Coverage Report

Created: 2024-11-21 18:14

/root/doris/be/src/olap/rowset/segcompaction.cpp
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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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#include "segcompaction.h"
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#include <fmt/format.h>
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#include <gen_cpp/olap_file.pb.h>
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#include <limits.h>
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#include <algorithm>
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#include <atomic>
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#include <condition_variable>
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#include <filesystem>
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#include <map>
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#include <memory>
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#include <mutex>
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#include <sstream>
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#include <string>
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#include <utility>
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#include "beta_rowset_writer.h"
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#include "common/compiler_util.h" // IWYU pragma: keep
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#include "common/logging.h"
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#include "gutil/stringprintf.h"
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#include "gutil/strings/substitute.h"
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#include "io/fs/file_system.h"
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#include "io/fs/file_writer.h"
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#include "io/io_common.h"
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#include "olap/data_dir.h"
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#include "olap/iterators.h"
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#include "olap/merger.h"
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#include "olap/olap_common.h"
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#include "olap/olap_define.h"
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#include "olap/rowset/beta_rowset.h"
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#include "olap/rowset/rowset_meta.h"
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#include "olap/rowset/rowset_writer_context.h"
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#include "olap/rowset/segment_v2/inverted_index_cache.h"
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#include "olap/rowset/segment_v2/inverted_index_desc.h"
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#include "olap/rowset/segment_v2/segment.h"
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#include "olap/rowset/segment_v2/segment_writer.h"
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#include "olap/schema.h"
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#include "olap/storage_engine.h"
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#include "olap/tablet_reader.h"
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#include "olap/tablet_schema.h"
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#include "runtime/memory/global_memory_arbitrator.h"
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#include "runtime/thread_context.h"
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#include "util/debug_points.h"
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#include "util/mem_info.h"
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#include "util/time.h"
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#include "vec/olap/vertical_block_reader.h"
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#include "vec/olap/vertical_merge_iterator.h"
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namespace doris {
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using namespace ErrorCode;
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472
SegcompactionWorker::SegcompactionWorker(BetaRowsetWriter* writer) : _writer(writer) {}
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void SegcompactionWorker::init_mem_tracker(const RowsetWriterContext& rowset_writer_context) {
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472
    _seg_compact_mem_tracker = MemTrackerLimiter::create_shared(
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            MemTrackerLimiter::Type::COMPACTION,
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472
            fmt::format("segcompaction-txnID_{}-loadID_{}-tabletID_{}-indexID_{}-"
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                        "partitionID_{}-version_{}",
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                        std::to_string(rowset_writer_context.txn_id),
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                        print_id(rowset_writer_context.load_id),
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                        std::to_string(rowset_writer_context.tablet_id),
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                        std::to_string(rowset_writer_context.index_id),
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                        std::to_string(rowset_writer_context.partition_id),
