Coverage Report

Created: 2026-07-13 21:18

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
be/src/storage/rowset/beta_rowset_writer.cpp
Line
Count
Source
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// Licensed to the Apache Software Foundation (ASF) under one
2
// 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
5
// to you under the Apache License, Version 2.0 (the
6
// "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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//
9
//   http://www.apache.org/licenses/LICENSE-2.0
10
//
11
// Unless required by applicable law or agreed to in writing,
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// software distributed under the License is distributed on an
13
// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
14
// 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.
17
18
#include "storage/rowset/beta_rowset_writer.h"
19
20
#include <assert.h>
21
// IWYU pragma: no_include <bthread/errno.h>
22
#include <errno.h> // IWYU pragma: keep
23
#include <fmt/format.h>
24
#include <stdio.h>
25
26
#include <chrono>
27
#include <ctime> // time
28
#include <filesystem>
29
#include <memory>
30
#include <mutex>
31
#include <sstream>
32
#include <string>
33
#include <thread>
34
#include <utility>
35
#include <vector>
36
37
// IWYU pragma: no_include <opentelemetry/common/threadlocal.h>
38
#include "common/cast_set.h"
39
#include "common/compiler_util.h" // IWYU pragma: keep
40
#include "common/config.h"
41
#include "common/logging.h"
42
#include "common/status.h"
43
#include "core/block/block.h"
44
#include "core/column/column.h"
45
#include "core/data_type/data_type_factory.hpp"
46
#include "cpp/sync_point.h"
47
#include "io/fs/file_reader.h"
48
#include "io/fs/file_system.h"
49
#include "io/fs/file_writer.h"
50
#include "runtime/thread_context.h"
51
#include "storage/index/inverted/inverted_index_cache.h"
52
#include "storage/index/inverted/inverted_index_desc.h"
53
#include "storage/olap_define.h"
54
#include "storage/rowset/beta_rowset.h"
55
#include "storage/rowset/rowset_factory.h"
56
#include "storage/rowset/rowset_writer.h"
57
#include "storage/rowset/segcompaction.h"
58
#include "storage/schema_change/schema_change.h"
59
#include "storage/segment/segment.h"
60
#include "storage/segment/segment_writer.h"
61
#include "storage/storage_engine.h"
62
#include "storage/tablet/tablet_schema.h"
63
#include "util/debug_points.h"
64
#include "util/pretty_printer.h"
65
#include "util/slice.h"
66
#include "util/stopwatch.hpp"
67
#include "util/time.h"
68
69
namespace doris {
70
using namespace ErrorCode;
71
72
namespace {
73
74
808
bool is_segment_overlapping(const std::vector<KeyBoundsPB>& segments_encoded_key_bounds) {
75
808
    std::string_view last;
76
1.90k
    for (auto&& segment_encode_key : segments_encoded_key_bounds) {
77
1.90k
        auto&& cur_min = segment_encode_key.min_key();
78
1.90k
        auto&& cur_max = segment_encode_key.max_key();
79
1.90k
        if (cur_min <= last) {
80
261
            return true;
81
261
        }
82
1.64k
        last = cur_max;
83
1.64k
    }
84
547
    return false;
85
808
}
86
87
1.30k
bool copy_key_bounds_with_truncation(const KeyBoundsPB& src, KeyBoundsPB* dst) {
88
1.30k
    DCHECK(dst != nullptr);
89
1.30k
    if (config::random_segments_key_bounds_truncation) {
90
0
        dst->CopyFrom(src);
91
0
        return false;
92
0
    }
93
1.30k
    const int32_t truncation_threshold = config::segments_key_bounds_truncation_threshold;
94
1.30k
    if (truncation_threshold <= 0) {
95
372
        dst->CopyFrom(src);
96
372
        return false;
97
372
    }
98
937
    const size_t truncation_size = cast_set<size_t>(truncation_threshold);
99
100
937
    bool truncated = false;
101
1.87k
