Coverage Report

Created: 2024-11-21 14:00

/root/doris/be/src/olap/tablet_meta.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 <gen_cpp/AgentService_types.h>
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#include <gen_cpp/olap_file.pb.h>
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#include <stdint.h>
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#include <atomic>
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#include <cstddef>
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#include <limits>
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#include <map>
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#include <memory>
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#include <mutex>
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#include <optional>
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#include <ostream>
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#include <roaring/roaring.hh>
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#include <shared_mutex>
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#include <string>
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#include <tuple>
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#include <unordered_map>
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#include <utility>
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#include <vector>
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#include "common/logging.h"
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#include "common/status.h"
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#include "gutil/stringprintf.h"
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#include "io/fs/file_system.h"
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#include "olap/binlog_config.h"
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#include "olap/lru_cache.h"
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#include "olap/metadata_adder.h"
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#include "olap/olap_common.h"
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#include "olap/rowset/rowset_meta.h"
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#include "olap/tablet_schema.h"
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#include "runtime/memory/lru_cache_policy.h"
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#include "util/uid_util.h"
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namespace json2pb {
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struct Pb2JsonOptions;
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} // namespace json2pb
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namespace doris {
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class TColumn;
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// Lifecycle states that a Tablet can be in. Legal state transitions for a
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// Tablet object:
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//
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//   NOTREADY -> RUNNING -> TOMBSTONED -> STOPPED -> SHUTDOWN
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//      |           |            |          ^^^
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//      |           |            +----------++|
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//      |           +------------------------+|
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//      +-------------------------------------+
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enum TabletState {
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    // Tablet is under alter table, rollup, clone
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    TABLET_NOTREADY,
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    TABLET_RUNNING,
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    // Tablet integrity has been violated, such as missing versions.
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    // In this state, tablet will not accept any incoming request.
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    // Report this state to FE, scheduling BE to drop tablet.
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    TABLET_TOMBSTONED,
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    // Tablet is shutting down, files in disk still remained.
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    TABLET_STOPPED,
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    // Files have been removed, tablet has been shutdown completely.
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    TABLET_SHUTDOWN
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};
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class DataDir;
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class TabletMeta;
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class DeleteBitmap;
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class TBinlogConfig;
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// Class encapsulates meta of tablet.
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// The concurrency control is handled in Tablet Class, not in this class.
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class TabletMeta : public MetadataAdder<TabletMeta> {
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public:
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    static TabletMetaSharedPtr create(
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            const TCreateTabletReq& request, const TabletUid& tablet_uid, uint64_t shard_id,
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            uint32_t next_unique_id,
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            const std::unordered_map<uint32_t, uint32_t>& col_ordinal_to_unique_id);
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    TabletMeta();
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    TabletMeta(int64_t table_id, int64_t partition_id, int64_t tablet_id, int64_t replica_id,
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               int32_t schema_hash, uint64_t shard_id, const TTabletSchema& tablet_schema,
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               uint32_t next_unique_id,
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               const std::unordered_map<uint32_t, uint32_t>& col_ordinal_to_unique_id,
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               TabletUid tablet_uid, TTabletType::type tabletType,
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               TCompressionType::type compression_type, int64_t storage_policy_id = 0,
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               bool enable_unique_key_merge_on_write = false,
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               std::optional<TBinlogConfig> binlog_config = {},
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               std::string compaction_policy = "size_based",
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               int64_t time_series_compaction_goal_size_mbytes = 1024,
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               int64_t time_series_compaction_file_count_threshold = 2000,
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               int64_t time_series_compaction_time_threshold_seconds = 3600,
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               int64_t time_series_compaction_empty_rowsets_threshold = 5,
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               int64_t time_series_compaction_level_threshold = 1,
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               TInvertedIndexFileStorageFormat::type inverted_index_file_storage_format =
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                       TInvertedIndexFileStorageFormat::V2);
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    // If need add a filed in TableMeta, filed init copy in copy construct function
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    TabletMeta(const TabletMeta& tablet_meta);
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    TabletMeta(TabletMeta&& tablet_meta) = delete;
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// UT
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#ifdef BE_TEST
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3
    TabletMeta(TabletSchemaSPtr tablet_schema) : _schema(tablet_schema) {}
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#endif
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    // Function create_from_file is used to be compatible with previous tablet_meta.