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                        rowset_writer_context.version.to_string()));
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}
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Status SegcompactionWorker::_get_segcompaction_reader(
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        SegCompactionCandidatesSharedPtr segments, TabletSharedPtr tablet,
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        std::shared_ptr<Schema> schema, OlapReaderStatistics* stat,
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        vectorized::RowSourcesBuffer& row_sources_buf, bool is_key,
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        std::vector<uint32_t>& return_columns,
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22
        std::unique_ptr<vectorized::VerticalBlockReader>* reader) {
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    const auto& ctx = _writer->_context;
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    bool record_rowids = need_convert_delete_bitmap() && is_key;
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    StorageReadOptions read_options;
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    read_options.stats = stat;
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    read_options.use_page_cache = false;
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    read_options.tablet_schema = ctx.tablet_schema;
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    read_options.record_rowids = record_rowids;
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    std::vector<std::unique_ptr<RowwiseIterator>> seg_iterators;
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    std::map<uint32_t, uint32_t> segment_rows;
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    for (auto& seg_ptr : *segments) {
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        std::unique_ptr<RowwiseIterator> iter;
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        auto s = seg_ptr->new_iterator(schema, read_options, &iter);
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        if (!s.ok()) {
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0
            return Status::Error<INIT_FAILED>("failed to create iterator[{}]: {}", seg_ptr->id(),
105
0
                                              s.to_string());
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0
        }
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        seg_iterators.push_back(std::move(iter));
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        segment_rows.emplace(seg_ptr->id(), seg_ptr->num_rows());
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    }
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    if (record_rowids && _rowid_conversion != nullptr) {
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        _rowid_conversion->reset_segment_map(segment_rows);
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    }
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    *reader = std::make_unique<vectorized::VerticalBlockReader>(&row_sources_buf);
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    TabletReader::ReaderParams reader_params;
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    reader_params.is_segcompaction = true;
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    reader_params.segment_iters_ptr = &seg_iterators;
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    // no reader_params.version shouldn't break segcompaction
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    reader_params.tablet_schema = ctx.tablet_schema;
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    reader_params.tablet = tablet;
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    reader_params.return_columns = return_columns;
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    reader_params.is_key_column_group = is_key;
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    reader_params.use_page_cache = false;
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    reader_params.record_rowids = record_rowids;
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    return (*reader)->init(reader_params, nullptr);
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}
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std::unique_ptr<segment_v2::SegmentWriter> SegcompactionWorker::_create_segcompaction_writer(
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        uint32_t begin, uint32_t end) {
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    Status status;
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    std::unique_ptr<segment_v2::SegmentWriter> writer = nullptr;
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    status = _create_segment_writer_for_segcompaction(&writer, begin, end);
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    if (!status.ok() || writer == nullptr) {
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0
        LOG(ERROR) << "failed to create segment writer for begin:" << begin << " end:" << end
136
0
                   << " status:" << status;
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0
        return nullptr;
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    } else {
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        return writer;
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    }
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}
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Status SegcompactionWorker::_delete_original_segments(uint32_t begin, uint32_t end) {