    auto copy_key = [&](const std::string& key, std::string* stored_key) {
102
1.87k
        if (key.size() > truncation_size) {
103
1.54k
            stored_key->assign(key.data(), truncation_size);
104
1.54k
            truncated = true;
105
1.54k
            return;
106
1.54k
        }
107
327
        stored_key->assign(key.data(), key.size());
108
327
    };
109
937
    copy_key(src.min_key(), dst->mutable_min_key());
110
937
    copy_key(src.max_key(), dst->mutable_max_key());
111
937
    return truncated;
112
1.30k
}
113
114
SegmentStatistics copy_segment_statistics_with_truncated_key_bounds(const SegmentStatistics& src,
115
1.29k
                                                                    bool& key_bounds_truncated) {
116
1.29k
    SegmentStatistics dst;
117
1.29k
    dst.row_num = src.row_num;
118
1.29k
    dst.data_size = src.data_size;
119
1.29k
    dst.index_size = src.index_size;
120
1.29k
    key_bounds_truncated = copy_key_bounds_with_truncation(src.key_bounds, &dst.key_bounds);
121
1.29k
    return dst;
122
1.29k
}
123
124
void build_rowset_meta_with_spec_field(RowsetMeta& rowset_meta,
125
38
                                       const RowsetMeta& spec_rowset_meta) {
126
38
    rowset_meta.set_num_rows(spec_rowset_meta.num_rows());
127
38
    rowset_meta.set_total_disk_size(spec_rowset_meta.total_disk_size());
128
38
    rowset_meta.set_data_disk_size(spec_rowset_meta.data_disk_size());
129
38
    rowset_meta.set_index_disk_size(spec_rowset_meta.index_disk_size());
130
    // TODO write zonemap to meta
131
38
    rowset_meta.set_empty(spec_rowset_meta.num_rows() == 0);
132
38
    rowset_meta.set_creation_time(time(nullptr));
133
38
    rowset_meta.set_num_segments(spec_rowset_meta.num_segments());
134
38
    rowset_meta.set_segments_overlap(spec_rowset_meta.segments_overlap());
135
38
    rowset_meta.set_rowset_state(spec_rowset_meta.rowset_state());
136
38
    rowset_meta.set_segments_key_bounds_truncated(
137
38
            spec_rowset_meta.is_segments_key_bounds_truncated());
138
38
    rowset_meta.set_db_id(spec_rowset_meta.db_id());
139
38
    rowset_meta.set_table_id(spec_rowset_meta.table_id());
140
38
    std::vector<KeyBoundsPB> segments_key_bounds;
141
38
    spec_rowset_meta.get_segments_key_bounds(&segments_key_bounds);
142
    // Preserve source layout: if source was aggregated (size 1), re-aggregating
143
    // the single entry is a no-op that also keeps the flag consistent.
144
38
    rowset_meta.set_segments_key_bounds(segments_key_bounds,
145
38
                                        spec_rowset_meta.is_segments_key_bounds_aggregated());
146
38
    std::vector<uint32_t> num_segment_rows;
147
38
    spec_rowset_meta.get_num_segment_rows(&num_segment_rows);
148
38
    rowset_meta.set_num_segment_rows(num_segment_rows);
149
38
    if (spec_rowset_meta.has_commit_tso()) {
150
16
        rowset_meta.set_commit_tso(spec_rowset_meta.commit_tso());
151
16
    }
152
38
    if (spec_rowset_meta.is_row_binlog()) {
153
0
        rowset_meta.mark_row_binlog();
154
0
    }
155
38
}
156
157
} // namespace
158
159
1.02k
SegmentFileCollection::~SegmentFileCollection() = default;
160
161
2.50k
Status SegmentFileCollection::add(int seg_id, io::FileWriterPtr&& writer) {
162
2.50k
    std::lock_guard lock(_lock);
163
2.50k
    if (_closed) [[unlikely]] {
164
0
        DCHECK(false) << writer->path();
165
0
        return Status::InternalError("add to closed SegmentFileCollection");
166
0
    }
167
168
2.50k
    _file_writers.emplace(seg_id, std::move(writer));
169
2.50k
    return Status::OK();
170
2.50k
}
171
172
63
io::FileWriter* SegmentFileCollection::get(int seg_id) const {
173
63
    std::lock_guard lock(_lock);
174
63
    if (auto it = _file_writers.find(seg_id); it != _file_writers.end()) {
