// 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 "storage/segment/segment.h"

#include <crc32c/crc32c.h>

#include <gen_cpp/Descriptors_types.h>

#include <gen_cpp/PlanNodes_types.h>

#include <gen_cpp/olap_file.pb.h>

#include <gen_cpp/segment_v2.pb.h>

#include <cstring>

#include <memory>

#include <sstream>

#include <utility>

#include "cloud/config.h"

#include "common/exception.h"

#include "common/logging.h"

#include "common/status.h"

#include "core/column/column.h"

#include "core/data_type/data_type.h"

#include "core/data_type/data_type_factory.hpp"

#include "core/data_type/data_type_nullable.h"

#include "core/data_type/data_type_variant.h"

#include "core/field.h"

#include "core/string_ref.h"

#include "cpp/sync_point.h"

#include "io/cache/block_file_cache.h"

#include "io/cache/block_file_cache_factory.h"

#include "io/cache/cached_remote_file_reader.h"

#include "io/fs/file_reader.h"

#include "io/fs/file_system.h"

#include "io/io_common.h"

#include "runtime/exec_env.h"

#include "runtime/query_context.h"

#include "runtime/runtime_predicate.h"

#include "runtime/runtime_state.h"

#include "storage/index/index_file_reader.h"

#include "storage/index/indexed_column_reader.h"

#include "storage/index/primary_key_index.h"

#include "storage/index/short_key_index.h"

#include "storage/iterator/vgeneric_iterators.h"

#include "storage/iterators.h"

#include "storage/olap_common.h"

#include "storage/predicate/block_column_predicate.h"

#include "storage/predicate/column_predicate.h"

#include "storage/rowset/rowset_reader_context.h"

#include "storage/schema.h"

#include "storage/segment/column_meta_accessor.h"

#include "storage/segment/column_reader.h"

#include "storage/segment/column_reader_cache.h"

#include "storage/segment/empty_segment_iterator.h"

#include "storage/segment/page_io.h"

#include "storage/segment/page_pointer.h"

#include "storage/segment/segment_iterator.h"

#include "storage/segment/segment_writer.h" // k_segment_magic_length

#include "storage/segment/stream_reader.h"

#include "storage/segment/variant/variant_column_reader.h"

#include "storage/tablet/tablet_schema.h"

#include "storage/types.h"

#include "storage/utils.h"

#include "util/coding.h"

#include "util/json/path_in_data.h"

#include "util/slice.h" // Slice

namespace doris::segment_v2 {

#include "common/compile_check_begin.h"

class InvertedIndexIterator;

Status Segment::open(io::FileSystemSPtr fs, const std::string& path, int64_t tablet_id,

                     uint32_t segment_id, RowsetId rowset_id, TabletSchemaSPtr tablet_schema,

                     const io::FileReaderOptions& reader_options, std::shared_ptr<Segment>* output,

                     InvertedIndexFileInfo idx_file_info, OlapReaderStatistics* stats) {

    // Ensure tablet_id is available in reader_options for CachedRemoteFileReader peer read.

    io::FileReaderOptions opts_with_tablet = reader_options;

    opts_with_tablet.tablet_id = tablet_id;

    auto s = _open(fs, path, segment_id, rowset_id, tablet_schema, opts_with_tablet, output,

                   idx_file_info, stats);

    if (s.ok() && output && *output) {

        (*output)->_tablet_id = tablet_id;

    }

    if (!s.ok()) {

        if (!config::is_cloud_mode()) {

            auto res = ExecEnv::get_tablet(tablet_id);

            TabletSharedPtr tablet =

                    res.has_value() ? std::dynamic_pointer_cast<Tablet>(res.value()) : nullptr;

            if (tablet) {

                tablet->report_error(s);

            }

        }

    }

    return s;

}

Status Segment::_open(io::FileSystemSPtr fs, const std::string& path, uint32_t segment_id,

                      RowsetId rowset_id, TabletSchemaSPtr tablet_schema,

                      const io::FileReaderOptions& reader_options, std::shared_ptr<Segment>* output,

                      InvertedIndexFileInfo idx_file_info, OlapReaderStatistics* stats) {

    io::FileReaderSPtr file_reader;

    auto st = fs->open_file(path, &file_reader, &reader_options);

    TEST_INJECTION_POINT_CALLBACK("Segment::open:corruption", &st);

    std::shared_ptr<Segment> segment(

            new Segment(segment_id, rowset_id, std::move(tablet_schema), idx_file_info));

    if (st) {

        segment->_fs = fs;

        segment->_file_reader = std::move(file_reader);

        st = segment->_open(stats);

    }

    // Three-tier retry for CORRUPTION errors when file cache is enabled.

    // This handles CORRUPTION from both open_file() and _parse_footer() (via _open()).

    if (st.is<ErrorCode::CORRUPTION>() &&

        reader_options.cache_type == io::FileCachePolicy::FILE_BLOCK_CACHE) {

        // Tier 1: Clear file cache and retry with cache support (re-downloads from remote).

        LOG(WARNING) << "bad segment file may be read from file cache, try to read remote source "

                        "file directly, file path: "

                     << path << " cache_key: " << file_cache_key_str(path);

        auto file_key = file_cache_key_from_path(path);

        auto* file_cache = io::FileCacheFactory::instance()->get_by_path(file_key);

        file_cache->remove_if_cached(file_key);

        st = fs->open_file(path, &file_reader, &reader_options);

        if (st) {

            segment->_fs = fs;

            segment->_file_reader = std::move(file_reader);

            st = segment->_open(stats);

        }

        TEST_INJECTION_POINT_CALLBACK("Segment::open:corruption1", &st);

        if (st.is<ErrorCode::CORRUPTION>()) { // corrupt again

            // Tier 2: Bypass cache entirely and read directly from remote storage.