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    // Previous tablet_meta is a physical file in tablet dir, which is not stored in rocksdb.
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    Status create_from_file(const std::string& file_path);
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    Status save(const std::string& file_path);
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    Status save_as_json(const string& file_path);
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    static Status save(const std::string& file_path, const TabletMetaPB& tablet_meta_pb);
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    static std::string construct_header_file_path(const std::string& schema_hash_path,
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                                                  int64_t tablet_id);
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    Status save_meta(DataDir* data_dir);
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    void serialize(std::string* meta_binary);
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    Status deserialize(std::string_view meta_binary);
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    void init_from_pb(const TabletMetaPB& tablet_meta_pb);
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    void to_meta_pb(TabletMetaPB* tablet_meta_pb);
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    void to_json(std::string* json_string, json2pb::Pb2JsonOptions& options);
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    // Don't use.
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    // TODO: memory size of TabletSchema cannot be accurately tracked.
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    // In some places, temporarily use num_columns() as TabletSchema size.
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    int64_t mem_size() const;
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    size_t tablet_columns_num() const { return _schema->num_columns(); }
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    TabletTypePB tablet_type() const { return _tablet_type; }
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    TabletUid tablet_uid() const;
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    void set_tablet_uid(TabletUid uid) { _tablet_uid = uid; }
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    int64_t table_id() const;
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    int64_t index_id() const;
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    int64_t partition_id() const;
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    int64_t tablet_id() const;
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    int64_t replica_id() const;
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0
    void set_replica_id(int64_t replica_id) { _replica_id = replica_id; }
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    int32_t schema_hash() const;
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    int16_t shard_id() const;
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    void set_shard_id(int32_t shard_id);
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    int64_t creation_time() const;
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    void set_creation_time(int64_t creation_time);
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    int64_t cumulative_layer_point() const;
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    void set_cumulative_layer_point(int64_t new_point);
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    size_t num_rows() const;
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    // Disk space occupied by tablet, contain local and remote.
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    size_t tablet_footprint() const;
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    // Local disk space occupied by tablet.
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    size_t tablet_local_size() const;
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    // Remote disk space occupied by tablet.
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    size_t tablet_remote_size() const;
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    size_t version_count() const;
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    size_t stale_version_count() const;
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    size_t version_count_cross_with_range(const Version& range) const;
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    Version max_version() const;
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    TabletState tablet_state() const;
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    void set_tablet_state(TabletState state);
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    bool in_restore_mode() const;
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    void set_in_restore_mode(bool in_restore_mode);
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    const TabletSchemaSPtr& tablet_schema() const;
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    TabletSchema* mutable_tablet_schema();
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    const std::vector<RowsetMetaSharedPtr>& all_rs_metas() const;
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    std::vector<RowsetMetaSharedPtr>& all_mutable_rs_metas();
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    Status add_rs_meta(const RowsetMetaSharedPtr& rs_meta);
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    void delete_rs_meta_by_version(const Version& version,
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                                   std::vector<RowsetMetaSharedPtr>* deleted_rs_metas);
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    // If same_version is true, the rowset in "to_delete" will not be added
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    // to _stale_rs_meta, but to be deleted from rs_meta directly.
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    void modify_rs_metas(const std::vector<RowsetMetaSharedPtr>& to_add,
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                         const std::vector<RowsetMetaSharedPtr>& to_delete,
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                         bool same_version = false);
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    void revise_rs_metas(std::vector<RowsetMetaSharedPtr>&& rs_metas);
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    void revise_delete_bitmap_unlocked(const DeleteBitmap& delete_bitmap);
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    const std::vector<RowsetMetaSharedPtr>& all_stale_rs_metas() const;
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    RowsetMetaSharedPtr acquire_rs_meta_by_version(const Version& version) const;
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    void delete_stale_rs_meta_by_version(const Version& version);
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    RowsetMetaSharedPtr acquire_stale_rs_meta_by_version(const Version& version) const;
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    Status set_partition_id(int64_t partition_id);
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    RowsetTypePB preferred_rowset_type() const { return _preferred_rowset_type; }
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    void set_preferred_rowset_type(RowsetTypePB preferred_rowset_type) {
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        _preferred_rowset_type = preferred_rowset_type;
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    }
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    // used for after tablet cloned to clear stale rowset
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0
    void clear_stale_rowset() { _stale_rs_metas.clear(); }
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    void clear_rowsets() { _rs_metas.clear(); }
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    // MUST hold EXCLUSIVE `_meta_lock` in belonged Tablet
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    // `to_add` MUST NOT have overlapped version with `_rs_metas` in tablet meta.