175
63
        return it->second.get();
176
63
    } else {
177
0
        return nullptr;
178
0
    }
179
63
}
180
181
978
Status SegmentFileCollection::close() {
182
978
    {
183
978
        std::lock_guard lock(_lock);
184
978
        if (_closed) [[unlikely]] {
185
0
            DCHECK(false);
186
0
            return Status::InternalError("double close SegmentFileCollection");
187
0
        }
188
978
        _closed = true;
189
978
    }
190
191
2.49k
    for (auto&& [_, writer] : _file_writers) {
192
2.49k
        DBUG_EXECUTE_IF("SegmentFileCollection.close.wait_dat_closed", {
193
2.49k
            auto before_state = writer->state();
194
2.49k
            for (int i = 0; i < 3000 && writer->state() != io::FileWriter::State::CLOSED; ++i) {
195
2.49k
                std::this_thread::sleep_for(std::chrono::milliseconds(10));
196
2.49k
            }
197
2.49k
            LOG(INFO) << "SegmentFileCollection.close.wait_dat_closed path="
198
2.49k
                      << writer->path().native()
199
2.49k
                      << " before_state=" << static_cast<int>(before_state)
200
2.49k
                      << " after_state=" << static_cast<int>(writer->state());
201
2.49k
        });
202
2.49k
        if (writer->state() != io::FileWriter::State::CLOSED) {
203
2.43k
            RETURN_IF_ERROR(writer->close());
204
2.43k
        }
205
2.49k
        TEST_SYNC_POINT_CALLBACK("SegmentFileCollection::close_file_writer", writer.get());
206
2.49k
    }
207
208
978
    return Status::OK();
209
978
}
210
211
0
Result<std::vector<size_t>> SegmentFileCollection::segments_file_size(int seg_id_offset) {
212
0
    std::lock_guard lock(_lock);
213
0
    if (!_closed) [[unlikely]] {
214
0
        DCHECK(false);
215
0
        return ResultError(Status::InternalError("get segments file size without closed"));
216
0
    }
217
218
0
    Status st;
219
0
    std::vector<size_t> seg_file_size(_file_writers.size(), 0);
220
0
    bool succ = std::all_of(_file_writers.begin(), _file_writers.end(), [&](auto&& it) {
221
0
        auto&& [seg_id, writer] = it;
222
223
0
        int idx = seg_id - seg_id_offset;
224
0
        if (idx >= seg_file_size.size()) [[unlikely]] {
225
0
            auto err_msg = fmt::format(
226
0
                    "invalid seg_id={} num_file_writers={} seg_id_offset={} path={}", seg_id,
227
0
                    seg_file_size.size(), seg_id_offset, writer->path().native());
228
0
            DCHECK(false) << err_msg;
229
0
            st = Status::InternalError(err_msg);
230
0
            return false;
231
0
        }
232
233
0
        auto& fsize = seg_file_size[idx];
234
0
        if (fsize != 0) {
235
            // File size should not been set
236
0
            auto err_msg =
237
0
                    fmt::format("duplicate seg_id={} path={}", seg_id, writer->path().native());
238
0
            DCHECK(false) << err_msg;
239
0
            st = Status::InternalError(err_msg);
240
0
            return false;
241
0
        }
242
243
0
        fsize = writer->bytes_appended();
244
0
        if (fsize <= 0) {
245
0
            auto err_msg =
246
0
                    fmt::format("invalid segment fsize={} path={}", fsize, writer->path().native());
247
0
            DCHECK(false) << err_msg;
248
0
            st = Status::InternalError(err_msg);
249
0
            return false;
250
0
        }
251
252
0
        return true;
253
0
    });
254
255
0
    if (succ) {
256
0
        return seg_file_size;
257
0
    }
258
259
0
    return ResultError(st);
260
0
}
261
262
1.02k
InvertedIndexFileCollection::~InvertedIndexFileCollection() = default;
263
264
321
Status InvertedIndexFileCollection::add(int seg_id, IndexFileWriterPtr&& index_writer) {
265
321
    std::lock_guard lock(_lock);
