// Licensed to the Apache Software Foundation (ASF) under one

// or more contributor license agreements.  See the NOTICE file

// distributed with this work for additional information

// regarding copyright ownership.  The ASF licenses this file

// to you under the Apache License, Version 2.0 (the

// "License"); you may not use this file except in compliance

// with the License.  You may obtain a copy of the License at

//

//   http://www.apache.org/licenses/LICENSE-2.0

//

// Unless required by applicable law or agreed to in writing,

// software distributed under the License is distributed on an

// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY

// KIND, either express or implied.  See the License for the

// specific language governing permissions and limitations

// under the License.

#include "cloud/cloud_tablet.h"

#include <gen_cpp/olap_file.pb.h>

#include <rapidjson/document.h>

#include <rapidjson/encodings.h>

#include <rapidjson/prettywriter.h>

#include <rapidjson/rapidjson.h>

#include <rapidjson/stringbuffer.h>

#include <atomic>

#include <memory>

#include <shared_mutex>

#include <unordered_map>

#include <vector>

#include "cloud/cloud_meta_mgr.h"

#include "cloud/cloud_storage_engine.h"

#include "cloud/cloud_tablet_mgr.h"

#include "cloud/cloud_warm_up_manager.h"

#include "common/config.h"

#include "common/logging.h"

#include "io/cache/block_file_cache_downloader.h"

#include "io/cache/block_file_cache_factory.h"

#include "olap/base_tablet.h"

#include "olap/compaction.h"

#include "olap/cumulative_compaction_time_series_policy.h"

#include "olap/olap_define.h"

#include "olap/rowset/beta_rowset.h"

#include "olap/rowset/rowset.h"

#include "olap/rowset/rowset_factory.h"

#include "olap/rowset/rowset_fwd.h"

#include "olap/rowset/rowset_writer.h"

#include "olap/rowset/segment_v2/inverted_index_desc.h"

#include "olap/storage_policy.h"

#include "olap/tablet_schema.h"

#include "olap/txn_manager.h"

#include "util/debug_points.h"

#include "vec/common/schema_util.h"

namespace doris {

#include "common/compile_check_begin.h"

using namespace ErrorCode;

bvar::Adder<int64_t> g_unused_rowsets_count("unused_rowsets_count");

static constexpr int LOAD_INITIATOR_ID = -1;

bvar::Adder<uint64_t> g_file_cache_cloud_tablet_submitted_segment_size(

        "file_cache_cloud_tablet_submitted_segment_size");

bvar::Adder<uint64_t> g_file_cache_cloud_tablet_submitted_segment_num(

        "file_cache_cloud_tablet_submitted_segment_num");

bvar::Adder<uint64_t> g_file_cache_cloud_tablet_submitted_index_size(

        "file_cache_cloud_tablet_submitted_index_size");

bvar::Adder<uint64_t> g_file_cache_cloud_tablet_submitted_index_num(

        "file_cache_cloud_tablet_submitted_index_num");

bvar::Adder<uint64_t> g_file_cache_cloud_tablet_finished_segment_size(

        "file_cache_cloud_tablet_finished_segment_size");

bvar::Adder<uint64_t> g_file_cache_cloud_tablet_finished_segment_num(

        "file_cache_cloud_tablet_finished_segment_num");

bvar::Adder<uint64_t> g_file_cache_cloud_tablet_finished_index_size(

        "file_cache_cloud_tablet_finished_index_size");

bvar::Adder<uint64_t> g_file_cache_cloud_tablet_finished_index_num(

        "file_cache_cloud_tablet_finished_index_num");

bvar::Adder<uint64_t> g_file_cache_recycle_cached_data_segment_num(

        "file_cache_recycle_cached_data_segment_num");

bvar::Adder<uint64_t> g_file_cache_recycle_cached_data_segment_size(

        "file_cache_recycle_cached_data_segment_size");

bvar::Adder<uint64_t> g_file_cache_recycle_cached_data_index_num(

        "file_cache_recycle_cached_data_index_num");

CloudTablet::CloudTablet(CloudStorageEngine& engine, TabletMetaSharedPtr tablet_meta)

        : BaseTablet(std::move(tablet_meta)), _engine(engine) {}

CloudTablet::~CloudTablet() = default;

bool CloudTablet::exceed_version_limit(int32_t limit) {

    return _approximate_num_rowsets.load(std::memory_order_relaxed) > limit;

}

std::string CloudTablet::tablet_path() const {

    return "";

}

Status CloudTablet::capture_rs_readers(const Version& spec_version,

                                       std::vector<RowSetSplits>* rs_splits,

                                       bool skip_missing_version) {

    DBUG_EXECUTE_IF("CloudTablet.capture_rs_readers.return.e-230", {

        LOG_WARNING("CloudTablet.capture_rs_readers.return e-230").tag("tablet_id", tablet_id());

        return Status::Error<false>(-230, "injected error");

    });

    std::shared_lock rlock(_meta_lock);

    *rs_splits = DORIS_TRY(capture_rs_readers_unlocked(

            spec_version, CaptureRowsetOps {.skip_missing_versions = skip_missing_version}));

    return Status::OK();