            LOG(WARNING) << "failed to try to read remote source file again with cache support,"

                         << " try to read from remote directly, "

                         << " file path: " << path << " cache_key: " << file_cache_key_str(path);

            file_cache = io::FileCacheFactory::instance()->get_by_path(file_key);

            file_cache->remove_if_cached(file_key);

            io::FileReaderOptions opt = reader_options;

            opt.cache_type = io::FileCachePolicy::NO_CACHE; // skip cache

            RETURN_IF_ERROR(fs->open_file(path, &file_reader, &opt));

            segment->_fs = fs;

            segment->_file_reader = std::move(file_reader);

            st = segment->_open(stats);

            if (!st.ok()) {

                // Tier 3: Remote source itself is corrupt.

                LOG(WARNING) << "failed to try to read remote source file directly,"

                             << " file path: " << path

                             << " cache_key: " << file_cache_key_str(path);

            }

        }

    }

    RETURN_IF_ERROR(st);

    DCHECK(segment->_fs != nullptr) << "file system is nullptr after segment open";

    *output = std::move(segment);

    return Status::OK();

}

Segment::Segment(uint32_t segment_id, RowsetId rowset_id, TabletSchemaSPtr tablet_schema,

                 InvertedIndexFileInfo idx_file_info)

        : _segment_id(segment_id),

          _meta_mem_usage(0),

          _rowset_id(rowset_id),

          _tablet_schema(std::move(tablet_schema)),

          _idx_file_info(std::move(idx_file_info)) {}

Segment::~Segment() {

    g_segment_estimate_mem_bytes << -_tracked_meta_mem_usage;

    // if failed, fix `_tracked_meta_mem_usage` accuracy

    DCHECK(_tracked_meta_mem_usage == meta_mem_usage());

}

io::UInt128Wrapper Segment::file_cache_key(std::string_view rowset_id, uint32_t seg_id) {

    return io::BlockFileCache::hash(fmt::format("{}_{}.dat", rowset_id, seg_id));

}

int64_t Segment::get_metadata_size() const {

    std::shared_ptr<SegmentFooterPB> footer_pb_shared = _footer_pb.lock();

    return sizeof(Segment) + (_pk_index_meta ? _pk_index_meta->ByteSizeLong() : 0) +

           (footer_pb_shared ? footer_pb_shared->ByteSizeLong() : 0);

}

void Segment::update_metadata_size() {

    MetadataAdder::update_metadata_size();

    g_segment_estimate_mem_bytes << _meta_mem_usage - _tracked_meta_mem_usage;

    _tracked_meta_mem_usage = _meta_mem_usage;

}

Status Segment::_open(OlapReaderStatistics* stats) {

    std::shared_ptr<SegmentFooterPB> footer_pb_shared;

    RETURN_IF_ERROR(_get_segment_footer(footer_pb_shared, stats));

    _pk_index_meta.reset(

            footer_pb_shared->has_primary_key_index_meta()

                    ? new PrimaryKeyIndexMetaPB(footer_pb_shared->primary_key_index_meta())

                    : nullptr);

    // delete_bitmap_calculator_test.cpp

    // DCHECK(footer.has_short_key_index_page());

    _sk_index_page = footer_pb_shared->short_key_index_page();

    _num_rows = footer_pb_shared->num_rows();

    // An estimated memory usage of a segment

    // Footer is seperated to StoragePageCache so we don't need to add it to _meta_mem_usage

    // _meta_mem_usage += footer_pb_shared->ByteSizeLong();

    if (_pk_index_meta != nullptr) {

        _meta_mem_usage += _pk_index_meta->ByteSizeLong();

    }

    _meta_mem_usage += sizeof(*this);

    _meta_mem_usage += std::min(static_cast<int>(_tablet_schema->num_columns()),

                                config::max_segment_partial_column_cache_size) *

                       config::estimated_mem_per_column_reader;

    // 1024 comes from SegmentWriterOptions

    _meta_mem_usage += (_num_rows + 1023) / 1024 * (36 + 4);

    // 0.01 comes from PrimaryKeyIndexBuilder::init

    _meta_mem_usage += BloomFilter::optimal_bit_num(_num_rows, 0.01) / 8;

    update_metadata_size();

    return Status::OK();

}

Status Segment::_open_index_file_reader() {

    _index_file_reader = std::make_shared<IndexFileReader>(

            _fs,

            std::string {InvertedIndexDescriptor::get_index_file_path_prefix(

                    _file_reader->path().native())},

            _tablet_schema->get_inverted_index_storage_format(), _idx_file_info, _tablet_id);

    return Status::OK();

}

Status Segment::new_iterator(SchemaSPtr schema, const StorageReadOptions& read_options,

                             std::unique_ptr<RowwiseIterator>* iter) {

    if (read_options.runtime_state != nullptr) {

        _be_exec_version = read_options.runtime_state->be_exec_version();

    }

    RETURN_IF_ERROR(_create_column_meta_once(read_options.stats));

    read_options.stats->total_segment_number++;

    // trying to prune the current segment by segment-level zone map

    for (const auto& entry : read_options.col_id_to_predicates) {

        int32_t column_id = entry.first;

        // schema change

        if (_tablet_schema->num_columns() <= column_id) {

            continue;

        }

        const TabletColumn& col = read_options.tablet_schema->column(column_id);

        std::shared_ptr<ColumnReader> reader;

        Status st = get_column_reader(col, &reader, read_options.stats);

        // not found in this segment, skip

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

            continue;

        }

        RETURN_IF_ERROR(st);

        // should be OK

        DCHECK(reader != nullptr);

        if (!reader->has_zone_map()) {

            continue;

        }

        if (read_options.col_id_to_predicates.contains(column_id) &&

            can_apply_predicate_safely(column_id, *schema,

                                       read_options.target_cast_type_for_variants, read_options)) {

            bool matched = true;

            RETURN_IF_ERROR(reader->match_condition(entry.second.get(), &matched));

            if (!matched) {

                // any condition not satisfied, return.