266
321
    if (_inverted_index_file_writers.find(seg_id) != _inverted_index_file_writers.end())
267
0
            [[unlikely]] {
268
0
        DCHECK(false);
269
0
        return Status::InternalError("The seg_id already exists, seg_id is {}", seg_id);
270
0
    }
271
321
    _inverted_index_file_writers.emplace(seg_id, std::move(index_writer));
272
321
    return Status::OK();
273
321
}
274
275
349
Status InvertedIndexFileCollection::begin_close() {
276
349
    std::lock_guard lock(_lock);
277
349
    for (auto&& [id, writer] : _inverted_index_file_writers) {
278
46
        RETURN_IF_ERROR(writer->begin_close());
279
46
        _total_size += writer->get_index_file_total_size();
280
46
    }
281
282
349
    return Status::OK();
283
349
}
284
285
978
Status InvertedIndexFileCollection::finish_close() {
286
978
    std::lock_guard lock(_lock);
287
978
    for (auto&& [id, writer] : _inverted_index_file_writers) {
288
319
        RETURN_IF_ERROR(writer->finish_close());
289
319
    }
290
978
    return Status::OK();
291
978
}
292
293
Result<std::vector<const InvertedIndexFileInfo*>>
294
160
InvertedIndexFileCollection::inverted_index_file_info(int seg_id_offset) {
295
160
    std::lock_guard lock(_lock);
296
297
160
    Status st;
298
160
    std::vector<const InvertedIndexFileInfo*> idx_file_info(_inverted_index_file_writers.size());
299
160
    bool succ = std::all_of(
300
160
            _inverted_index_file_writers.begin(), _inverted_index_file_writers.end(),
301
270
            [&](auto&& it) {
302
270
                auto&& [seg_id, writer] = it;
303
304
270
                int idx = seg_id - seg_id_offset;
305
270
                if (idx >= idx_file_info.size()) [[unlikely]] {
306
0
                    auto err_msg =
307
0
                            fmt::format("invalid seg_id={} num_file_writers={} seg_id_offset={}",
308
0
                                        seg_id, idx_file_info.size(), seg_id_offset);
309
0
                    DCHECK(false) << err_msg;
310
0
                    st = Status::InternalError(err_msg);
311
0
                    return false;
312
0
                }
313
270
                idx_file_info[idx] = _inverted_index_file_writers[seg_id]->get_index_file_info();
314
270
                return true;
315
270
            });
316
317
160
    if (succ) {
318
160
        return idx_file_info;
319
160
    }
320
321
0
    return ResultError(st);
322
160
}
323
324
BaseBetaRowsetWriter::BaseBetaRowsetWriter()
325
1.02k
        : _num_segment(0),
326
1.02k
          _segment_start_id(0),
327
1.02k
          _num_rows_written(0),
328
1.02k
          _total_data_size(0),
329
1.02k
          _total_index_size(0),
330
1.02k
          _segment_creator(_context, _seg_files, _idx_files) {}
331
332
BetaRowsetWriter::BetaRowsetWriter(StorageEngine& engine)
333
1.02k
        : _engine(engine), _segcompaction_worker(std::make_shared<SegcompactionWorker>(this)) {}
334
335
10
RowBinlogRowsetWriter::RowBinlogRowsetWriter(StorageEngine& engine) : BetaRowsetWriter(engine) {}
336
337
1.02k
BaseBetaRowsetWriter::~BaseBetaRowsetWriter() {
338
1.02k
    if (!_already_built && _rowset_meta->is_local()) {
339
        // abnormal exit, remove all files generated
340
10
        auto& fs = io::global_local_filesystem();
341
12
        for (int i = _segment_start_id; i < _segment_creator.next_segment_id(); ++i) {
342
2
            std::string seg_path =
343
2
                    local_segment_path(_context.tablet_path, _context.rowset_id.to_string(), i);
344
            // Even if an error is encountered, these files that have not been cleaned up
345
            // will be cleaned up by the GC background. So here we only print the error
346
            // message when we encounter an error.