}

Status CloudTablet::merge_rowsets_schema() {

    // Find the rowset with the max version

    auto max_version_rowset =

            std::max_element(

                    _rs_version_map.begin(), _rs_version_map.end(),

                    [](const auto& a, const auto& b) {

                        return !a.second->tablet_schema()

                                       ? true

                                       : (!b.second->tablet_schema()

                                                  ? false

                                                  : a.second->tablet_schema()->schema_version() <

                                                            b.second->tablet_schema()

                                                                    ->schema_version());

                    })

                    ->second;

    TabletSchemaSPtr max_version_schema = max_version_rowset->tablet_schema();

    // If the schema has variant columns, perform a merge to create a wide tablet schema

    if (max_version_schema->num_variant_columns() > 0) {

        std::vector<TabletSchemaSPtr> schemas;

        std::transform(_rs_version_map.begin(), _rs_version_map.end(), std::back_inserter(schemas),

                       [](const auto& rs_meta) { return rs_meta.second->tablet_schema(); });

        // Merge the collected schemas to obtain the least common schema

        RETURN_IF_ERROR(vectorized::schema_util::get_least_common_schema(schemas, nullptr,

                                                                         max_version_schema));

        VLOG_DEBUG << "dump schema: " << max_version_schema->dump_full_schema();

        _merged_tablet_schema = max_version_schema;

    }

    return Status::OK();

}

// There are only two tablet_states RUNNING and NOT_READY in cloud mode

// This function will erase the tablet from `CloudTabletMgr` when it can't find this tablet in MS.

Status CloudTablet::sync_rowsets(int64_t query_version, bool warmup_delta_data,

                                 SyncRowsetStats* stats) {

    RETURN_IF_ERROR(sync_if_not_running(stats));

    if (query_version > 0) {

        std::shared_lock rlock(_meta_lock);

        if (_max_version >= query_version) {

            return Status::OK();

        }

    }

    // serially execute sync to reduce unnecessary network overhead

    std::unique_lock lock(_sync_meta_lock);

    if (query_version > 0) {

        std::shared_lock rlock(_meta_lock);

        if (_max_version >= query_version) {

            return Status::OK();

        }

    }

    auto st = _engine.meta_mgr().sync_tablet_rowsets_unlocked(this, lock, warmup_delta_data, true,

                                                              false, stats);

    if (st.is<ErrorCode::NOT_FOUND>()) {

        clear_cache();

    }

    return st;

}

// Sync tablet meta and all rowset meta if not running.

// This could happen when BE didn't finish schema change job and another BE committed this schema change job.

// It should be a quite rare situation.

Status CloudTablet::sync_if_not_running(SyncRowsetStats* stats) {

    if (tablet_state() == TABLET_RUNNING) {

        return Status::OK();

    }

    // Serially execute sync to reduce unnecessary network overhead

    std::unique_lock lock(_sync_meta_lock);

    {

        std::shared_lock rlock(_meta_lock);

        if (tablet_state() == TABLET_RUNNING) {

            return Status::OK();

        }

    }

    TabletMetaSharedPtr tablet_meta;

    auto st = _engine.meta_mgr().get_tablet_meta(tablet_id(), &tablet_meta);

    if (!st.ok()) {

        if (st.is<ErrorCode::NOT_FOUND>()) {

            clear_cache();

        }

        return st;

    }

    if (tablet_meta->tablet_state() != TABLET_RUNNING) [[unlikely]] {

        // MoW may go to here when load while schema change

        return Status::OK();

    }

    TimestampedVersionTracker empty_tracker;

    {

        std::lock_guard wlock(_meta_lock);

        RETURN_IF_ERROR(set_tablet_state(TABLET_RUNNING));

        _rs_version_map.clear();

        _stale_rs_version_map.clear();

        std::swap(_timestamped_version_tracker, empty_tracker);

        _tablet_meta->clear_rowsets();

        _tablet_meta->clear_stale_rowset();

        _max_version = -1;

    }

    st = _engine.meta_mgr().sync_tablet_rowsets_unlocked(this, lock, false, true, false, stats);

    if (st.is<ErrorCode::NOT_FOUND>()) {

        clear_cache();

    }

    return st;

}

TabletSchemaSPtr CloudTablet::merged_tablet_schema() const {

    std::shared_lock rlock(_meta_lock);

    return _merged_tablet_schema;

}

void CloudTablet::add_rowsets(std::vector<RowsetSharedPtr> to_add, bool version_overlap,

                              std::unique_lock<std::shared_mutex>& meta_lock,

                              bool warmup_delta_data) {

    if (to_add.empty()) {

        return;

    }

    auto add_rowsets_directly = [=, this](std::vector<RowsetSharedPtr>& rowsets) {

        for (auto& rs : rowsets) {

            if (version_overlap || warmup_delta_data) {

#ifndef BE_TEST

                // Warmup rowset data in background

                for (int seg_id = 0; seg_id < rs->num_segments(); ++seg_id) {

                    const auto& rowset_meta = rs->rowset_meta();

                    constexpr int64_t interval = 600; // 10 mins

                    // When BE restart and receive the `load_sync` rpc, it will sync all historical rowsets first time.