                *iter = std::make_unique<EmptySegmentIterator>(*schema);

                read_options.stats->filtered_segment_number++;

                return Status::OK();

            }

        }

    }

    {

        SCOPED_RAW_TIMER(&read_options.stats->segment_load_index_timer_ns);

        RETURN_IF_ERROR(load_index(read_options.stats));

    }

    if (read_options.delete_condition_predicates->num_of_column_predicate() == 0 &&

        read_options.push_down_agg_type_opt != TPushAggOp::NONE &&

        read_options.push_down_agg_type_opt != TPushAggOp::COUNT_ON_INDEX) {

        iter->reset(new_vstatistics_iterator(this->shared_from_this(), *schema));

    } else {

        *iter = std::make_unique<SegmentIterator>(this->shared_from_this(), schema);

    }

    // TODO: Valid the opt not only in ReaderType::READER_QUERY

    if (read_options.io_ctx.reader_type == ReaderType::READER_QUERY &&

        !read_options.column_predicates.empty()) {

        auto pruned_predicates = read_options.column_predicates;

        auto pruned = false;

        for (auto& it : _column_reader_cache->get_available_readers(false)) {

            const auto uid = it.first;

            const auto column_id = read_options.tablet_schema->field_index(uid);

            bool tmp_pruned = false;

            RETURN_IF_ERROR(it.second->prune_predicates_by_zone_map(pruned_predicates, column_id,

                                                                    &tmp_pruned));

            pruned |= tmp_pruned;

        }

        if (pruned) {

            auto options_with_pruned_predicates = read_options;

            options_with_pruned_predicates.column_predicates = pruned_predicates;

            //because column_predicates is changed, we need to rebuild col_id_to_predicates so that inverted index will not go through it.

            options_with_pruned_predicates.col_id_to_predicates.clear();

            for (auto pred : options_with_pruned_predicates.column_predicates) {

                if (!options_with_pruned_predicates.col_id_to_predicates.contains(

                            pred->column_id())) {

                    options_with_pruned_predicates.col_id_to_predicates.insert(

                            {pred->column_id(), AndBlockColumnPredicate::create_shared()});

                }

                options_with_pruned_predicates.col_id_to_predicates[pred->column_id()]

                        ->add_column_predicate(SingleColumnBlockPredicate::create_unique(pred));

            }

            return iter->get()->init(options_with_pruned_predicates);

        }

    }

    return iter->get()->init(read_options);

}

Status Segment::_write_error_file(size_t file_size, size_t offset, size_t bytes_read, char* data,

                                  io::IOContext& io_ctx) {

    if (!config::enbale_dump_error_file || !doris::config::is_cloud_mode()) {

        return Status::OK();

    }

    std::string file_name = _rowset_id.to_string() + "_" + std::to_string(_segment_id) + ".dat";

    std::string dir_path = io::FileCacheFactory::instance()->get_base_paths()[0] + "/error_file/";

    Status create_st = io::global_local_filesystem()->create_directory(dir_path, true);

    if (!create_st.ok() && !create_st.is<ErrorCode::ALREADY_EXIST>()) {

        LOG(WARNING) << "failed to create error file dir: " << create_st.to_string();

        return create_st;

    }

    size_t dir_size = 0;

    RETURN_IF_ERROR(io::global_local_filesystem()->directory_size(dir_path, &dir_size));

    if (dir_size > config::file_cache_error_log_limit_bytes) {

        LOG(WARNING) << "error file dir size is too large: " << dir_size;

        return Status::OK();

    }

    std::string error_part;

    error_part.resize(bytes_read);

    std::string part_path = dir_path + file_name + ".part_offset_" + std::to_string(offset);

    LOG(WARNING) << "writer error part to " << part_path;

    bool is_part_exist = false;

    RETURN_IF_ERROR(io::global_local_filesystem()->exists(part_path, &is_part_exist));

    if (is_part_exist) {

        LOG(WARNING) << "error part already exists: " << part_path;

    } else {

        std::unique_ptr<io::FileWriter> part_writer;

        RETURN_IF_ERROR(io::global_local_filesystem()->create_file(part_path, &part_writer));

        RETURN_IF_ERROR(part_writer->append(Slice(data, bytes_read)));

        RETURN_IF_ERROR(part_writer->close());

    }

    std::string error_file;

    error_file.resize(file_size);

    auto* cached_reader = dynamic_cast<io::CachedRemoteFileReader*>(_file_reader.get());

    if (cached_reader == nullptr) {

        return Status::InternalError("file reader is not CachedRemoteFileReader");

    }

    size_t error_file_bytes_read = 0;

    RETURN_IF_ERROR(cached_reader->get_remote_reader()->read_at(

            0, Slice(error_file.data(), file_size), &error_file_bytes_read, &io_ctx));

    DCHECK(error_file_bytes_read == file_size);

    //std::string file_path = dir_path + std::to_string(cur_time) + "_" + ss.str();

    std::string file_path = dir_path + file_name;

    LOG(WARNING) << "writer error file to " << file_path;

    bool is_file_exist = false;

    RETURN_IF_ERROR(io::global_local_filesystem()->exists(file_path, &is_file_exist));

    if (is_file_exist) {

        LOG(WARNING) << "error file already exists: " << part_path;

    } else {

        std::unique_ptr<io::FileWriter> writer;