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    void add_rowsets_unchecked(const std::vector<RowsetSharedPtr>& to_add);
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    bool all_beta() const;
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    int64_t storage_policy_id() const { return _storage_policy_id; }
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    void set_storage_policy_id(int64_t id) {
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        VLOG_NOTICE << "set tablet_id : " << _table_id << " storage policy from "
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                    << _storage_policy_id << " to " << id;
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        _storage_policy_id = id;
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    }
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    UniqueId cooldown_meta_id() const { return _cooldown_meta_id; }
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    void set_cooldown_meta_id(UniqueId uid) { _cooldown_meta_id = uid; }
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    static void init_column_from_tcolumn(uint32_t unique_id, const TColumn& tcolumn,
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                                         ColumnPB* column);
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    DeleteBitmap& delete_bitmap() { return *_delete_bitmap; }
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    bool enable_unique_key_merge_on_write() const { return _enable_unique_key_merge_on_write; }
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    // TODO(Drogon): thread safety
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0
    const BinlogConfig& binlog_config() const { return _binlog_config; }
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    void set_binlog_config(BinlogConfig binlog_config) {
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        _binlog_config = std::move(binlog_config);
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    }
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    void set_compaction_policy(std::string compaction_policy) {
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        _compaction_policy = compaction_policy;
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    }
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    std::string compaction_policy() const { return _compaction_policy; }
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    void set_time_series_compaction_goal_size_mbytes(int64_t goal_size_mbytes) {
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        _time_series_compaction_goal_size_mbytes = goal_size_mbytes;
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    }
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    int64_t time_series_compaction_goal_size_mbytes() const {
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        return _time_series_compaction_goal_size_mbytes;
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    }
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    void set_time_series_compaction_file_count_threshold(int64_t file_count_threshold) {
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        _time_series_compaction_file_count_threshold = file_count_threshold;
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    }
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    int64_t time_series_compaction_file_count_threshold() const {
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        return _time_series_compaction_file_count_threshold;
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    }
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    void set_time_series_compaction_time_threshold_seconds(int64_t time_threshold) {
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        _time_series_compaction_time_threshold_seconds = time_threshold;
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    }
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    int64_t time_series_compaction_time_threshold_seconds() const {
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        return _time_series_compaction_time_threshold_seconds;
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    }
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0
    void set_time_series_compaction_empty_rowsets_threshold(int64_t empty_rowsets_threshold) {
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0
        _time_series_compaction_empty_rowsets_threshold = empty_rowsets_threshold;
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0
    }
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    int64_t time_series_compaction_empty_rowsets_threshold() const {
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        return _time_series_compaction_empty_rowsets_threshold;
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    }
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    void set_time_series_compaction_level_threshold(int64_t level_threshold) {
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        _time_series_compaction_level_threshold = level_threshold;
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0
    }
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    int64_t time_series_compaction_level_threshold() const {
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        return _time_series_compaction_level_threshold;
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    }
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    int64_t ttl_seconds() const {
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        std::shared_lock rlock(_meta_lock);
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        return _ttl_seconds;
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    }
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0
    void set_ttl_seconds(int64_t ttl_seconds) {
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0
        std::lock_guard wlock(_meta_lock);
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        _ttl_seconds = ttl_seconds;
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0
    }
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    int64_t avg_rs_meta_serialize_size() const { return _avg_rs_meta_serialize_size; }
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private:
297
    Status _save_meta(DataDir* data_dir);
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    // _del_predicates is ignored to compare.