                    // So we need to filter out the old rowsets avoid to download the whole table.

                    if (warmup_delta_data &&

                        ::time(nullptr) - rowset_meta->newest_write_timestamp() >= interval) {

                        continue;

                    }

                    auto storage_resource = rowset_meta->remote_storage_resource();

                    if (!storage_resource) {

                        LOG(WARNING) << storage_resource.error();

                        continue;

                    }

                    int64_t expiration_time =

                            _tablet_meta->ttl_seconds() == 0 ||

                                            rowset_meta->newest_write_timestamp() <= 0

                                    ? 0

                                    : rowset_meta->newest_write_timestamp() +

                                              _tablet_meta->ttl_seconds();

                    g_file_cache_cloud_tablet_submitted_segment_num << 1;

                    if (rs->rowset_meta()->segment_file_size(seg_id) > 0) {

                        g_file_cache_cloud_tablet_submitted_segment_size

                                << rs->rowset_meta()->segment_file_size(seg_id);

                    }

                    _engine.file_cache_block_downloader().submit_download_task(io::DownloadFileMeta {

                            .path = storage_resource.value()->remote_segment_path(*rowset_meta,

                                                                                  seg_id),

                            .file_size = rs->rowset_meta()->segment_file_size(seg_id),

                            .file_system = storage_resource.value()->fs,

                            .ctx =

                                    {

                                            .expiration_time = expiration_time,

                                            .is_dryrun = config::

                                                    enable_reader_dryrun_when_download_file_cache,

                                    },

                            .download_done {[](Status st) {

                                if (!st) {

                                    LOG_WARNING("add rowset warm up error ").error(st);

                                }

                            }},

                    });

                    auto download_idx_file = [&](const io::Path& idx_path, int64_t idx_size) {

                        io::DownloadFileMeta meta {

                                .path = idx_path,

                                .file_size = idx_size,

                                .file_system = storage_resource.value()->fs,

                                .ctx =

                                        {

                                                .expiration_time = expiration_time,

                                                .is_dryrun = config::

                                                        enable_reader_dryrun_when_download_file_cache,

                                        },

                                .download_done {[](Status st) {

                                    if (!st) {

                                        LOG_WARNING("add rowset warm up error ").error(st);

                                    }

                                }},

                        };

                        _engine.file_cache_block_downloader().submit_download_task(std::move(meta));

                        g_file_cache_cloud_tablet_submitted_index_num << 1;

                        g_file_cache_cloud_tablet_submitted_index_size << idx_size;

                    };

                    // clang-format on

                    auto schema_ptr = rowset_meta->tablet_schema();

                    auto idx_version = schema_ptr->get_inverted_index_storage_format();

                    if (idx_version == InvertedIndexStorageFormatPB::V1) {

                        std::unordered_map<int64_t, int64_t> index_size_map;

                        auto&& inverted_index_info = rowset_meta->inverted_index_file_info(seg_id);

                        for (const auto& info : inverted_index_info.index_info()) {

                            if (info.index_file_size() != -1) {

                                index_size_map[info.index_id()] = info.index_file_size();

                            } else {

                                VLOG_DEBUG << "Invalid index_file_size for segment_id " << seg_id

                                           << ", index_id " << info.index_id();

                            }

                        }

                        for (const auto& index : schema_ptr->inverted_indexes()) {

                            auto idx_path = storage_resource.value()->remote_idx_v1_path(

                                    *rowset_meta, seg_id, index->index_id(),

                                    index->get_index_suffix());

                            download_idx_file(idx_path, index_size_map[index->index_id()]);

                        }

                    } else {

                        if (schema_ptr->has_inverted_index()) {

                            auto&& inverted_index_info =

                                    rowset_meta->inverted_index_file_info(seg_id);

                            int64_t idx_size = 0;

                            if (inverted_index_info.has_index_size()) {

                                idx_size = inverted_index_info.index_size();

                            } else {

                                VLOG_DEBUG << "index_size is not set for segment " << seg_id;

                            }

                            auto idx_path = storage_resource.value()->remote_idx_v2_path(

                                    *rowset_meta, seg_id);

                            download_idx_file(idx_path, idx_size);

                        }

                    }

                }

#endif

            }

            _rs_version_map.emplace(rs->version(), rs);

            _timestamped_version_tracker.add_version(rs->version());

            _max_version = std::max(rs->end_version(), _max_version);

            update_base_size(*rs);

        }

        _tablet_meta->add_rowsets_unchecked(rowsets);

    };

    if (!version_overlap) {

        add_rowsets_directly(to_add);

        return;

    }

    // Filter out existed rowsets

    auto remove_it =

            std::remove_if(to_add.begin(), to_add.end(), [this](const RowsetSharedPtr& rs) {

                if (auto find_it = _rs_version_map.find(rs->version());

                    find_it == _rs_version_map.end()) {

                    return false;

                } else if (find_it->second->rowset_id() == rs->rowset_id()) {

                    return true; // Same rowset

                }

                // If version of rowset in `to_add` is equal to rowset in tablet but rowset_id is not equal,

                // replace existed rowset with `to_add` rowset. This may occur when:

                //  1. schema change converts rowsets which have been double written to new tablet

                //  2. cumu compaction picks single overlapping input rowset to perform compaction

                // add existed rowset to unused_rowsets to remove delete bitmap and recycle cached data

                std::vector<RowsetSharedPtr> unused_rowsets;

                if (auto find_it = _rs_version_map.find(rs->version());

                    find_it != _rs_version_map.end()) {

                    DCHECK(find_it->second->rowset_id() != rs->rowset_id())