        RETURN_IF_ERROR(io::global_local_filesystem()->create_file(file_path, &writer));

        RETURN_IF_ERROR(writer->append(Slice(error_file.data(), file_size)));

        RETURN_IF_ERROR(writer->close());

    }

    return Status::OK(); // already exists

};

Status Segment::_parse_footer(std::shared_ptr<SegmentFooterPB>& footer,

                              OlapReaderStatistics* stats) {

    // Footer := SegmentFooterPB, FooterPBSize(4), FooterPBChecksum(4), MagicNumber(4)

    auto file_size = _file_reader->size();

    if (file_size < 12) {

        return Status::Corruption("Bad segment file {}: file size {} < 12, cache_key: {}",

                                  _file_reader->path().native(), file_size,

                                  file_cache_key_str(_file_reader->path().native()));

    }

    uint8_t fixed_buf[12];

    size_t bytes_read = 0;

    // TODO(plat1ko): Support session variable `enable_file_cache`

    io::IOContext io_ctx {.is_index_data = true,

                          .file_cache_stats = stats ? &stats->file_cache_stats : nullptr};

    RETURN_IF_ERROR(

            _file_reader->read_at(file_size - 12, Slice(fixed_buf, 12), &bytes_read, &io_ctx));

    DCHECK_EQ(bytes_read, 12);

    TEST_SYNC_POINT_CALLBACK("Segment::parse_footer:magic_number_corruption", fixed_buf);

    TEST_INJECTION_POINT_CALLBACK("Segment::parse_footer:magic_number_corruption_inj", fixed_buf);

    if (memcmp(fixed_buf + 8, k_segment_magic, k_segment_magic_length) != 0) {

        Status st =

                _write_error_file(file_size, file_size - 12, bytes_read, (char*)fixed_buf, io_ctx);

        if (!st.ok()) {

            LOG(WARNING) << "failed to write error file: " << st.to_string();

        }

        return Status::Corruption(

                "Bad segment file {}: file_size: {}, magic number not match, cache_key: {}",

                _file_reader->path().native(), file_size,

                file_cache_key_str(_file_reader->path().native()));

    }

    // read footer PB

    uint32_t footer_length = decode_fixed32_le(fixed_buf);

    if (file_size < 12 + footer_length) {

        Status st =

                _write_error_file(file_size, file_size - 12, bytes_read, (char*)fixed_buf, io_ctx);

        if (!st.ok()) {

            LOG(WARNING) << "failed to write error file: " << st.to_string();

        }

        return Status::Corruption("Bad segment file {}: file size {} < {}, cache_key: {}",

                                  _file_reader->path().native(), file_size, 12 + footer_length,

                                  file_cache_key_str(_file_reader->path().native()));

    }

    std::string footer_buf;

    footer_buf.resize(footer_length);

    RETURN_IF_ERROR(_file_reader->read_at(file_size - 12 - footer_length, footer_buf, &bytes_read,

                                          &io_ctx));

    DCHECK_EQ(bytes_read, footer_length);

    // validate footer PB's checksum

    uint32_t expect_checksum = decode_fixed32_le(fixed_buf + 4);

    uint32_t actual_checksum = crc32c::Crc32c(footer_buf.data(), footer_buf.size());

    if (actual_checksum != expect_checksum) {

        Status st = _write_error_file(file_size, file_size - 12 - footer_length, bytes_read,

                                      footer_buf.data(), io_ctx);

        if (!st.ok()) {

            LOG(WARNING) << "failed to write error file: " << st.to_string();

        }

        return Status::Corruption(

                "Bad segment file {}: file_size = {}, footer checksum not match, actual={} "

                "vs expect={}, cache_key: {}",

                _file_reader->path().native(), file_size, actual_checksum, expect_checksum,

                file_cache_key_str(_file_reader->path().native()));

    }

    // deserialize footer PB

    footer = std::make_shared<SegmentFooterPB>();

    if (!footer->ParseFromString(footer_buf)) {

        Status st = _write_error_file(file_size, file_size - 12 - footer_length, bytes_read,

                                      footer_buf.data(), io_ctx);

        if (!st.ok()) {

            LOG(WARNING) << "failed to write error file: " << st.to_string();

        }

        return Status::Corruption(

                "Bad segment file {}: file_size = {}, failed to parse SegmentFooterPB, "

                "cache_key: ",

                _file_reader->path().native(), file_size,

                file_cache_key_str(_file_reader->path().native()));

    }

    VLOG_DEBUG << fmt::format("Loading segment footer from {} finished",

                              _file_reader->path().native());

    return Status::OK();

}

Status Segment::_load_pk_bloom_filter(OlapReaderStatistics* stats) {

#ifdef BE_TEST

    if (_pk_index_meta == nullptr) {

        // for BE UT "segment_cache_test"

        return _load_pk_bf_once.call([this] {

            _meta_mem_usage += 100;

            update_metadata_size();

            return Status::OK();

        });

    }

#endif

    DCHECK(_tablet_schema->keys_type() == UNIQUE_KEYS);

    DCHECK(_pk_index_meta != nullptr);

    DCHECK(_pk_index_reader != nullptr);

    return _load_pk_bf_once.call([this, stats] {

        RETURN_IF_ERROR(_pk_index_reader->parse_bf(_file_reader, *_pk_index_meta, stats));

        // _meta_mem_usage += _pk_index_reader->get_bf_memory_size();

        return Status::OK();

    });

}

Status Segment::load_pk_index_and_bf(OlapReaderStatistics* index_load_stats) {

    // `DorisCallOnce` may catch exception in calling stack A and re-throw it in

    // a different calling stack B which doesn't have catch block. So we add catch block here