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    DCHECK(_writer->rowset_meta()->is_local());
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    const auto& fs = io::global_local_filesystem();
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    auto ctx = _writer->_context;
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    auto schema = ctx.tablet_schema;
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    for (uint32_t i = begin; i <= end; ++i) {
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        auto seg_path = local_segment_path(ctx.tablet_path, ctx.rowset_id.to_string(), i);
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        // Even if an error is encountered, these files that have not been cleaned up
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        // will be cleaned up by the GC background. So here we only print the error
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        // message when we encounter an error.
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        RETURN_NOT_OK_STATUS_WITH_WARN(fs->delete_file(seg_path),
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                                       strings::Substitute("Failed to delete file=$0", seg_path));
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        if (schema->has_inverted_index() &&
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            schema->get_inverted_index_storage_format() >= InvertedIndexStorageFormatPB::V2) {
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            auto idx_path = InvertedIndexDescriptor::get_index_file_path_v2(
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                    InvertedIndexDescriptor::get_index_file_path_prefix(seg_path));
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            VLOG_DEBUG << "segcompaction index. delete file " << idx_path;
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            RETURN_NOT_OK_STATUS_WITH_WARN(
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                    fs->delete_file(idx_path),
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                    strings::Substitute("Failed to delete file=$0", idx_path));
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        }
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        // Delete inverted index files
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        for (auto&& column : schema->columns()) {
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            if (const auto* index_info = schema->inverted_index(*column); index_info != nullptr) {
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                auto index_id = index_info->index_id();
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                if (schema->get_inverted_index_storage_format() ==
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                    InvertedIndexStorageFormatPB::V1) {
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                    auto idx_path = InvertedIndexDescriptor::get_index_file_path_v1(
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                            InvertedIndexDescriptor::get_index_file_path_prefix(seg_path), index_id,
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                            index_info->get_index_suffix());
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                    VLOG_DEBUG << "segcompaction index. delete file " << idx_path;
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                    RETURN_NOT_OK_STATUS_WITH_WARN(
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                            fs->delete_file(idx_path),
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                            strings::Substitute("Failed to delete file=$0", idx_path));
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0
                }
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                // Erase the origin index file cache
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                auto idx_file_cache_key = InvertedIndexDescriptor::get_index_file_cache_key(
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                        InvertedIndexDescriptor::get_index_file_path_prefix(seg_path), index_id,
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                        index_info->get_index_suffix());
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                RETURN_IF_ERROR(InvertedIndexSearcherCache::instance()->erase(idx_file_cache_key));
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            }
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        }
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    }
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    return Status::OK();
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}
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Status SegcompactionWorker::_check_correctness(OlapReaderStatistics& reader_stat,
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                                               Merger::Statistics& merger_stat, uint32_t begin,
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                                               uint32_t end) {
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    uint64_t raw_rows_read = reader_stat.raw_rows_read; /* total rows read before merge */