                            << "tablet_id=" << tablet_id()

                            << ", rowset_id=" << rs->rowset_id().to_string()

                            << ", existed rowset_id=" << find_it->second->rowset_id().to_string();

                    unused_rowsets.push_back(find_it->second);

                }

                add_unused_rowsets(unused_rowsets);

                _tablet_meta->delete_rs_meta_by_version(rs->version(), nullptr);

                _rs_version_map[rs->version()] = rs;

                _tablet_meta->add_rowsets_unchecked({rs});

                update_base_size(*rs);

                return true;

            });

    to_add.erase(remove_it, to_add.end());

    // delete rowsets with overlapped version

    std::vector<RowsetSharedPtr> to_add_directly;

    for (auto& to_add_rs : to_add) {

        // delete rowsets with overlapped version

        std::vector<RowsetSharedPtr> to_delete;

        Version to_add_v = to_add_rs->version();

        // if start_version  > max_version, we can skip checking overlap here.

        if (to_add_v.first > _max_version) {

            // if start_version  > max_version, we can skip checking overlap here.

            to_add_directly.push_back(to_add_rs);

        } else {

            to_add_directly.push_back(to_add_rs);

            for (auto& [v, rs] : _rs_version_map) {

                if (to_add_v.contains(v)) {

                    to_delete.push_back(rs);

                }

            }

            delete_rowsets(to_delete, meta_lock);

        }

    }

    add_rowsets_directly(to_add_directly);

}

void CloudTablet::delete_rowsets(const std::vector<RowsetSharedPtr>& to_delete,

                                 std::unique_lock<std::shared_mutex>&) {

    if (to_delete.empty()) {

        return;

    }

    std::vector<RowsetMetaSharedPtr> rs_metas;

    rs_metas.reserve(to_delete.size());

    for (auto&& rs : to_delete) {

        rs_metas.push_back(rs->rowset_meta());

        _stale_rs_version_map[rs->version()] = rs;

    }

    _timestamped_version_tracker.add_stale_path_version(rs_metas);

    for (auto&& rs : to_delete) {

        _rs_version_map.erase(rs->version());

    }

    _tablet_meta->modify_rs_metas({}, rs_metas, false);

}

uint64_t CloudTablet::delete_expired_stale_rowsets() {

    if (config::enable_mow_verbose_log) {

        LOG_INFO("begin delete_expired_stale_rowset for tablet={}", tablet_id());

    }

    std::vector<RowsetSharedPtr> expired_rowsets;

    // ATTN: trick, Use stale_rowsets to temporarily increase the reference count of the rowset shared pointer in _stale_rs_version_map so that in the recycle_cached_data function, it checks if the reference count is 2.

    std::vector<RowsetSharedPtr> stale_rowsets;

    int64_t expired_stale_sweep_endtime =

            ::time(nullptr) - config::tablet_rowset_stale_sweep_time_sec;

    {

        std::unique_lock wlock(_meta_lock);

        std::vector<int64_t> path_ids;

        // capture the path version to delete

        _timestamped_version_tracker.capture_expired_paths(expired_stale_sweep_endtime, &path_ids);

        if (path_ids.empty()) {

            return 0;

        }

        for (int64_t path_id : path_ids) {

            // delete stale versions in version graph

            auto version_path = _timestamped_version_tracker.fetch_and_delete_path_by_id(path_id);

            for (auto& v_ts : version_path->timestamped_versions()) {

                auto rs_it = _stale_rs_version_map.find(v_ts->version());

                if (rs_it != _stale_rs_version_map.end()) {

                    expired_rowsets.push_back(rs_it->second);

                    stale_rowsets.push_back(rs_it->second);

                    LOG(INFO) << "erase stale rowset, tablet_id=" << tablet_id()

                              << " rowset_id=" << rs_it->second->rowset_id().to_string()

                              << " version=" << rs_it->first.to_string();

                    _stale_rs_version_map.erase(rs_it);

                } else {

                    LOG(WARNING) << "cannot find stale rowset " << v_ts->version() << " in tablet "

                                 << tablet_id();

                    // clang-format off

                    DCHECK(false) << [this, &wlock]() { wlock.unlock(); std::string json; get_compaction_status(&json); return json; }();

                    // clang-format on

                }

                _tablet_meta->delete_stale_rs_meta_by_version(v_ts->version());

            }

        }

        _reconstruct_version_tracker_if_necessary();

    }

    auto recycled_rowsets = recycle_cached_data(expired_rowsets);

    if (!recycled_rowsets.empty()) {

        auto& manager = ExecEnv::GetInstance()->storage_engine().to_cloud().cloud_warm_up_manager();

        manager.recycle_cache(tablet_id(), recycled_rowsets);

    }

    if (config::enable_mow_verbose_log) {

        LOG_INFO("finish delete_expired_stale_rowset for tablet={}", tablet_id());

    }

    add_unused_rowsets(expired_rowsets);

    return expired_rowsets.size();

}

bool CloudTablet::need_remove_unused_rowsets() {

    std::lock_guard<std::mutex> lock(_gc_mutex);

    return !_unused_rowsets.empty();