    // to prevent coreudmp

    RETURN_IF_CATCH_EXCEPTION({

        RETURN_IF_ERROR(load_index(index_load_stats));

        RETURN_IF_ERROR(_load_pk_bloom_filter(index_load_stats));

    });

    return Status::OK();

}

Status Segment::load_index(OlapReaderStatistics* stats) {

    return _load_index_once.call([this, stats] {

        if (_tablet_schema->keys_type() == UNIQUE_KEYS && _pk_index_meta != nullptr) {

            _pk_index_reader = std::make_unique<PrimaryKeyIndexReader>();

            RETURN_IF_ERROR(_pk_index_reader->parse_index(_file_reader, *_pk_index_meta, stats));

            // _meta_mem_usage += _pk_index_reader->get_memory_size();

            return Status::OK();

        } else {

            // read and parse short key index page

            OlapReaderStatistics tmp_stats;

            OlapReaderStatistics* stats_ptr = stats != nullptr ? stats : &tmp_stats;

            PageReadOptions opts(io::IOContext {.is_index_data = true,

                                                .file_cache_stats = &stats_ptr->file_cache_stats});

            opts.use_page_cache = true;

            opts.type = INDEX_PAGE;

            opts.file_reader = _file_reader.get();

            opts.page_pointer = PagePointer(_sk_index_page);

            // short key index page uses NO_COMPRESSION for now

            opts.codec = nullptr;

            opts.stats = &tmp_stats;

            Slice body;

            PageFooterPB footer;

            RETURN_IF_ERROR(

                    PageIO::read_and_decompress_page(opts, &_sk_index_handle, &body, &footer));

            DCHECK_EQ(footer.type(), SHORT_KEY_PAGE);

            DCHECK(footer.has_short_key_page_footer());

            // _meta_mem_usage += body.get_size();

            _sk_index_decoder = std::make_unique<ShortKeyIndexDecoder>();

            return _sk_index_decoder->parse(body, footer.short_key_page_footer());

        }

    });

}

Status Segment::healthy_status() {

    try {

        if (_load_index_once.has_called()) {

            RETURN_IF_ERROR(_load_index_once.stored_result());

        }

        if (_load_pk_bf_once.has_called()) {

            RETURN_IF_ERROR(_load_pk_bf_once.stored_result());

        }

        if (_create_column_meta_once_call.has_called()) {

            RETURN_IF_ERROR(_create_column_meta_once_call.stored_result());

        }

        if (_index_file_reader_open.has_called()) {

            RETURN_IF_ERROR(_index_file_reader_open.stored_result());

        }

        // This status is set by running time, for example, if there is something wrong during read segment iterator.

        return _healthy_status.status();

    } catch (const doris::Exception& e) {

        // If there is an exception during load_xxx, should not throw exception directly because

        // the caller may not exception safe.

        return e.to_status();

    } catch (const std::exception& e) {

        // The exception is not thrown by doris code.

        return Status::InternalError("Unexcepted error during load segment: {}", e.what());

    }

}

// Return the storage datatype of related column to field.

DataTypePtr Segment::get_data_type_of(const TabletColumn& column,

                                      const StorageReadOptions& read_options) {

    const PathInDataPtr path = column.path_info_ptr();

    // none variant column

    if (path == nullptr || path->empty()) {

        return DataTypeFactory::instance().create_data_type(column);

    }

    // Path exists, proceed with variant logic.

    PathInData relative_path = path->copy_pop_front();

    int32_t unique_id = column.unique_id() >= 0 ? column.unique_id() : column.parent_unique_id();

    // If this uid does not exist in segment meta, fallback to schema type.

    if (!_column_meta_accessor->has_column_uid(unique_id)) {

        return DataTypeFactory::instance().create_data_type(column);

    }

    std::shared_ptr<ColumnReader> v_reader;

    // Get the parent variant column reader

    OlapReaderStatistics stats;

    // If status is not ok, it will throw exception(data corruption)

    THROW_IF_ERROR(get_column_reader(unique_id, &v_reader, &stats));

    DCHECK(v_reader != nullptr);

    auto* variant_reader = static_cast<VariantColumnReader*>(v_reader.get());

    // Delegate type inference for variant paths to VariantColumnReader.

    DataTypePtr type;

    THROW_IF_ERROR(variant_reader->infer_data_type_for_path(&type, column, read_options,

                                                            _column_reader_cache.get()));

    return type;

}

Status Segment::_create_column_meta_once(OlapReaderStatistics* stats) {

    SCOPED_RAW_TIMER(&stats->segment_create_column_readers_timer_ns);

    return _create_column_meta_once_call.call([&] {

        std::shared_ptr<SegmentFooterPB> footer_pb_shared;

        RETURN_IF_ERROR(_get_segment_footer(footer_pb_shared, stats));

        return _create_column_meta(*footer_pb_shared);

    });

}

Status Segment::_create_column_meta(const SegmentFooterPB& footer) {

    // Initialize column meta accessor which internally maintains uid -> column_ordinal mapping.

