_at > max_finished {
                        max_finished = finished_at;
                    }
                    tasks_finished_to_remove.entry(finished_at).or_default().insert(task_id);
                }
@ -648,6 +648,7 @@ impl IndexScheduler {
            }
        }
        // 3. Read the tasks by indexes, statuses and kinds
        let mut affected_indexes_tasks = HashMap::new();
        for index in &affected_indexes {
            affected_indexes_tasks
@ -667,43 +668,35 @@ impl IndexScheduler {
        }
        let mut to_remove_from_kinds = HashMap::new();
        // 3. Read affected batches to list metadata that needs to be updated.
        let mut batches_enqueued_range = i128::MAX..=i128::MIN;
        let mut batches_started_range = i128::MAX..=i128::MIN;
        let mut batches_finished_range = i128::MAX..=i128::MIN;
        let mut batches_enqueued_to_remove: HashMap<i128, RoaringBitmap> = HashMap::new();
        let mut batches_min_enqueued = i128::MAX;
        let mut batches_max_enqueued = i128::MIN;
        let mut batches_started_to_remove: HashMap<i128, RoaringBitmap> = HashMap::new();
        let mut batches_min_started = i128::MAX;
        let mut batches_max_started = i128::MIN;
        let mut batches_finished_to_remove: HashMap<i128, RoaringBitmap> = HashMap::new();
        let mut batches_min_finished = i128::MAX;
        let mut batches_max_finished = i128::MIN;
        let mut to_delete_batches = RoaringBitmap::new();
        let mut tasks_to_remove_earlier = Vec::new();
        progress.update_progress(TaskDeletionProgress::RetrievingBatches);
        let affected_batches_bitmap = RoaringBitmap::from_iter(affected_batches.keys());
        let (atomic_progress, task_progress) =
            AtomicBatchStep::new(affected_batches_bitmap.len() as u32);
        progress.update_progress(task_progress);
        for range in consecutive_ranges(affected_batches_bitmap.iter()) {
-            let iter = self
+            let iter = self.queue.batch_to_tasks_mapping.range(&rtxn, &range)?;
-                .queue
+            for batch in iter {
-                .batch_to_tasks_mapping
+                let (batch_id, mut tasks) = batch?;
                .range(&rtxn, &(Bound::Included(range.0), Bound::Included(range.1)))?;
            for i in iter {
                let (batch_id, mut tasks) = i?;
                let to_delete_tasks = affected_batches.remove(&batch_id).unwrap_or_default();
                tasks -= &to_delete_tasks;
                // We must remove the batch entirely
                if tasks.is_empty() {
                    if let Some(batch) = self.queue.batches.get_batch(&rtxn, batch_id)? {
                        if let Some(BatchEnqueuedAt { earliest, oldest }) = batch.enqueued_at {
                            let earliest = earliest.unix_timestamp_nanos();
                            let oldest = oldest.unix_timestamp_nanos();
-                            if earliest < batches_min_enqueued {
+                            extend_range(earliest, &mut batches_enqueued_range);
-                                batches_min_enqueued = earliest;
+                            extend_range(oldest, &mut batches_enqueued_range);
                            }
                            if oldest > batches_max_enqueued {
                                batches_max_enqueued = oldest;
                            }
                            batches_enqueued_to_remove
                                .entry(earliest)
                                .or_default()
@ -719,21 +712,11 @@ impl IndexScheduler {
                            ));
                        }
                        let started_at = batch.started_at.unix_timestamp_nanos();
-                        if started_at < batches_min_started {
+                        extend_range(started_at, &mut batches_started_range);
                            batches_min_started = started_at;
                        }
                        if started_at > batches_max_started {
                            batches_max_started = started_at;
                        }
                        batches_started_to_remove.entry(started_at).or_default().insert(batch_id);
                        if let Some(finished_at) = batch.finished_at {
                            let finished_at = finished_at.unix_timestamp_nanos();
-                            if finished_at < batches_min_finished {
+                            extend_range(finished_at, &mut batches_finished_range);
                                batches_min_finished = finished_at;
                            }
                            if finished_at > batches_max_finished {
                                batches_max_finished = finished_at;
                            }
                            batches_finished_to_remove
                                .entry(finished_at)
                                .or_default()
@ -745,7 +728,7 @@ impl IndexScheduler {
                }
                // Anyway, we must remove the batch from all its reverse indexes.