347
2
            WARN_IF_ERROR(fs->delete_file(seg_path),
348
2
                          fmt::format("Failed to delete file={}", seg_path));
349
2
        }
350
10
    }
351
1.02k
    if (_calc_delete_bitmap_token) {
352
9
        _calc_delete_bitmap_token->cancel();
353
9
    }
354
1.02k
}
355
356
1.02k
BetaRowsetWriter::~BetaRowsetWriter() {
357
    /* Note that segcompaction is async and in parallel with load job. So we should handle carefully
358
     * when the job is cancelled. Although it is meaningless to continue segcompaction when the job
359
     * is cancelled, the objects involved in the job should be preserved during segcompaction to
360
     * avoid crashs for memory issues. */
361
1.02k
    WARN_IF_ERROR(_wait_flying_segcompaction(), "segment compaction failed");
362
1.02k
}
363
364
1.02k
Status BaseBetaRowsetWriter::init(const RowsetWriterContext& rowset_writer_context) {
365
1.02k
    _context = rowset_writer_context;
366
1.02k
    DCHECK(_context.tablet_schema != nullptr);
367
1.02k
    _rowset_meta.reset(new RowsetMeta);
368
1.02k
    if (_context.storage_resource) {
369
3
        _rowset_meta->set_remote_storage_resource(*_context.storage_resource);
370
3
    }
371
1.02k
    _rowset_meta->set_rowset_id(_context.rowset_id);
372
1.02k
    _rowset_meta->set_partition_id(_context.partition_id);
373
1.02k
    _rowset_meta->set_tablet_id(_context.tablet_id);
374
1.02k
    _rowset_meta->set_db_id(_context.db_id);
375
1.02k
    _rowset_meta->set_table_id(_context.table_id);
376
1.02k
    _rowset_meta->set_index_id(_context.index_id);
377
1.02k
    _rowset_meta->set_tablet_schema_hash(_context.tablet_schema_hash);
378
1.02k
    _rowset_meta->set_rowset_type(_context.rowset_type);
379
1.02k
    _rowset_meta->set_rowset_state(_context.rowset_state);
380
1.02k
    _rowset_meta->set_segments_overlap(_context.segments_overlap);
381
1.02k
    if (_context.rowset_state == PREPARED || _context.rowset_state == COMMITTED) {
382
36
        _is_pending = true;
383
36
        _rowset_meta->set_txn_id(_context.txn_id);
384
36
        _rowset_meta->set_load_id(_context.load_id);
385
990
    } else {
386
990
        _rowset_meta->set_version(_context.version);
387
990
        _rowset_meta->set_newest_write_timestamp(_context.newest_write_timestamp);
388
990
    }
389
1.02k
    _rowset_meta->set_tablet_uid(_context.tablet_uid);
390
1.02k
    _rowset_meta->set_tablet_schema(_context.tablet_schema);
391
1.02k
    _rowset_meta->set_compaction_level(_context.compaction_level);
392
1.02k
    if (_context.write_binlog_opt().enable) {
393
10
        _rowset_meta->mark_row_binlog();
394
10
    }
395
1.02k
    _context.segment_collector = std::make_shared<SegmentCollectorT<BaseBetaRowsetWriter>>(this);
396
1.02k
    _context.file_writer_creator = std::make_shared<FileWriterCreatorT<BaseBetaRowsetWriter>>(this);
397
1.02k
    return Status::OK();
398
1.02k
}
399
400
1.45k
Status BaseBetaRowsetWriter::add_block(const Block* block) {
401
1.45k
    return _segment_creator.add_block(block);
402
1.45k
}
403
404
63
Status BaseBetaRowsetWriter::_generate_delete_bitmap(int32_t segment_id) {
405
63
    SCOPED_RAW_TIMER(&_delete_bitmap_ns);
406
63
    if (_context.is_transient_rowset_writer ||
407
63
        !_context.tablet->enable_unique_key_merge_on_write() ||
408
63
        (_context.partial_update_info && _context.partial_update_info->is_partial_update())) {
409
0
        return Status::OK();
410
0
    }
411
63
    std::vector<RowsetSharedPtr> specified_rowsets;
412
63
    {
413
63
        std::shared_lock meta_rlock(_context.tablet->get_header_lock());
414
63
        specified_rowsets =
415
63
                _context.tablet->get_rowset_by_ids(_context.mow_context->rowset_ids.get());
416
63
    }
417
418
    // Submit the entire delete bitmap calculation process to thread pool for async execution
419
    // This avoids blocking memtable flush thread while waiting for file upload to complete
420
    // The process includes: file_writer->close(), _build_tmp, load_segments, and calc_delete_bitmap
421
63
    const auto submit_time_us = MonotonicMicros();
422
63
    return _calc_delete_bitmap_token->submit_func([this, segment_id,
423
63
                                                   specified_rowsets = std::move(specified_rowsets),
424
63
                                                   submit_time_us]() -> Status {
425
63
        const auto queue_time_us = MonotonicMicros() - submit_time_us;
426
63
        Status st = Status::OK();
427