    _column_meta_accessor = std::make_unique<ColumnMetaAccessor>();

    RETURN_IF_ERROR(_column_meta_accessor->init(footer, _file_reader));

    _column_reader_cache = std::make_unique<ColumnReaderCache>(

            _column_meta_accessor.get(), _tablet_schema, _file_reader, _num_rows,

            [this](std::shared_ptr<SegmentFooterPB>& footer_pb, OlapReaderStatistics* stats) {

                return _get_segment_footer(footer_pb, stats);

            });

    return Status::OK();

}

Status Segment::new_default_iterator(const TabletColumn& tablet_column,

                                     std::unique_ptr<ColumnIterator>* iter) {

    if (!tablet_column.has_default_value() && !tablet_column.is_nullable()) {

        return Status::InternalError(

                "invalid nonexistent column without default value. column_uid={}, "

                "column_name={}, "

                "column_type={}",

                tablet_column.unique_id(), tablet_column.name(), tablet_column.type());

    }

    auto type_info = get_type_info(&tablet_column);

    std::unique_ptr<DefaultValueColumnIterator> default_value_iter(new DefaultValueColumnIterator(

            tablet_column.has_default_value(), tablet_column.default_value(),

            tablet_column.is_nullable(), std::move(type_info), tablet_column.precision(),

            tablet_column.frac(), tablet_column.length()));

    ColumnIteratorOptions iter_opts;

    RETURN_IF_ERROR(default_value_iter->init(iter_opts));

    *iter = std::move(default_value_iter);

    return Status::OK();

}

// Not use cid anymore, for example original table schema is colA int, then user do following actions

// 1.add column b

// 2. drop column b

// 3. add column c

// in the new schema column c's cid == 2

// but in the old schema column b's cid == 2

// but they are not the same column

Status Segment::new_column_iterator(const TabletColumn& tablet_column,

                                    std::unique_ptr<ColumnIterator>* iter,

                                    const StorageReadOptions* opt,

                                    const std::unordered_map<int32_t, PathToBinaryColumnCacheUPtr>*

                                            variant_sparse_column_cache) {

    if (opt->runtime_state != nullptr) {

        _be_exec_version = opt->runtime_state->be_exec_version();

    }

    RETURN_IF_ERROR(_create_column_meta_once(opt->stats));

    // For compability reason unique_id may less than 0 for variant extracted column

    int32_t unique_id = tablet_column.unique_id() >= 0 ? tablet_column.unique_id()

                                                       : tablet_column.parent_unique_id();

    // If column meta for this uid is not found in this segment, use default iterator.

    if (!_column_meta_accessor->has_column_uid(unique_id)) {

        RETURN_IF_ERROR(new_default_iterator(tablet_column, iter));

        return Status::OK();

    }

    // init iterator by unique id

    std::shared_ptr<ColumnReader> reader;

    RETURN_IF_ERROR(get_column_reader(unique_id, &reader, opt->stats));

    if (reader == nullptr) {

        return Status::InternalError("column reader is nullptr, unique_id={}", unique_id);

    }

    if (reader->get_meta_type() == FieldType::OLAP_FIELD_TYPE_VARIANT) {

        // if sparse_column_cache_ptr is nullptr, means the sparse column cache is not used

        PathToBinaryColumnCache* sparse_column_cache_ptr = nullptr;

        if (variant_sparse_column_cache) {

            auto it = variant_sparse_column_cache->find(unique_id);

            if (it != variant_sparse_column_cache->end()) {

                sparse_column_cache_ptr = it->second.get();

            } else {

                DCHECK(false) << "sparse column cache is not found, unique_id=" << unique_id;

            }

        }

        // use _column_reader_cache to get variant subcolumn(path column) reader

        RETURN_IF_ERROR(assert_cast<VariantColumnReader*>(reader.get())

                                ->new_iterator(iter, &tablet_column, opt,

                                               _column_reader_cache.get(),

                                               sparse_column_cache_ptr));

    } else {

        RETURN_IF_ERROR(reader->new_iterator(iter, &tablet_column, opt));

        if (opt->all_access_paths.contains(unique_id) ||

            opt->predicate_access_paths.contains(unique_id)) {

            const auto& all_access_paths = opt->all_access_paths.contains(unique_id)

                                                   ? opt->all_access_paths.at(unique_id)

                                                   : TColumnAccessPaths {};

            const auto& predicate_access_paths = opt->predicate_access_paths.contains(unique_id)

                                                         ? opt->predicate_access_paths.at(unique_id)

                                                         : TColumnAccessPaths {};

            // set column name to apply access paths.

            (*iter)->set_column_name(tablet_column.name());

            RETURN_IF_ERROR((*iter)->set_access_paths(all_access_paths, predicate_access_paths));

            (*iter)->remove_pruned_sub_iterators();

        }

    }

    if (config::enable_column_type_check && !tablet_column.has_path_info() &&

        !tablet_column.is_agg_state_type() && tablet_column.type() != reader->get_meta_type()) {

        LOG(WARNING) << "different type between schema and column reader,"

                     << " column schema name: " << tablet_column.name()

                     << " column schema type: " << int(tablet_column.type())

                     << " column reader meta type: " << int(reader->get_meta_type());

        return Status::InternalError("different type between schema and column reader");

    }

    return Status::OK();

}

Status Segment::get_column_reader(int32_t col_uid, std::shared_ptr<ColumnReader>* column_reader,

                                  OlapReaderStatistics* stats) {

    RETURN_IF_ERROR(_create_column_meta_once(stats));

    SCOPED_RAW_TIMER(&stats->segment_create_column_readers_timer_ns);

    // The column is not in this segment, return nullptr

    if (!_tablet_schema->has_column_unique_id(col_uid)) {

        *column_reader = nullptr;

        return Status::Error<ErrorCode::NOT_FOUND, false>("column not found in segment, col_uid={}",

                                                          col_uid);

    }

    return _column_reader_cache->get_column_reader(col_uid, column_reader, stats);

}

Status Segment::traverse_column_meta_pbs(const std::function<void(const ColumnMetaPB&)>& visitor) {

    // Ensure column meta accessor and reader cache are initialized once.

