Coverage Report

Created: 2026-07-14 19:01

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
be/src/load/memtable/memtable_flush_executor.h
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// Licensed to the Apache Software Foundation (ASF) under one
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// or more contributor license agreements.  See the NOTICE file
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// distributed with this work for additional information
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// regarding copyright ownership.  The ASF licenses this file
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// to you under the Apache License, Version 2.0 (the
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// "License"); you may not use this file except in compliance
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// with the License.  You may obtain a copy of the License at
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//
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//   http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing,
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// software distributed under the License is distributed on an
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// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
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// KIND, either express or implied.  See the License for the
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// specific language governing permissions and limitations
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// under the License.
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#pragma once
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#include <atomic>
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#include <condition_variable>
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#include <cstdint>
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#include <iosfwd>
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#include <memory>
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#include <utility>
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#include <vector>
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#include "common/status.h"
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#include "load/delta_writer/delta_writer_context.h"
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#include "load/memtable/memtable.h"
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#include "util/threadpool.h"
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namespace doris {
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class DataDir;
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class MemTable;
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class MemTableMemoryLimiter;
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class Block;
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class GroupRowsetWriter;
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class OlapTableSchemaParam;
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class RowsetWriter;
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class SystemMetrics;
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class WorkloadGroup;
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// the statistic of a certain flush handler.
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// use atomic because it may be updated by multi threads
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struct FlushStatistic {
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    std::atomic_uint64_t flush_time_ns = 0;
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    std::atomic_uint64_t flush_submit_count = 0;
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    std::atomic_int64_t flush_running_count = 0;
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    std::atomic_uint64_t flush_finish_count = 0;
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    std::atomic_uint64_t flush_size_bytes = 0;
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    std::atomic_uint64_t flush_disk_size_bytes = 0;
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    std::atomic_uint64_t flush_wait_time_ns = 0;
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};
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struct SharedMemtable {
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    std::shared_ptr<MemTable> memtable;
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    int32_t segment_id = 0;
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    ~SharedMemtable();
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    std::once_flag block_once;
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    Status block_status;
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    std::shared_ptr<Block> block;
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    std::atomic<int> finished_sub_task_count {0};
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    // data + binlog
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    std::atomic<int> total_sub_task_count {2};
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    int add_finished_sub_task() { return finished_sub_task_count.fetch_add(1); }
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    std::string debug_string() const {
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        return "PartOfGroupMemtableFlushTask{segment_id=" + std::to_string(segment_id) +
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               ", finished_sub_task_count=" + std::to_string(finished_sub_task_count.load()) +
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               ", total_sub_task_count=" + std::to_string(total_sub_task_count.load()) + "}";
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    }
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};
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std::ostream& operator<<(std::ostream& os, const FlushStatistic& stat);
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// A thin wrapper of ThreadPoolToken to submit task.
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// For a tablet, there may be multiple memtables, which will be flushed to disk
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// one by one in the order of generation.
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// If a memtable flush fails, then:
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// 1. Immediately disallow submission of any subsequent memtable
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// 2. For the memtables that have already been submitted, there is no need to flush,
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//    because the entire job will definitely fail;
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class FlushToken : public std::enable_shared_from_this<FlushToken> {
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    ENABLE_FACTORY_CREATOR(FlushToken);
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public:
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    FlushToken(ThreadPool* thread_pool, std::shared_ptr<WorkloadGroup> wg_sptr)
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            : _flush_status(Status::OK()), _thread_pool(thread_pool), _wg_wptr(wg_sptr) {}
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    Status submit(std::shared_ptr<MemTable> mem_table);
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    // error has happens, so we cancel this token
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    // And remove all tasks in the queue.
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    void cancel();
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    // wait all tasks in token to be completed.