}

void CloudTablet::add_unused_rowsets(const std::vector<RowsetSharedPtr>& rowsets) {

    std::lock_guard<std::mutex> lock(_gc_mutex);

    for (const auto& rowset : rowsets) {

        _unused_rowsets[rowset->rowset_id()] = rowset;

    }

    g_unused_rowsets_count << rowsets.size();

}

void CloudTablet::remove_unused_rowsets() {

    std::vector<std::shared_ptr<Rowset>> removed_rowsets;

    OlapStopWatch watch;

    {

        std::lock_guard<std::mutex> lock(_gc_mutex);

        // 1. remove unused rowsets's cache data and delete bitmap

        for (auto it = _unused_rowsets.begin(); it != _unused_rowsets.end();) {

            auto& rs = it->second;

            if (rs.use_count() > 1) {

                LOG(WARNING) << "tablet_id:" << tablet_id() << " rowset: " << rs->rowset_id()

                             << " has " << rs.use_count() << " references, it cannot be removed";

                ++it;

                continue;

            }

            tablet_meta()->remove_rowset_delete_bitmap(rs->rowset_id(), rs->version());

            rs->clear_cache();

            removed_rowsets.push_back(std::move(rs));

            g_unused_rowsets_count << -1;

            it = _unused_rowsets.erase(it);

        }

    }

    {

        std::vector<RecycledRowsets> recycled_rowsets;

        for (auto& rs : removed_rowsets) {

            auto index_names = rs->get_index_file_names();

            recycled_rowsets.emplace_back(rs->rowset_id(), rs->num_segments(), index_names);

            int64_t segment_size_sum = 0;

            for (int32_t i = 0; i < rs->num_segments(); i++) {

                segment_size_sum += rs->rowset_meta()->segment_file_size(i);

            }

            g_file_cache_recycle_cached_data_segment_num << rs->num_segments();

            g_file_cache_recycle_cached_data_segment_size << segment_size_sum;

            g_file_cache_recycle_cached_data_index_num << index_names.size();

        }

        if (recycled_rowsets.size() > 0) {

            auto& manager =

                    ExecEnv::GetInstance()->storage_engine().to_cloud().cloud_warm_up_manager();

            manager.recycle_cache(tablet_id(), recycled_rowsets);

        }

    }

    LOG(INFO) << "tablet_id=" << tablet_id() << ", unused_rowset size=" << _unused_rowsets.size()

              << ", removed_rowsets_num=" << removed_rowsets.size()

              << ", cost(us)=" << watch.get_elapse_time_us();

}

void CloudTablet::update_base_size(const Rowset& rs) {

    // Define base rowset as the rowset of version [2-x]

    if (rs.start_version() == 2) {

        _base_size = rs.total_disk_size();

    }

}

void CloudTablet::clear_cache() {

    auto recycled_rowsets = CloudTablet::recycle_cached_data(get_snapshot_rowset(true));

    if (!recycled_rowsets.empty()) {

        auto& manager = ExecEnv::GetInstance()->storage_engine().to_cloud().cloud_warm_up_manager();

        manager.recycle_cache(tablet_id(), recycled_rowsets);

    }

    _engine.tablet_mgr().erase_tablet(tablet_id());

}

std::vector<RecycledRowsets> CloudTablet::recycle_cached_data(

        const std::vector<RowsetSharedPtr>& rowsets) {

    std::vector<RecycledRowsets> recycled_rowsets;

    for (const auto& rs : rowsets) {

        // rowsets and tablet._rs_version_map each hold a rowset shared_ptr, so at this point, the reference count of the shared_ptr is at least 2.

        if (rs.use_count() > 2) {

            LOG(WARNING) << "Rowset " << rs->rowset_id().to_string() << " has " << rs.use_count()

                         << " references. File Cache won't be recycled when query is using it.";

            continue;

        }

        rs->clear_cache();

        auto index_names = rs->get_index_file_names();

        recycled_rowsets.emplace_back(rs->rowset_id(), rs->num_segments(), index_names);

        int64_t segment_size_sum = 0;

        for (int32_t i = 0; i < rs->num_segments(); i++) {

            segment_size_sum += rs->rowset_meta()->segment_file_size(i);

        }

        g_file_cache_recycle_cached_data_segment_num << rs->num_segments();

        g_file_cache_recycle_cached_data_segment_size << segment_size_sum;

        g_file_cache_recycle_cached_data_index_num << index_names.size();

    }

    return recycled_rowsets;

}

void CloudTablet::reset_approximate_stats(int64_t num_rowsets, int64_t num_segments,

                                          int64_t num_rows, int64_t data_size) {

    _approximate_num_rowsets.store(num_rowsets, std::memory_order_relaxed);

    _approximate_num_segments.store(num_segments, std::memory_order_relaxed);

    _approximate_num_rows.store(num_rows, std::memory_order_relaxed);

    _approximate_data_size.store(data_size, std::memory_order_relaxed);

    int64_t cumu_num_deltas = 0;

    int64_t cumu_num_rowsets = 0;

    auto cp = _cumulative_point.load(std::memory_order_relaxed);

    for (auto& [v, r] : _rs_version_map) {

        if (v.second < cp) {

            continue;

        }

        cumu_num_deltas += r->is_segments_overlapping() ? r->num_segments() : 1;

        ++cumu_num_rowsets;

    }

    _approximate_cumu_num_rowsets.store(cumu_num_rowsets, std::memory_order_relaxed);