    OlapReaderStatistics dummy_stats;

    RETURN_IF_ERROR(_create_column_meta_once(&dummy_stats));

    std::shared_ptr<SegmentFooterPB> footer_pb_shared;

    RETURN_IF_ERROR(_get_segment_footer(footer_pb_shared, &dummy_stats));

    return _column_meta_accessor->traverse_metas(*footer_pb_shared, visitor);

}

Status Segment::get_column_reader(const TabletColumn& col,

                                  std::shared_ptr<ColumnReader>* column_reader,

                                  OlapReaderStatistics* stats) {

    RETURN_IF_ERROR(_create_column_meta_once(stats));

    SCOPED_RAW_TIMER(&stats->segment_create_column_readers_timer_ns);

    int col_uid = col.unique_id() >= 0 ? col.unique_id() : col.parent_unique_id();

    // The column is not in this segment, return nullptr

    if (!_tablet_schema->has_column_unique_id(col_uid)) {

        *column_reader = nullptr;

        return Status::Error<ErrorCode::NOT_FOUND, false>("column not found in segment, col_uid={}",

                                                          col_uid);

    }

    if (col.has_path_info()) {

        PathInData relative_path = col.path_info_ptr()->copy_pop_front();

        return _column_reader_cache->get_path_column_reader(col_uid, relative_path, column_reader,

                                                            stats);

    }

    return _column_reader_cache->get_column_reader(col_uid, column_reader, stats);

}

Status Segment::new_index_iterator(const TabletColumn& tablet_column, const TabletIndex* index_meta,

                                   const StorageReadOptions& read_options,

                                   std::unique_ptr<IndexIterator>* iter) {

    if (read_options.runtime_state != nullptr) {

        _be_exec_version = read_options.runtime_state->be_exec_version();

    }

    RETURN_IF_ERROR(_create_column_meta_once(read_options.stats));

    std::shared_ptr<ColumnReader> reader;

    auto st = get_column_reader(tablet_column, &reader, read_options.stats);

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

        return Status::OK();

    }

    RETURN_IF_ERROR(st);

    DCHECK(reader != nullptr);

    if (index_meta) {

        // call DorisCallOnce.call without check if _index_file_reader is nullptr

        // to avoid data race during parallel method calls

        RETURN_IF_ERROR(_index_file_reader_open.call([&] { return _open_index_file_reader(); }));

        // after DorisCallOnce.call, _index_file_reader is guaranteed to be not nullptr

        RETURN_IF_ERROR(reader->new_index_iterator(_index_file_reader, index_meta, iter));

        return Status::OK();

    }

    return Status::OK();

}

Status Segment::lookup_row_key(const Slice& key, const TabletSchema* latest_schema,

                               bool with_seq_col, bool with_rowid, RowLocation* row_location,

                               OlapReaderStatistics* stats, std::string* encoded_seq_value) {

    RETURN_IF_ERROR(load_pk_index_and_bf(stats));

    bool has_seq_col = latest_schema->has_sequence_col();

    bool has_rowid = !latest_schema->cluster_key_uids().empty();

    size_t seq_col_length = 0;

    if (has_seq_col) {

        seq_col_length = latest_schema->column(latest_schema->sequence_col_idx()).length() + 1;

    }

    size_t rowid_length = has_rowid ? PrimaryKeyIndexReader::ROW_ID_LENGTH : 0;

    Slice key_without_seq =

            Slice(key.get_data(), key.get_size() - (with_seq_col ? seq_col_length : 0) -

                                          (with_rowid ? rowid_length : 0));

    DCHECK(_pk_index_reader != nullptr);

    if (!_pk_index_reader->check_present(key_without_seq)) {

        return Status::Error<ErrorCode::KEY_NOT_FOUND, false>("");

    }

    bool exact_match = false;

    std::unique_ptr<segment_v2::IndexedColumnIterator> index_iterator;

    RETURN_IF_ERROR(_pk_index_reader->new_iterator(&index_iterator, stats));

    auto st = index_iterator->seek_at_or_after(&key_without_seq, &exact_match);

    if (!st.ok() && !st.is<ErrorCode::ENTRY_NOT_FOUND>()) {

        return st;

    }

    if (st.is<ErrorCode::ENTRY_NOT_FOUND>() || (!has_seq_col && !has_rowid && !exact_match)) {

        return Status::Error<ErrorCode::KEY_NOT_FOUND, false>("");

    }

    row_location->row_id = cast_set<uint32_t>(index_iterator->get_current_ordinal());

    row_location->segment_id = _segment_id;

    row_location->rowset_id = _rowset_id;

    size_t num_to_read = 1;

    auto index_type = DataTypeFactory::instance().create_data_type(

            _pk_index_reader->type_info()->type(), 1, 0);

    auto index_column = index_type->create_column();

    size_t num_read = num_to_read;

    RETURN_IF_ERROR(index_iterator->next_batch(&num_read, index_column));

    DCHECK(num_to_read == num_read);

    Slice sought_key = Slice(index_column->get_data_at(0).data, index_column->get_data_at(0).size);

    // user may use "ALTER TABLE tbl ENABLE FEATURE "SEQUENCE_LOAD" WITH ..." to add a hidden sequence column

    // for a merge-on-write table which doesn't have sequence column, so `has_seq_col ==  true` doesn't mean

    // data in segment has sequence column value

    bool segment_has_seq_col = _tablet_schema->has_sequence_col();

    Slice sought_key_without_seq = Slice(

            sought_key.get_data(),

            sought_key.get_size() - (segment_has_seq_col ? seq_col_length : 0) - rowid_length);

    if (has_seq_col) {

        // compare key

        if (key_without_seq.compare(sought_key_without_seq) != 0) {

            return Status::Error<ErrorCode::KEY_NOT_FOUND, false>("");

        }

        if (with_seq_col && segment_has_seq_col) {

            // compare sequence id

            Slice sequence_id =

                    Slice(key.get_data() + key_without_seq.get_size() + 1, seq_col_length - 1);