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    friend bool operator==(const TabletMeta& a, const TabletMeta& b);
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    friend bool operator!=(const TabletMeta& a, const TabletMeta& b);
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private:
304
    int64_t _table_id = 0;
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    int64_t _index_id = 0;
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    int64_t _partition_id = 0;
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    int64_t _tablet_id = 0;
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    int64_t _replica_id = 0;
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    int32_t _schema_hash = 0;
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    int32_t _shard_id = 0;
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    int64_t _creation_time = 0;
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    int64_t _cumulative_layer_point = 0;
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    TabletUid _tablet_uid;
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    TabletTypePB _tablet_type = TabletTypePB::TABLET_TYPE_DISK;
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    TabletState _tablet_state = TABLET_NOTREADY;
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    // the reference of _schema may use in tablet, so here need keep
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    // the lifetime of tablemeta and _schema is same with tablet
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    TabletSchemaSPtr _schema;
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    std::vector<RowsetMetaSharedPtr> _rs_metas;
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    // This variable _stale_rs_metas is used to record these rowsets‘ meta which are be compacted.
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    // These stale rowsets meta are been removed when rowsets' pathVersion is expired,
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    // this policy is judged and computed by TimestampedVersionTracker.
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    std::vector<RowsetMetaSharedPtr> _stale_rs_metas;
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    bool _in_restore_mode = false;
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    RowsetTypePB _preferred_rowset_type = BETA_ROWSET;
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    // meta for cooldown
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    int64_t _storage_policy_id = 0; // <= 0 means no storage policy
331
    UniqueId _cooldown_meta_id;
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333
    // For unique key data model, the feature Merge-on-Write will leverage a primary
334
    // key index and a delete-bitmap to mark duplicate keys as deleted in load stage,
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    // which can avoid the merging cost in read stage, and accelerate the aggregation
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    // query performance significantly.
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    bool _enable_unique_key_merge_on_write = false;
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    std::shared_ptr<DeleteBitmap> _delete_bitmap;
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340
    // binlog config
341
    BinlogConfig _binlog_config {};
342
343
    // meta for compaction
344
    std::string _compaction_policy;
345
    int64_t _time_series_compaction_goal_size_mbytes = 0;
346
    int64_t _time_series_compaction_file_count_threshold = 0;
347
    int64_t _time_series_compaction_time_threshold_seconds = 0;
348
    int64_t _time_series_compaction_empty_rowsets_threshold = 0;
349
    int64_t _time_series_compaction_level_threshold = 0;
350
351
    int64_t _avg_rs_meta_serialize_size = 0;
352
353
    // cloud
354
    int64_t _ttl_seconds = 0;
355
356
    mutable std::shared_mutex _meta_lock;
357
};
358
359
/**
360
 * Wraps multiple bitmaps for recording rows (row id) that are deleted or
361
 * overwritten. For now, it's only used when unique key merge-on-write property
362
 * enabled.
363
 *
364
 * RowsetId and SegmentId are for locating segment, Version here is a single
365
 * uint32_t means that at which "version" of the load causes the delete or
366
 * overwrite.
367
 *
368
 * The start and end version of a load is the same, it's ok and straightforward
369
 * to use a single uint32_t.
370
 *
371
 * e.g.
372
 * There is a key "key1" in rowset id 1, version [1,1], segment id 1, row id 1.