    _approximate_cumu_num_deltas.store(cumu_num_deltas, std::memory_order_relaxed);

}

Result<std::unique_ptr<RowsetWriter>> CloudTablet::create_rowset_writer(

        RowsetWriterContext& context, bool vertical) {

    context.rowset_id = _engine.next_rowset_id();

    // FIXME(plat1ko): Seems `tablet_id` and `index_id` has been set repeatedly

    context.tablet_id = tablet_id();

    context.index_id = index_id();

    context.partition_id = partition_id();

    context.enable_unique_key_merge_on_write = enable_unique_key_merge_on_write();

    return RowsetFactory::create_rowset_writer(_engine, context, vertical);

}

// create a rowset writer with rowset_id and seg_id

// after writer, merge this transient rowset with original rowset

Result<std::unique_ptr<RowsetWriter>> CloudTablet::create_transient_rowset_writer(

        const Rowset& rowset, std::shared_ptr<PartialUpdateInfo> partial_update_info,

        int64_t txn_expiration) {

    if (rowset.rowset_meta_state() != RowsetStatePB::BEGIN_PARTIAL_UPDATE &&

        rowset.rowset_meta_state() != RowsetStatePB::COMMITTED) [[unlikely]] {

        auto msg = fmt::format(

                "wrong rowset state when create_transient_rowset_writer, rowset state should be "

                "BEGIN_PARTIAL_UPDATE or COMMITTED, but found {}, rowset_id={}, tablet_id={}",

                RowsetStatePB_Name(rowset.rowset_meta_state()), rowset.rowset_id().to_string(),

                tablet_id());

        // see `CloudRowsetWriter::build` for detail.

        // if this is in a retry task, the rowset state may have been changed to RowsetStatePB::COMMITTED

        // in `RowsetMeta::merge_rowset_meta()` in previous trials.

        LOG(WARNING) << msg;

        DCHECK(false) << msg;

    }

    RowsetWriterContext context;

    context.rowset_state = PREPARED;

    context.segments_overlap = OVERLAPPING;

    // During a partial update, the extracted columns of a variant should not be included in the tablet schema.

    // This is because the partial update for a variant needs to ignore the extracted columns.

    // Otherwise, the schema types in different rowsets might be inconsistent. When performing a partial update,

    // the complete variant is constructed by reading all the sub-columns of the variant.

    context.tablet_schema = rowset.tablet_schema()->copy_without_variant_extracted_columns();

    context.newest_write_timestamp = UnixSeconds();

    context.tablet_id = table_id();

    context.enable_segcompaction = false;

    context.write_type = DataWriteType::TYPE_DIRECT;

    context.partial_update_info = std::move(partial_update_info);

    context.is_transient_rowset_writer = true;

    context.rowset_id = rowset.rowset_id();

    context.tablet_id = tablet_id();

    context.index_id = index_id();

    context.partition_id = partition_id();

    context.enable_unique_key_merge_on_write = enable_unique_key_merge_on_write();

    context.txn_expiration = txn_expiration;

    auto storage_resource = rowset.rowset_meta()->remote_storage_resource();

    if (!storage_resource) {

        return ResultError(std::move(storage_resource.error()));

    }

    context.storage_resource = *storage_resource.value();

    return RowsetFactory::create_rowset_writer(_engine, context, false)

            .transform([&](auto&& writer) {

                writer->set_segment_start_id(static_cast<int32_t>(rowset.num_segments()));

                return writer;

            });

}

int64_t CloudTablet::get_cloud_base_compaction_score() const {

    if (_tablet_meta->compaction_policy() == CUMULATIVE_TIME_SERIES_POLICY) {

        bool has_delete = false;

        int64_t point = cumulative_layer_point();

        std::shared_lock<std::shared_mutex> rlock(_meta_lock);

        for (const auto& rs_meta : _tablet_meta->all_rs_metas()) {

            if (rs_meta->start_version() >= point) {

                continue;

            }

            if (rs_meta->has_delete_predicate()) {

                has_delete = true;

                break;

            }

        }

        if (!has_delete) {

            return 0;

        }

    }

    return _approximate_num_rowsets.load(std::memory_order_relaxed) -

           _approximate_cumu_num_rowsets.load(std::memory_order_relaxed);

}

int64_t CloudTablet::get_cloud_cumu_compaction_score() const {

    // TODO(plat1ko): Propose an algorithm that considers tablet's key type, number of delete rowsets,

    //  number of tablet versions simultaneously.

    return _approximate_cumu_num_deltas.load(std::memory_order_relaxed);

}

// return a json string to show the compaction status of this tablet

void CloudTablet::get_compaction_status(std::string* json_result) {

    rapidjson::Document root;

    root.SetObject();

    rapidjson::Document path_arr;

    path_arr.SetArray();

    std::vector<RowsetSharedPtr> rowsets;

    std::vector<RowsetSharedPtr> stale_rowsets;

    {

        std::shared_lock rdlock(_meta_lock);

        rowsets.reserve(_rs_version_map.size());

        for (auto& it : _rs_version_map) {

            rowsets.push_back(it.second);

        }

        stale_rowsets.reserve(_stale_rs_version_map.size());

        for (auto& it : _stale_rs_version_map) {

            stale_rowsets.push_back(it.second);