            Slice previous_sequence_id =

                    Slice(sought_key.get_data() + sought_key_without_seq.get_size() + 1,

                          seq_col_length - 1);

            if (sequence_id.compare(previous_sequence_id) < 0) {

                return Status::Error<ErrorCode::KEY_ALREADY_EXISTS>(

                        "key with higher sequence id exists");

            }

        }

    } else if (has_rowid) {

        Slice sought_key_without_rowid =

                Slice(sought_key.get_data(), sought_key.get_size() - rowid_length);

        // compare key

        if (key_without_seq.compare(sought_key_without_rowid) != 0) {

            return Status::Error<ErrorCode::KEY_NOT_FOUND, false>("");

        }

    }

    // found the key, use rowid in pk index if necessary.

    if (has_rowid) {

        Slice rowid_slice = Slice(sought_key.get_data() + sought_key_without_seq.get_size() +

                                          (segment_has_seq_col ? seq_col_length : 0) + 1,

                                  rowid_length - 1);

        const auto* type_info = get_scalar_type_info<FieldType::OLAP_FIELD_TYPE_UNSIGNED_INT>();

        const auto* rowid_coder = get_key_coder(type_info->type());

        RETURN_IF_ERROR(rowid_coder->decode_ascending(&rowid_slice, rowid_length,

                                                      (uint8_t*)&row_location->row_id));

    }

    if (encoded_seq_value) {

        if (!segment_has_seq_col) {

            *encoded_seq_value = std::string {};

        } else {

            // include marker

            *encoded_seq_value =

                    Slice(sought_key.get_data() + sought_key_without_seq.get_size(), seq_col_length)

                            .to_string();

        }

    }

    return Status::OK();

}

Status Segment::read_key_by_rowid(uint32_t row_id, std::string* key) {

    OlapReaderStatistics* null_stat = nullptr;

    RETURN_IF_ERROR(load_pk_index_and_bf(null_stat));

    std::unique_ptr<segment_v2::IndexedColumnIterator> iter;

    RETURN_IF_ERROR(_pk_index_reader->new_iterator(&iter, null_stat));

    auto index_type = DataTypeFactory::instance().create_data_type(

            _pk_index_reader->type_info()->type(), 1, 0);

    auto index_column = index_type->create_column();

    RETURN_IF_ERROR(iter->seek_to_ordinal(row_id));

    size_t num_read = 1;

    RETURN_IF_ERROR(iter->next_batch(&num_read, index_column));

    CHECK(num_read == 1);

    // trim row id

    if (_tablet_schema->cluster_key_uids().empty()) {

        *key = index_column->get_data_at(0).to_string();

    } else {

        Slice sought_key =

                Slice(index_column->get_data_at(0).data, index_column->get_data_at(0).size);

        Slice sought_key_without_rowid =

                Slice(sought_key.get_data(),

                      sought_key.get_size() - PrimaryKeyIndexReader::ROW_ID_LENGTH);

        *key = sought_key_without_rowid.to_string();

    }

    return Status::OK();

}

Status Segment::seek_and_read_by_rowid(const TabletSchema& schema, SlotDescriptor* slot,

                                       uint32_t row_id, MutableColumnPtr& result,

                                       StorageReadOptions& storage_read_options,

                                       std::unique_ptr<ColumnIterator>& iterator_hint) {

    segment_v2::ColumnIteratorOptions opt {

            .use_page_cache = !config::disable_storage_page_cache,

            .file_reader = file_reader().get(),

            .stats = storage_read_options.stats,

            .io_ctx = io::IOContext {.reader_type = ReaderType::READER_QUERY,

                                     .file_cache_stats =

                                             &storage_read_options.stats->file_cache_stats},

    };

    std::vector<segment_v2::rowid_t> single_row_loc {row_id};

    if (!slot->column_paths().empty()) {

        // here need create column readers to make sure column reader is created before seek_and_read_by_rowid

        // if segment cache miss, column reader will be created to make sure the variant column result not coredump

        RETURN_IF_ERROR(_create_column_meta_once(storage_read_options.stats));

        TabletColumn column = TabletColumn::create_materialized_variant_column(

                schema.column_by_uid(slot->col_unique_id()).name_lower_case(), slot->column_paths(),

                slot->col_unique_id(),

                assert_cast<const DataTypeVariant&>(*remove_nullable(slot->type()))

                        .variant_max_subcolumns_count());

        auto storage_type = get_data_type_of(column, storage_read_options);

        MutableColumnPtr file_storage_column = storage_type->create_column();

        DCHECK(storage_type != nullptr);

        if (iterator_hint == nullptr) {

            RETURN_IF_ERROR(new_column_iterator(column, &iterator_hint, &storage_read_options));

            RETURN_IF_ERROR(iterator_hint->init(opt));

        }

        RETURN_IF_ERROR(

                iterator_hint->read_by_rowids(single_row_loc.data(), 1, file_storage_column));

        ColumnPtr source_ptr;

        // storage may have different type with schema, so we need to cast the column

        RETURN_IF_ERROR(variant_util::cast_column(

                ColumnWithTypeAndName(file_storage_column->get_ptr(), storage_type, column.name()),

                slot->type(), &source_ptr));

        RETURN_IF_CATCH_EXCEPTION(result->insert_range_from(*source_ptr, 0, 1));

    } else {

        int index = (slot->col_unique_id() >= 0) ? schema.field_index(slot->col_unique_id())

                                                 : schema.field_index(slot->col_name());

        if (index < 0) {

            std::stringstream ss;

            ss << "field name is invalid. field=" << slot->col_name()

               << ", field_name_to_index=" << schema.get_all_field_names();

            return Status::InternalError(ss.str());