373
 * A new load also contains "key1", the rowset id 2, version [2,2], segment id 1
374
 * the delete bitmap will be `{1,1,2} -> 1`, which means the "row id 1" in
375
 * "rowset id 1, segment id 1" is deleted/overitten by some loads at "version 2"
376
 */
377
class DeleteBitmap {
378
public:
379
    mutable std::shared_mutex lock;
380
    mutable std::shared_mutex stale_delete_bitmap_lock;
381
    using SegmentId = uint32_t;
382
    using Version = uint64_t;
383
    using BitmapKey = std::tuple<RowsetId, SegmentId, Version>;
384
    std::map<BitmapKey, roaring::Roaring> delete_bitmap; // Ordered map
385
    constexpr static inline uint32_t INVALID_SEGMENT_ID = std::numeric_limits<uint32_t>::max() - 1;
386
    constexpr static inline uint32_t ROWSET_SENTINEL_MARK =
387
            std::numeric_limits<uint32_t>::max() - 1;
388
389
    // When a delete bitmap is merged into tablet's delete bitmap, the version of entries in the delete bitmap
390
    // will be replaced to the correspoding correct version. So before we finally merge a delete bitmap into
391
    // tablet's delete bitmap we can use arbitary version number in BitmapKey. Here we define some version numbers
392
    // for specific usage during this periods to avoid conflicts
393
    constexpr static inline uint64_t TEMP_VERSION_COMMON = 0;
394
395
    /**
396
     * 
397
     * @param tablet_id the tablet which this delete bitmap associates with
398
     */
399
    DeleteBitmap(int64_t tablet_id);
400
401
    /**
402
     * Copy c-tor for making delete bitmap snapshot on read path
403
     */
404
    DeleteBitmap(const DeleteBitmap& r);
405
    DeleteBitmap& operator=(const DeleteBitmap& r);
406
    /**
407
     * Move c-tor for making delete bitmap snapshot on read path
408
     */
409
    DeleteBitmap(DeleteBitmap&& r);
410
    DeleteBitmap& operator=(DeleteBitmap&& r);
411
412
    /**
413
     * Makes a snapshot of delete bitmap, read lock will be acquired in this
414
     * process
415
     */
416
    DeleteBitmap snapshot() const;
417
418
    /**
419
     * Makes a snapshot of delete bitmap on given version, read lock will be
420
     * acquired temporary in this process
421
     */
422
    DeleteBitmap snapshot(Version version) const;
423
424
    /**
425
     * Marks the specific row deleted
426
     */
427
    void add(const BitmapKey& bmk, uint32_t row_id);
428
429
    /**
430
     * Clears the deletetion mark specific row
431
     *
432
     * @return non-zero if the associated delete bitmap does not exist
433
     */
434
    int remove(const BitmapKey& bmk, uint32_t row_id);
435
436
    /**
437
     * Clears bitmaps in range [lower_key, upper_key)
438
     */
439
    void remove(const BitmapKey& lower_key, const BitmapKey& upper_key);
440
441
    /**
442
     * Checks if the given row is marked deleted
443
     *
444
     * @return true if marked deleted
445
     */
446
    bool contains(const BitmapKey& bmk, uint32_t row_id) const;
447
448
    /**
449
     * Checks if this delete bitmap is empty
450
     *
451
     * @return true if empty
452
     */
453
    bool empty() const;
454
455
    /**
456
     * return the total cardinality of the Delete Bitmap
457
     */
458
    uint64_t cardinality() const;
459
460
    /**
461
     * return the total size of the Delete Bitmap(after serialized)
462
     */
463
464
    uint64_t get_size() const;
465
466
    /**
467
     * Sets the bitmap of specific segment, it's may be insertion or replacement
468
     *
469
     * @return 1 if the insertion took place, 0 if the assignment took place
470
     */
471
    int set(const BitmapKey& bmk, const roaring::Roaring& segment_delete_bitmap);
472
473
    /**
474
     * Gets a copy of specific delete bmk
475
     *
476
     * @param segment_delete_bitmap output param
477
     * @return non-zero if the associated delete bitmap does not exist
478
     */
479
    int get(const BitmapKey& bmk, roaring::Roaring* segment_delete_bitmap) const;
480
481
    /**
482
     * Gets reference to a specific delete map, DO NOT use this function on a
483
     * mutable DeleteBitmap object
484
     * @return nullptr if the given bitmap does not exist
485
     */
486
    const roaring::Roaring* get(const BitmapKey& bmk) const;
487
488
    /**
489
     * Gets subset of delete_bitmap with given range [start, end)
490
     *
491
     * @parma start start
492
     * @parma end end
493
     * @parma subset_delete_map output param
494
     */
495
    void subset(const BitmapKey& start, const BitmapKey& end,
496
                DeleteBitmap* subset_delete_map) const;
497
498
    /**
499
     * Merges the given segment delete bitmap into *this
500
     *
501
     * @param bmk
502
     * @param segment_delete_bitmap
503
     */
504
    void merge(const BitmapKey& bmk, const roaring::Roaring& segment_delete_bitmap);
505
506
    /**
507
     * Merges the given delete bitmap into *this
508
     *
509
     * @param other
510
     */
511
    void merge(const DeleteBitmap& other);
512
513
    /**
514
     * Checks if the given row is marked deleted in bitmap with the condition:
515
     * all the bitmaps that
516
     * RowsetId and SegmentId are the same as the given ones,
517
     * and Version <= the given Version
518
     *
519
     * Note: aggregation cache may be used.