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    Status wait();
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    // get flush operations' statistics
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    const FlushStatistic& get_stats() const { return _stats; }
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    void set_rowset_writer(std::shared_ptr<RowsetWriter> rowset_writer) {
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        _rowset_writer = rowset_writer;
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    }
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    void set_table_schema_param(std::shared_ptr<OlapTableSchemaParam> table_schema_param) {
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        _table_schema_param = std::move(table_schema_param);
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    }
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    const MemTableStat& memtable_stat() { return _memtable_stat; }
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private:
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    void _shutdown_flush_token() { _shutdown.store(true); }
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    bool _is_shutdown() { return _shutdown.load(); }
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    void _wait_submit_task_finish();
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    void _wait_running_task_finish();
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private:
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    friend class MemtableFlushTask;
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    friend class PartOfGroupMemtableFlushTask;
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    Status _submit_sub_tasks(ThreadPool* pool, std::vector<std::shared_ptr<Runnable>> sub_tasks);
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    void _flush_memtable_impl(RowsetWriter* flush_writer, MemTable* memtable, int32_t segment_id,
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                              int64_t submit_task_time, SharedMemtable* shared_memtable = nullptr);
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    void _flush_memtable(std::shared_ptr<MemTable> memtable_ptr, int32_t segment_id,
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                         int64_t submit_task_time);
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    void _flush_group_memtable(std::shared_ptr<SharedMemtable> shared_memtable,
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                               WriteRequestType write_req_type, int64_t submit_task_time);
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    Status _memtable2block(MemTable* memtable, SharedMemtable* shared_memtable,
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                           std::shared_ptr<Block>& flush_block);
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    Status _try_reserve_memory(const std::shared_ptr<ResourceContext>& resource_context,
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                               int64_t size);
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    // Records the current flush status of the tablet.
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    // Note: Once its value is set to Failed, it cannot return to SUCCESS.
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    std::shared_mutex _flush_status_lock;
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    Status _flush_status;
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    FlushStatistic _stats;
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    std::shared_ptr<RowsetWriter> _rowset_writer = nullptr;
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    std::shared_ptr<OlapTableSchemaParam> _table_schema_param = nullptr;
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    MemTableStat _memtable_stat;
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    std::atomic<bool> _shutdown = false;
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    ThreadPool* _thread_pool = nullptr;
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    std::mutex _mutex;
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    std::condition_variable _submit_task_finish_cond;
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    std::condition_variable _running_task_finish_cond;
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    std::weak_ptr<WorkloadGroup> _wg_wptr;
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};
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// MemTableFlushExecutor is responsible for flushing memtables to disk.
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// It encapsulate a ThreadPool to handle all tasks.
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// Usage Example:
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//      ...
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//      std::shared_ptr<FlushHandler> flush_handler;
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//      memTableFlushExecutor.create_flush_token(&flush_handler);
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//      ...
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//      flush_token->submit(memtable)
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//      ...
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class MemTableFlushExecutor {
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public:
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    MemTableFlushExecutor() = default;
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    ~MemTableFlushExecutor() {
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        _flush_pool->shutdown();
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        _high_prio_flush_pool->shutdown();
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    }
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    // init should be called after storage engine is opened,
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    // because it needs path hash of each data dir.
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    void init(int num_disk);
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    Status create_flush_token(std::shared_ptr<FlushToken>& flush_token,
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                              std::shared_ptr<RowsetWriter> rowset_writer, bool is_high_priority,
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                              std::shared_ptr<WorkloadGroup> wg_sptr,
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                              std::shared_ptr<OlapTableSchemaParam> table_schema_param = nullptr);
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    // return true if it already has any flushing task
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    bool check_and_inc_has_any_flushing_task() {
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        // need to use CAS instead of only `if (0 == _flushing_task_count)` statement,
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        // to avoid concurrent entries both pass the if statement
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        int expected_count = 0;
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        if (!_flushing_task_count.compare_exchange_strong(expected_count, 1)) {
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            return true;
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        }
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        DCHECK(expected_count == 0 && _flushing_task_count == 1);
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        return false;
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    }
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    void inc_flushing_task() { _flushing_task_count++; }
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    void dec_flushing_task() { _flushing_task_count--; }
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    ThreadPool* flush_pool() { return _flush_pool.get(); }
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    ThreadPool* high_prio_flush_pool() { return _high_prio_flush_pool.get(); }
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    void update_memtable_flush_threads();
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    // Returns {min_threads, max_threads} for a flush thread pool.
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    // thread_num_per_store is used as the baseline when adaptive mode is off.
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    static std::pair<int, int> calc_flush_thread_count(int num_cpus, int num_disk,
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                                                       int thread_num_per_store);
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private:
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    std::unique_ptr<ThreadPool> _flush_pool;
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    std::unique_ptr<ThreadPool> _high_prio_flush_pool;
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    std::atomic<int> _flushing_task_count = 0;
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    int _num_disk = 0;
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};
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} // namespace doris