-                // The only way to do that is to check
+                // Check if those are affected by the task deletion.
                for (index, index_tasks) in affected_indexes_tasks.iter() {
                    if index_tasks.intersection_len(&tasks) == 0 {
@ -773,43 +756,85 @@ impl IndexScheduler {
                            .insert(batch_id);
                    }
                }
                // Note: no need to delete the persisted task data since
                // we can only delete succeeded, failed, and canceled tasks.
                // In each of those cases, the persisted data is supposed to
                // have been deleted already.
                atomic_progress.fetch_add(1, Ordering::Relaxed);
            }
        }
        // Note: don't delete the persisted task data since
        // we can only delete succeeded, failed, and canceled tasks.
        // In each of those cases, the persisted data is supposed to
        // have been deleted already.
        drop(rtxn);
-        let mut wtxn_owned = self.env.write_txn()?;
+        let mut owned_wtxn = self.env.write_txn()?;
-        let wtxn = &mut wtxn_owned;
+        let wtxn = &mut owned_wtxn;
        // 4. Remove task datetimes
        progress.update_progress(TaskDeletionProgress::DeletingTasksDateTime);
        remove_datetimes(
            wtxn,
-            min_enqueued..=max_enqueued,
+            enqueued_range,
            tasks_enqueued_to_remove,
            self.queue.tasks.enqueued_at,
        )?;
        remove_datetimes(
            wtxn,
            started_range,
            tasks_started_to_remove,
            self.queue.tasks.started_at,
        )?;
        remove_datetimes(
            wtxn,
            finished_range,
            tasks_finished_to_remove,
            self.queue.tasks.finished_at,
        )?;
        // 8. Delete batches datetimes
        progress.update_progress(TaskDeletionProgress::DeletingBatchesDateTime);
        for (started_at, nb_tasks, batch_id) in tasks_to_remove_earlier {
            remove_n_tasks_datetime_earlier_than(
                wtxn,
                self.queue.batches.enqueued_at,
                started_at,
                nb_tasks,
                batch_id,
            )?;
        }
        remove_datetimes(
            wtxn,
            batches_enqueued_range,
            batches_enqueued_to_remove,
            self.queue.batches.enqueued_at,
        )?;
        remove_datetimes(
            wtxn,
-            min_started..=max_started,
+            batches_started_range,
-            tasks_started_to_remove,
+            batches_started_to_remove,
            self.queue.batches.started_at,
        )?;
        remove_datetimes(
            wtxn,
-            min_finished..=max_finished,
+            batches_finished_range,
-            tasks_finished_to_remove,
+            batches_finished_to_remove,
            self.queue.batches.finished_at,
        )?;
        // 5. Remove tasks from indexes, statuses, and kinds
        progress.update_progress(TaskDeletionProgress::DeletingTasksMetadata);
        let (atomic_progress, task_progress) = AtomicTaskStep::new(
            (affected_indexes.len() + affected_statuses.len() + affected_kinds.len()) as u32,
        );
        progress.update_progress(task_progress);
        for index in affected_indexes.iter() {
            self.queue.tasks.update_index(wtxn, index, |bitmap| *bitmap -= &to_delete_tasks)?;
            atomic_progress.fetch_add(1, Ordering::Relaxed);
@ -825,70 +850,7 @@ impl IndexScheduler {
            atomic_progress.fetch_add(1, Ordering::Relaxed);
        }
-        progress.update_progress(TaskDeletionProgress::DeletingTasks);
+        // 9. Remove batches metadata from indexes, statuses, and kinds
        let (atomic_progress, task_progress) = AtomicTaskStep::new(to_delete_tasks.len() as u32);
        progress.update_progress(task_progress);
        for range in consecutive_ranges(to_delete_tasks.iter()) {
            self.queue