        }

    }

    std::sort(rowsets.begin(), rowsets.end(), Rowset::comparator);

    std::sort(stale_rowsets.begin(), stale_rowsets.end(), Rowset::comparator);

    // get snapshot version path json_doc

    _timestamped_version_tracker.get_stale_version_path_json_doc(path_arr);

    root.AddMember("cumulative point", _cumulative_point.load(), root.GetAllocator());

    rapidjson::Value cumu_value;

    std::string format_str = ToStringFromUnixMillis(_last_cumu_compaction_failure_millis.load());

    cumu_value.SetString(format_str.c_str(), static_cast<uint>(format_str.length()),

                         root.GetAllocator());

    root.AddMember("last cumulative failure time", cumu_value, root.GetAllocator());

    rapidjson::Value base_value;

    format_str = ToStringFromUnixMillis(_last_base_compaction_failure_millis.load());

    base_value.SetString(format_str.c_str(), static_cast<uint>(format_str.length()),

                         root.GetAllocator());

    root.AddMember("last base failure time", base_value, root.GetAllocator());

    rapidjson::Value full_value;

    format_str = ToStringFromUnixMillis(_last_full_compaction_failure_millis.load());

    full_value.SetString(format_str.c_str(), static_cast<uint>(format_str.length()),

                         root.GetAllocator());

    root.AddMember("last full failure time", full_value, root.GetAllocator());

    rapidjson::Value cumu_success_value;

    format_str = ToStringFromUnixMillis(_last_cumu_compaction_success_millis.load());

    cumu_success_value.SetString(format_str.c_str(), static_cast<uint>(format_str.length()),

                                 root.GetAllocator());

    root.AddMember("last cumulative success time", cumu_success_value, root.GetAllocator());

    rapidjson::Value base_success_value;

    format_str = ToStringFromUnixMillis(_last_base_compaction_success_millis.load());

    base_success_value.SetString(format_str.c_str(), static_cast<uint>(format_str.length()),

                                 root.GetAllocator());

    root.AddMember("last base success time", base_success_value, root.GetAllocator());

    rapidjson::Value full_success_value;

    format_str = ToStringFromUnixMillis(_last_full_compaction_success_millis.load());

    full_success_value.SetString(format_str.c_str(), static_cast<uint>(format_str.length()),

                                 root.GetAllocator());

    root.AddMember("last full success time", full_success_value, root.GetAllocator());

    rapidjson::Value cumu_schedule_value;

    format_str = ToStringFromUnixMillis(_last_cumu_compaction_schedule_millis.load());

    cumu_schedule_value.SetString(format_str.c_str(), static_cast<uint>(format_str.length()),

                                  root.GetAllocator());

    root.AddMember("last cumulative schedule time", cumu_schedule_value, root.GetAllocator());

    rapidjson::Value base_schedule_value;

    format_str = ToStringFromUnixMillis(_last_base_compaction_schedule_millis.load());

    base_schedule_value.SetString(format_str.c_str(), static_cast<uint>(format_str.length()),

                                  root.GetAllocator());

    root.AddMember("last base schedule time", base_schedule_value, root.GetAllocator());

    rapidjson::Value full_schedule_value;

    format_str = ToStringFromUnixMillis(_last_full_compaction_schedule_millis.load());

    full_schedule_value.SetString(format_str.c_str(), static_cast<uint>(format_str.length()),

                                  root.GetAllocator());

    root.AddMember("last full schedule time", full_schedule_value, root.GetAllocator());

    rapidjson::Value cumu_compaction_status_value;

    cumu_compaction_status_value.SetString(_last_cumu_compaction_status.c_str(),

                                           static_cast<uint>(_last_cumu_compaction_status.length()),

                                           root.GetAllocator());

    root.AddMember("last cumulative status", cumu_compaction_status_value, root.GetAllocator());

    rapidjson::Value base_compaction_status_value;

    base_compaction_status_value.SetString(_last_base_compaction_status.c_str(),

                                           static_cast<uint>(_last_base_compaction_status.length()),

                                           root.GetAllocator());

    root.AddMember("last base status", base_compaction_status_value, root.GetAllocator());

    rapidjson::Value full_compaction_status_value;

    full_compaction_status_value.SetString(_last_full_compaction_status.c_str(),

                                           static_cast<uint>(_last_full_compaction_status.length()),

                                           root.GetAllocator());

    root.AddMember("last full status", full_compaction_status_value, root.GetAllocator());

    rapidjson::Value exec_compaction_time;

    std::string num_str {std::to_string(exec_compaction_time_us.load())};

    exec_compaction_time.SetString(num_str.c_str(), static_cast<uint>(num_str.length()),

                                   root.GetAllocator());

    root.AddMember("exec compaction time us", exec_compaction_time, root.GetAllocator());

    rapidjson::Value local_read_time;

    num_str = std::to_string(local_read_time_us.load());

    local_read_time.SetString(num_str.c_str(), static_cast<uint>(num_str.length()),

                              root.GetAllocator());

    root.AddMember("compaction local read time us", local_read_time, root.GetAllocator());

    rapidjson::Value remote_read_time;

    num_str = std::to_string(remote_read_time_us.load());

    remote_read_time.SetString(num_str.c_str(), static_cast<uint>(num_str.length()),

                               root.GetAllocator());

    root.AddMember("compaction remote read time us", remote_read_time, root.GetAllocator());