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    uint64_t sum_src_row = 0; /* sum of rows in each involved source segments */
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    uint64_t filtered_rows = merger_stat.filtered_rows; /* rows filtered by del conditions */
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    uint64_t output_rows = merger_stat.output_rows;     /* rows after merge */
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    uint64_t merged_rows = merger_stat.merged_rows;     /* dup key merged by unique/agg */
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    {
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        std::lock_guard<std::mutex> lock(_writer->_segid_statistics_map_mutex);
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        for (int i = begin; i <= end; ++i) {
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            sum_src_row += _writer->_segid_statistics_map[i].row_num;
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        }
205
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    }
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    DBUG_EXECUTE_IF("SegcompactionWorker._check_correctness_wrong_sum_src_row", { sum_src_row++; });
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    if (raw_rows_read != sum_src_row) {
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0
        return Status::Error<CHECK_LINES_ERROR>(
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0
                "segcompaction read row num does not match source. expect read row:{}, actual read "
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0
                "row:{}",
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                sum_src_row, raw_rows_read);
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0
    }
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    DBUG_EXECUTE_IF("SegcompactionWorker._check_correctness_wrong_merged_rows", { merged_rows++; });
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    if ((output_rows + merged_rows) != raw_rows_read) {
217
0
        return Status::Error<CHECK_LINES_ERROR>(
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0
                "segcompaction total row num does not match after merge. expect total row:{},  "
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0
                "actual total row:{}, (output_rows:{},merged_rows:{})",
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                raw_rows_read, output_rows + merged_rows, output_rows, merged_rows);
221
0
    }
222
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    DBUG_EXECUTE_IF("SegcompactionWorker._check_correctness_wrong_filtered_rows",
223
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                    { filtered_rows++; });
224
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    if (filtered_rows != 0) {
225
0
        return Status::Error<CHECK_LINES_ERROR>(
226
0
                "segcompaction should not have filtered rows but actual filtered rows:{}",
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0
                filtered_rows);
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0
    }
229
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    return Status::OK();
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}
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Status SegcompactionWorker::_create_segment_writer_for_segcompaction(
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        std::unique_ptr<segment_v2::SegmentWriter>* writer, uint32_t begin, uint32_t end) {
234
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    return _writer->create_segment_writer_for_segcompaction(writer, begin, end);
235
11
}
236
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Status SegcompactionWorker::_do_compact_segments(SegCompactionCandidatesSharedPtr segments) {
238
11
    DCHECK(_seg_compact_mem_tracker != nullptr);
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    SCOPED_SWITCH_THREAD_MEM_TRACKER_LIMITER(_seg_compact_mem_tracker);
240
    /* throttle segcompaction task if memory depleted */
241
11
    if (GlobalMemoryArbitrator::is_exceed_soft_mem_limit(GB_EXCHANGE_BYTE)) {
242
0
        return Status::Error<FETCH_MEMORY_EXCEEDED>("skip segcompaction due to memory shortage");
243
0
    }
244
245
11
    uint32_t begin = (*(segments->begin()))->id();
246
11
    uint32_t end = (*(segments->end() - 1))->id();
247
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    uint64_t begin_time = GetCurrentTimeMicros();
248
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    uint64_t index_size = 0;
249
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    uint64_t total_index_size = 0;
250
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    auto ctx = _writer->_context;
251
252
11
    auto writer = _create_segcompaction_writer(begin, end);
253
11
    if (UNLIKELY(writer == nullptr)) {
254
0
        return Status::Error<SEGCOMPACTION_INIT_WRITER>("failed to get segcompaction writer");
255
0
    }
256
257
11
    DCHECK(ctx.tablet);
258
11
    auto tablet = std::static_pointer_cast<Tablet>(ctx.tablet);
259
11
    if (need_convert_delete_bitmap() && _rowid_conversion == nullptr) {
260
3
        _rowid_conversion = std::make_unique<SimpleRowIdConversion>(_writer->rowset_id());
261
3
    }
262
263
11
    std::vector<std::vector<uint32_t>> column_groups;
264
11
    std::vector<uint32_t> key_group_cluster_key_idxes;
265
11
    Merger::vertical_split_columns(*ctx.tablet_schema, &column_groups,
266
11
                                   &key_group_cluster_key_idxes);