                .tasks
                .all_tasks
                .delete_range(wtxn, &(Bound::Included(range.0), Bound::Included(range.1)))?;
            atomic_progress.fetch_add(1, Ordering::Relaxed);
        }
        for canceled_by in affected_canceled_by {
            if let Some(mut tasks) = self.queue.tasks.canceled_by.get(wtxn, &canceled_by)? {
                tasks -= &to_delete_tasks;
                if tasks.is_empty() {
                    self.queue.tasks.canceled_by.delete(wtxn, &canceled_by)?;
                } else {
                    self.queue.tasks.canceled_by.put(wtxn, &canceled_by, &tasks)?;
                }
            }
        }
        progress.update_progress(TaskDeletionProgress::DeletingBatches);
        for range in consecutive_ranges(to_delete_batches.iter()) {
            self.queue
                .batches
                .all_batches
                .delete_range(wtxn, &(Bound::Included(range.0), Bound::Included(range.1)))?;
            self.queue
                .batch_to_tasks_mapping
                .delete_range(wtxn, &(Bound::Included(range.0), Bound::Included(range.1)))?;
        }
        progress.update_progress(TaskDeletionProgress::DeletingBatchesDateTime);
        for (started_at, nb_tasks, batch_id) in tasks_to_remove_earlier {
            remove_n_tasks_datetime_earlier_than(
                wtxn,
                self.queue.batches.enqueued_at,
                started_at,
                nb_tasks,
                batch_id,
            )?;
        }
        remove_datetimes(
            wtxn,
            batches_min_enqueued..=batches_max_enqueued,
            batches_enqueued_to_remove,
            self.queue.batches.enqueued_at,
        )?;
        remove_datetimes(
            wtxn,
            batches_min_started..=batches_max_started,
            batches_started_to_remove,
            self.queue.batches.started_at,
        )?;
        remove_datetimes(
            wtxn,
            batches_min_finished..=batches_max_finished,
            batches_finished_to_remove,
            self.queue.batches.finished_at,
        )?;
        progress.update_progress(TaskDeletionProgress::DeletingBatchesMetadata);
        for (index, batches) in to_remove_from_indexes {
@ -909,7 +871,39 @@ impl IndexScheduler {
            })?;
        }
-        wtxn_owned.commit()?;
+        // 6. Delete tasks
        progress.update_progress(TaskDeletionProgress::DeletingTasks);
        let (atomic_progress, task_progress) =
            AtomicTaskStep::new((to_delete_tasks.len() + affected_canceled_by.len()) as u32);
        progress.update_progress(task_progress);
        for range in consecutive_ranges(to_delete_tasks.iter()) {
            self.queue.tasks.all_tasks.delete_range(wtxn, &range)?;
            atomic_progress.fetch_add(range.size_hint().0 as u32, Ordering::Relaxed);
        }
        for canceled_by in affected_canceled_by {
            if let Some(mut tasks) = self.queue.tasks.canceled_by.get(wtxn, &canceled_by)? {
                tasks -= &to_delete_tasks;
                if tasks.is_empty() {
                    self.queue.tasks.canceled_by.delete(wtxn, &canceled_by)?;
                } else {
                    self.queue.tasks.canceled_by.put(wtxn, &canceled_by, &tasks)?;
                }
            }
            atomic_progress.fetch_add(1, Ordering::Relaxed);
        }
        // 7. Delete batches
        progress.update_progress(TaskDeletionProgress::DeletingBatches);
        let (atomic_progress, task_progress) = AtomicTaskStep::new(to_delete_batches.len() as u32);
        progress.update_progress(task_progress);
        for range in consecutive_ranges(to_delete_batches.iter()) {
            self.queue.batches.all_batches.delete_range(wtxn, &range)?;
            self.queue.batch_to_tasks_mapping.delete_range(wtxn, &range)?;
            atomic_progress.fetch_add(range.size_hint().0 as u32, Ordering::Relaxed);
        }
        owned_wtxn.commit()?;
        Ok(to_delete_tasks)
    }