520
     *
521
     * @return true if marked deleted
522
     */
523
    bool contains_agg(const BitmapKey& bitmap, uint32_t row_id) const;
524
525
    bool contains_agg_without_cache(const BitmapKey& bmk, uint32_t row_id) const;
526
    /**
527
     * Gets aggregated delete_bitmap on rowset_id and version, the same effect:
528
     * `select sum(roaring::Roaring) where RowsetId=rowset_id and SegmentId=seg_id and Version <= version`
529
     *
530
     * @return shared_ptr to a bitmap, which may be empty
531
     */
532
    std::shared_ptr<roaring::Roaring> get_agg(const BitmapKey& bmk) const;
533
534
    void remove_sentinel_marks();
535
536
    void add_to_remove_queue(const std::string& version_str,
537
                             const std::vector<std::tuple<int64_t, DeleteBitmap::BitmapKey,
538
                                                          DeleteBitmap::BitmapKey>>& vector);
539
    void remove_stale_delete_bitmap_from_queue(const std::vector<std::string>& vector);
540
541
    uint64_t get_delete_bitmap_count();
542
543
    class AggCachePolicy : public LRUCachePolicy {
544
    public:
545
        AggCachePolicy(size_t capacity)
546
                : LRUCachePolicy(CachePolicy::CacheType::DELETE_BITMAP_AGG_CACHE, capacity,
547
                                 LRUCacheType::SIZE,
548
1
                                 config::delete_bitmap_agg_cache_stale_sweep_time_sec, 256) {}
549
    };
550
551
    class AggCache {
552
    public:
553
        class Value : public LRUCacheValueBase {
554
        public:
555
            roaring::Roaring bitmap;
556
        };
557
558
371
        AggCache(size_t size_in_bytes) {
559
371
            static std::once_flag once;
560
371
            std::call_once(once, [size_in_bytes] {
561
1
                auto* tmp = new AggCachePolicy(size_in_bytes);
562
1
                AggCache::s_repr.store(tmp, std::memory_order_release);
563
1
            });
564
565
371
            while (!s_repr.load(std::memory_order_acquire)) {
566
0
            }
567
371
        }
568
569
132
        static LRUCachePolicy* repr() { return s_repr.load(std::memory_order_acquire); }
570
        static std::atomic<AggCachePolicy*> s_repr;
571
    };
572
573
private:
574
    mutable std::shared_ptr<AggCache> _agg_cache;
575
    int64_t _tablet_id;
576
    // <version, <tablet_id, BitmapKeyStart, BitmapKeyEnd>>
577
    std::map<std::string,
578
             std::vector<std::tuple<int64_t, DeleteBitmap::BitmapKey, DeleteBitmap::BitmapKey>>>
579
            _stale_delete_bitmap;
580
};
581
582
1.18k
inline TabletUid TabletMeta::tablet_uid() const {
583
1.18k
    return _tablet_uid;
584
1.18k
}
585
586
182
inline int64_t TabletMeta::table_id() const {
587
182
    return _table_id;
588
182
}
589
590
180
inline int64_t TabletMeta::index_id() const {
591
180
    return _index_id;
592
180
}
593
594
562
inline int64_t TabletMeta::partition_id() const {
595
562
    return _partition_id;
596
562
}
597
598
4.65k
inline int64_t TabletMeta::tablet_id() const {
599
4.65k
    return _tablet_id;
600
4.65k
}
601
602
243
inline int64_t TabletMeta::replica_id() const {
603
243
    return _replica_id;
604
243
}
605
606
662
inline int32_t TabletMeta::schema_hash() const {
607
662
    return _schema_hash;
608
662
}
609
610
410
inline int16_t TabletMeta::shard_id() const {
611
410
    return _shard_id;
612
410
}
613
614
16
inline void TabletMeta::set_shard_id(int32_t shard_id) {
615
16
    _shard_id = shard_id;
616
16
}
617
618
180