267
11
    vectorized::RowSourcesBuffer row_sources_buf(tablet->tablet_id(), tablet->tablet_path(),
268
11
                                                 ReaderType::READER_SEGMENT_COMPACTION);
269
270
11
    KeyBoundsPB key_bounds;
271
11
    Merger::Statistics key_merger_stats;
272
11
    OlapReaderStatistics key_reader_stats;
273
    /* compact group one by one */
274
33
    for (auto i = 0; i < column_groups.size(); ++i) {
275
22
        VLOG_NOTICE << "row source size: " << row_sources_buf.total_size();
276
22
        bool is_key = (i == 0);
277
22
        std::vector<uint32_t> column_ids = column_groups[i];
278
279
22
        writer->clear();
280
22
        RETURN_IF_ERROR(writer->init(column_ids, is_key));
281
22
        auto schema = std::make_shared<Schema>(ctx.tablet_schema->columns(), column_ids);
282
22
        OlapReaderStatistics reader_stats;
283
22
        std::unique_ptr<vectorized::VerticalBlockReader> reader;
284
22
        auto s = _get_segcompaction_reader(segments, tablet, schema, &reader_stats, row_sources_buf,
285
22
                                           is_key, column_ids, &reader);
286
22
        if (UNLIKELY(reader == nullptr || !s.ok())) {
287
0
            return Status::Error<SEGCOMPACTION_INIT_READER>(
288
0
                    "failed to get segcompaction reader. err: {}", s.to_string());
289
0
        }
290
291
22
        Merger::Statistics merger_stats;
292
22
        RETURN_IF_ERROR(Merger::vertical_compact_one_group(
293
22
                tablet->tablet_id(), ReaderType::READER_SEGMENT_COMPACTION, *ctx.tablet_schema,
294
22
                is_key, column_ids, &row_sources_buf, *reader, *writer, &merger_stats, &index_size,
295
22
                key_bounds, _rowid_conversion.get()));
296
22
        total_index_size += index_size;
297
22
        if (is_key) {
298
11
            RETURN_IF_ERROR(row_sources_buf.flush());
299
11
            key_merger_stats = merger_stats;
300
11
            key_reader_stats = reader_stats;
301
11
        }
302
22
        RETURN_IF_ERROR(row_sources_buf.seek_to_begin());
303
22
    }
304
305
    /* check row num after merge/aggregation */
306
11
    RETURN_NOT_OK_STATUS_WITH_WARN(
307
11
            _check_correctness(key_reader_stats, key_merger_stats, begin, end),
308
11
            "check correctness failed");
309
11
    {
310
11
        std::lock_guard<std::mutex> lock(_writer->_segid_statistics_map_mutex);
311
11
        _writer->_clear_statistics_for_deleting_segments_unsafe(begin, end);
312
11
    }
313
11
    RETURN_IF_ERROR(
314
11
            _writer->flush_segment_writer_for_segcompaction(&writer, total_index_size, key_bounds));
315
316
11
    if (_file_writer != nullptr && _file_writer->state() != io::FileWriter::State::CLOSED) {
317
11
        RETURN_IF_ERROR(_file_writer->close());
318
11
    }
319
320
11
    RETURN_IF_ERROR(_delete_original_segments(begin, end));
321
11
    if (_rowid_conversion != nullptr) {
322
4
        convert_segment_delete_bitmap(ctx.mow_context->delete_bitmap, begin, end,
323
4
                                      _writer->_num_segcompacted);
324
4
    }
325
11
    RETURN_IF_ERROR(_writer->_rename_compacted_segments(begin, end));
326
11
    if (_inverted_index_file_writer != nullptr) {
327
7
        _inverted_index_file_writer.reset();
328
7
    }
329
11
    if (VLOG_DEBUG_IS_ON) {
330
0
        _writer->vlog_buffer.clear();
331
0
        for (const auto& entry : std::filesystem::directory_iterator(ctx.tablet_path)) {
332
0
            fmt::format_to(_writer->vlog_buffer, "[{}]", string(entry.path()));
333
0
        }
334
0
        VLOG_DEBUG << "tablet_id:" << ctx.tablet_id << " rowset_id:" << ctx.rowset_id
335
0
                   << "_segcompacted_point:" << _writer->_segcompacted_point
336
0
                   << " _num_segment:" << _writer->_num_segment
337
0
                   << " _num_segcompacted:" << _writer->_num_segcompacted
338
0
                   << " list directory:" << fmt::to_string(_writer->vlog_buffer);
339
0
    }
340
341
11
    _writer->_segcompacted_point += (end - begin + 1);
342
343
11
    uint64_t elapsed = GetCurrentTimeMicros() - begin_time;
344
11
    LOG(INFO) << "segcompaction completed. tablet_id:" << ctx.tablet_id
345
11
              << " rowset_id:" << ctx.rowset_id << " elapsed time:" << elapsed
346
11
              << "us. update segcompacted_point:" << _writer->_segcompacted_point
347
11
              << " segment num:" << segments->size() << " begin:" << begin << " end:" << end;
348
349
11
    return Status::OK();
350
11
}
351
352
11
void SegcompactionWorker::compact_segments(SegCompactionCandidatesSharedPtr segments) {
353
11
    Status status = Status::OK();
354
11
    if (_is_compacting_state_mutable.exchange(false)) {
355
11
        status = _do_compact_segments(segments);
356
11
    } else {
357
        // note: be aware that _writer maybe released when the task is cancelled
358
0
        LOG(INFO) << "segcompaction worker is cancelled, skipping segcompaction task";
359
0
        return;
360
0
    }
361
11
    if (!status.ok()) {
362
0
        int16_t errcode = status.code();
363
0
        switch (errcode) {
364
0
        case FETCH_MEMORY_EXCEEDED:
365
0
        case SEGCOMPACTION_INIT_READER:
366
0
        case SEGCOMPACTION_INIT_WRITER:
367
0
            LOG(WARNING) << "segcompaction failed, try next time:" << status;
368
0
            break;
369
0
        default:
370
0
            auto ctx = _writer->_context;
371
0
            LOG(WARNING) << "segcompaction fatal, terminating the write job."