    // print all rowsets' version as an array

    rapidjson::Document versions_arr;

    rapidjson::Document missing_versions_arr;

    versions_arr.SetArray();

    missing_versions_arr.SetArray();

    int64_t last_version = -1;

    for (auto& rowset : rowsets) {

        const Version& ver = rowset->version();

        if (ver.first != last_version + 1) {

            rapidjson::Value miss_value;

            miss_value.SetString(fmt::format("[{}-{}]", last_version + 1, ver.first - 1).c_str(),

                                 missing_versions_arr.GetAllocator());

            missing_versions_arr.PushBack(miss_value, missing_versions_arr.GetAllocator());

        }

        rapidjson::Value value;

        std::string version_str = rowset->get_rowset_info_str();

        value.SetString(version_str.c_str(), static_cast<uint32_t>(version_str.length()),

                        versions_arr.GetAllocator());

        versions_arr.PushBack(value, versions_arr.GetAllocator());

        last_version = ver.second;

    }

    root.AddMember("rowsets", versions_arr, root.GetAllocator());

    root.AddMember("missing_rowsets", missing_versions_arr, root.GetAllocator());

    // print all stale rowsets' version as an array

    rapidjson::Document stale_versions_arr;

    stale_versions_arr.SetArray();

    for (auto& rowset : stale_rowsets) {

        rapidjson::Value value;

        std::string version_str = rowset->get_rowset_info_str();

        value.SetString(version_str.c_str(), static_cast<uint32_t>(version_str.length()),

                        stale_versions_arr.GetAllocator());

        stale_versions_arr.PushBack(value, stale_versions_arr.GetAllocator());

    }

    root.AddMember("stale_rowsets", stale_versions_arr, root.GetAllocator());

    // add stale version rowsets

    root.AddMember("stale version path", path_arr, root.GetAllocator());

    // to json string

    rapidjson::StringBuffer strbuf;

    rapidjson::PrettyWriter<rapidjson::StringBuffer> writer(strbuf);

    root.Accept(writer);

    *json_result = std::string(strbuf.GetString());

}

void CloudTablet::set_cumulative_layer_point(int64_t new_point) {

    if (new_point == Tablet::K_INVALID_CUMULATIVE_POINT || new_point >= _cumulative_point) {

        _cumulative_point = new_point;

        return;

    }

    // cumulative point should only be reset to -1, or be increased

    // FIXME: could happen in currently unresolved race conditions

    LOG(WARNING) << "Unexpected cumulative point: " << new_point

                 << ", origin: " << _cumulative_point.load();

}

std::vector<RowsetSharedPtr> CloudTablet::pick_candidate_rowsets_to_base_compaction() {

    std::vector<RowsetSharedPtr> candidate_rowsets;

    {

        std::shared_lock rlock(_meta_lock);

        for (const auto& [version, rs] : _rs_version_map) {

            if (version.first != 0 && version.first < _cumulative_point &&

                (_alter_version == -1 || version.second <= _alter_version)) {

                candidate_rowsets.push_back(rs);

            }

        }

    }

    std::sort(candidate_rowsets.begin(), candidate_rowsets.end(), Rowset::comparator);

    return candidate_rowsets;

}

std::vector<RowsetSharedPtr> CloudTablet::pick_candidate_rowsets_to_full_compaction() {

    std::vector<RowsetSharedPtr> candidate_rowsets;

    {

        std::shared_lock rlock(_meta_lock);

        for (auto& [v, rs] : _rs_version_map) {

            // MUST NOT compact rowset [0-1] for some historical reasons (see cloud_schema_change)

            if (v.first != 0) {

                candidate_rowsets.push_back(rs);

            }

        }

    }

    std::sort(candidate_rowsets.begin(), candidate_rowsets.end(), Rowset::comparator);

    return candidate_rowsets;

}

CalcDeleteBitmapExecutor* CloudTablet::calc_delete_bitmap_executor() {

    return _engine.calc_delete_bitmap_executor();

}

Status CloudTablet::save_delete_bitmap(const TabletTxnInfo* txn_info, int64_t txn_id,

                                       DeleteBitmapPtr delete_bitmap, RowsetWriter* rowset_writer,

                                       const RowsetIdUnorderedSet& cur_rowset_ids,

                                       int64_t next_visible_version) {

    RowsetSharedPtr rowset = txn_info->rowset;

    int64_t cur_version = rowset->start_version();

    // update delete bitmap info, in order to avoid recalculation when trying again

    RETURN_IF_ERROR(_engine.txn_delete_bitmap_cache().update_tablet_txn_info(

            txn_id, tablet_id(), delete_bitmap, cur_rowset_ids, PublishStatus::PREPARE));

    if (txn_info->partial_update_info && txn_info->partial_update_info->is_partial_update &&

        rowset_writer->num_rows() > 0) {

        DBUG_EXECUTE_IF("CloudTablet::save_delete_bitmap.update_tmp_rowset.error", {

            return Status::InternalError<false>("injected update_tmp_rowset error.");

        });

        const auto& rowset_meta = rowset->rowset_meta();

        RETURN_IF_ERROR(_engine.meta_mgr().update_tmp_rowset(*rowset_meta));