inline int64_t TabletMeta::creation_time() const {
619
180
    return _creation_time;
620
180
}
621
622
0
inline void TabletMeta::set_creation_time(int64_t creation_time) {
623
0
    _creation_time = creation_time;
624
0
}
625
626
180
inline int64_t TabletMeta::cumulative_layer_point() const {
627
180
    return _cumulative_layer_point;
628
180
}
629
630
0
inline void TabletMeta::set_cumulative_layer_point(int64_t new_point) {
631
0
    _cumulative_layer_point = new_point;
632
0
}
633
634
16
inline size_t TabletMeta::num_rows() const {
635
16
    size_t num_rows = 0;
636
28
    for (auto& rs : _rs_metas) {
637
28
        num_rows += rs->num_rows();
638
28
    }
639
16
    return num_rows;
640
16
}
641
642
8
inline size_t TabletMeta::tablet_footprint() const {
643
8
    size_t total_size = 0;
644
26
    for (auto& rs : _rs_metas) {
645
26
        total_size += rs->total_disk_size();
646
26
    }
647
8
    return total_size;
648
8
}
649
650
0
inline size_t TabletMeta::tablet_local_size() const {
651
0
    size_t total_size = 0;
652
0
    for (auto& rs : _rs_metas) {
653
0
        if (rs->is_local()) {
654
0
            total_size += rs->total_disk_size();
655
0
        }
656
0
    }
657
0
    return total_size;
658
0
}
659
660
0
inline size_t TabletMeta::tablet_remote_size() const {
661
0
    size_t total_size = 0;
662
0
    for (auto& rs : _rs_metas) {
663
0
        if (!rs->is_local()) {
664
0
            total_size += rs->total_disk_size();
665
0
        }
666
0
    }
667
0
    return total_size;
668
0
}
669
670
50
inline size_t TabletMeta::version_count() const {
671
50
    return _rs_metas.size();
672
50
}
673
674
25
inline size_t TabletMeta::stale_version_count() const {
675
25
    return _rs_metas.size();
676
25
}
677
678
8.82k
inline TabletState TabletMeta::tablet_state() const {
679
8.82k
    return _tablet_state;
680
8.82k
}
681
682
46
inline void TabletMeta::set_tablet_state(TabletState state) {
683
46
    _tablet_state = state;
684
46
}
685
686
180
inline bool TabletMeta::in_restore_mode() const {
687
180
    return _in_restore_mode;
688
180
}
689
690
0
inline void TabletMeta::set_in_restore_mode(bool in_restore_mode) {
691
0
    _in_restore_mode = in_restore_mode;
692
0
}
693
694
1.56k
inline const TabletSchemaSPtr& TabletMeta::tablet_schema() const {
695
1.56k
    return _schema;
696
1.56k
}
697
698
0
inline TabletSchema* TabletMeta::mutable_tablet_schema() {
699
0
    return _schema.get();
700
0
}
701
702
943
inline const std::vector<RowsetMetaSharedPtr>& TabletMeta::all_rs_metas() const {
703
943
    return _rs_metas;
704
943
}
705
706
0
inline std::vector<RowsetMetaSharedPtr>& TabletMeta::all_mutable_rs_metas() {
707
0
    return _rs_metas;
708
0
}
709
710
515
inline const std::vector<RowsetMetaSharedPtr>& TabletMeta::all_stale_rs_metas() const {
711
515
    return _stale_rs_metas;
712
515
}
713
714
0
inline bool TabletMeta::all_beta() const {
715
0
    for (auto& rs : _rs_metas) {
716
0
        if (rs->rowset_type() != RowsetTypePB::BETA_ROWSET) {
717
0
            return false;
718
0
        }
719
0
    }
720
0
    for (auto& rs : _stale_rs_metas) {
721
0
        if (rs->rowset_type() != RowsetTypePB::BETA_ROWSET) {
722
0
            return false;
723
0
        }
724
0
    }
725
0
    return true;
726
0
}
727
728
std::string tablet_state_name(TabletState state);
729
730
// Only for unit test now.
731
bool operator==(const TabletMeta& a, const TabletMeta& b);
732
bool operator!=(const TabletMeta& a, const TabletMeta& b);
733
734
} // namespace doris