372
0
                         << " tablet_id:" << ctx.tablet_id << " rowset_id:" << ctx.rowset_id
373
0
                         << " status:" << status;
374
            // status will be checked by the next trigger of segcompaction or the final wait
375
0
            _writer->_segcompaction_status.store(ErrorCode::INTERNAL_ERROR);
376
0
        }
377
0
    }
378
11
    DCHECK_EQ(_writer->_is_doing_segcompaction, true);
379
11
    {
380
11
        std::lock_guard lk(_writer->_is_doing_segcompaction_lock);
381
11
        _writer->_is_doing_segcompaction = false;
382
11
        _writer->_segcompacting_cond.notify_all();
383
11
    }
384
11
    _is_compacting_state_mutable = true;
385
11
}
386
387
84
bool SegcompactionWorker::need_convert_delete_bitmap() {
388
84
    if (_writer == nullptr) {
389
0
        return false;
390
0
    }
391
84
    auto tablet = _writer->context().tablet;
392
84
    return tablet != nullptr && tablet->keys_type() == KeysType::UNIQUE_KEYS &&
393
84
           tablet->enable_unique_key_merge_on_write() &&
394
84
           tablet->tablet_schema()->has_sequence_col();
395
84
}
396
397
void SegcompactionWorker::convert_segment_delete_bitmap(DeleteBitmapPtr src_delete_bitmap,
398
22
                                                        uint32_t src_seg_id, uint32_t dest_seg_id) {
399
    // lazy init
400
22
    if (nullptr == _converted_delete_bitmap) {
401
1
        _converted_delete_bitmap = std::make_shared<DeleteBitmap>(_writer->context().tablet_id);
402
1
    }
403
22
    auto rowset_id = _writer->context().rowset_id;
404
22
    const auto* seg_map =
405
22
            src_delete_bitmap->get({rowset_id, src_seg_id, DeleteBitmap::TEMP_VERSION_COMMON});
406
22
    if (seg_map != nullptr) {
407
15
        _converted_delete_bitmap->set({rowset_id, dest_seg_id, DeleteBitmap::TEMP_VERSION_COMMON},
408
15
                                      *seg_map);
409
15
    }
410
22
}
411
412
void SegcompactionWorker::convert_segment_delete_bitmap(DeleteBitmapPtr src_delete_bitmap,
413
                                                        uint32_t src_begin, uint32_t src_end,
414
4
                                                        uint32_t dst_seg_id) {
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    // lazy init
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4
    if (nullptr == _converted_delete_bitmap) {
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3
        _converted_delete_bitmap = std::make_shared<DeleteBitmap>(_writer->context().tablet_id);
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3
    }
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4
    auto rowset_id = _writer->context().rowset_id;
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    RowLocation src(rowset_id, 0, 0);
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34
    for (uint32_t seg_id = src_begin; seg_id <= src_end; seg_id++) {
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30
        const auto* seg_map =
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30
                src_delete_bitmap->get({rowset_id, seg_id, DeleteBitmap::TEMP_VERSION_COMMON});
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30
        if (!seg_map) {
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6
            continue;
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6
        }
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24
        src.segment_id = seg_id;
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57.3k
        for (unsigned int row_id : *seg_map) {
429
57.3k
            src.row_id = row_id;
430
57.3k
            auto dst_row_id = _rowid_conversion->get(src);
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57.3k
            if (dst_row_id < 0) {
432
5.24k
                continue;
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5.24k
            }
434
52.1k
            _converted_delete_bitmap->add(
435
52.1k
                    {rowset_id, dst_seg_id, DeleteBitmap::TEMP_VERSION_COMMON}, dst_row_id);
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52.1k
        }
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24
    }
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4
}
439
440
179
bool SegcompactionWorker::cancel() {
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    // return true if the task is canncellable (actual compaction is not started)
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    // return false when the task is not cancellable (it is in the middle of segcompaction)
443
179
    return _is_compacting_state_mutable.exchange(false);
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179
}
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} // namespace doris