        // Step 1: Close file_writer (must be done before load_segments)
428
63
        auto* file_writer = _seg_files.get(segment_id);
429
63
        if (file_writer && file_writer->state() != io::FileWriter::State::CLOSED) {
430
63
            MonotonicStopWatch close_timer;
431
63
            close_timer.start();
432
63
            st = file_writer->close();
433
63
            close_timer.stop();
434
435
63
            auto close_time_ms = close_timer.elapsed_time_milliseconds();
436
63
            if (close_time_ms > 1000) {
437
0
                LOG(INFO) << "file_writer->close() took " << close_time_ms
438
0
                          << "ms for segment_id=" << segment_id
439
0
                          << ", tablet_id=" << _context.tablet_id
440
0
                          << ", rowset_id=" << _context.rowset_id;
441
0
            }
442
63
            if (!st.ok()) {
443
0
                return st;
444
0
            }
445
63
        }
446
447
63
        OlapStopWatch watch;
448
        // Step 2: Build tmp rowset (needs file_writer to be closed)
449
63
        RowsetSharedPtr rowset_ptr;
450
63
        st = _build_tmp(rowset_ptr);
451
63
        if (!st.ok()) {
452
0
            return st;
453
0
        }
454
455
        // Step 3: Load segments (needs file_writer to be closed and rowset to be built)
456
63
        auto* beta_rowset = reinterpret_cast<BetaRowset*>(rowset_ptr.get());
457
63
        std::vector<segment_v2::SegmentSharedPtr> segments;
458
63
        st = beta_rowset->load_segments(segment_id, segment_id + 1, &segments);
459
63
        if (!st.ok()) {
460
0
            return st;
461
0
        }
462
463
        // Step 4: Calculate delete bitmap
464
63
        st = BaseTablet::calc_delete_bitmap(_context.tablet, rowset_ptr, segments,
465
63
                                            specified_rowsets, _context.mow_context->delete_bitmap,
466
63
                                            _context.mow_context->max_version, nullptr, nullptr,
467
63
                                            nullptr);
468
63
        if (!st.ok()) {
469
0
            return st;
470
0
        }
471
472
63
        size_t total_rows = std::accumulate(segments.begin(), segments.end(), 0,
473
63
                                            [](size_t sum, const segment_v2::SegmentSharedPtr& s) {
474
63
                                                return sum += s->num_rows();
475
63
                                            });
476
63
        LOG(INFO) << "[Memtable Flush] construct delete bitmap tablet: "
477
63
                  << _context.tablet->tablet_id()
478
63
                  << ", rowset_ids: " << _context.mow_context->rowset_ids->size()
479
63
                  << ", cur max_version: " << _context.mow_context->max_version
480
63
                  << ", transaction_id: " << _context.mow_context->txn_id
481
63
                  << ", delete_bitmap_count: "
482
63
                  << _context.mow_context->delete_bitmap->get_delete_bitmap_count()
483
63
                  << ", delete_bitmap_cardinality: "
484
63
                  << _context.mow_context->delete_bitmap->cardinality()
485
63
                  << ", queue_time_us: " << queue_time_us
486
63
                  << ", cost: " << watch.get_elapse_time_us() << "(us), total rows: " << total_rows;
487
63
        return Status::OK();
488
63
    });
489
63
}
490
491
1.02k
Status BetaRowsetWriter::init(const RowsetWriterContext& rowset_writer_context) {
492
1.02k
    RETURN_IF_ERROR(BaseBetaRowsetWriter::init(rowset_writer_context));
493
1.02k
    if (_segcompaction_worker) {
494
1.02k
        _segcompaction_worker->init_mem_tracker(rowset_writer_context);
495
1.02k
    }
496
1.02k
    if (_context.mow_context != nullptr) {
497
9
        _calc_delete_bitmap_token = _engine.calc_delete_bitmap_executor_for_load()->create_token();
498
9
    }
499
1.02k
    return Status::OK();
500
1.02k
}
501
502
Status BetaRowsetWriter::_load_noncompacted_segment(segment_v2::SegmentSharedPtr& segment,
503
77
                                                    int32_t segment_id) {
504
77
    DCHECK(_rowset_meta->is_local());
505
77
    auto fs = _rowset_meta->fs();
506
77
    if (!fs) {
507
0
        return Status::Error<INIT_FAILED>(
508
0
                "BetaRowsetWriter::_load_noncompacted_segment _rowset_meta->fs get failed");
509
0
    }
510
77
    auto path =
511
77
            local_segment_path(_context.tablet_path, _context.rowset_id.to_string(), segment_id);
512
77
    io::FileReaderOptions reader_options {
513
77
            .cache_type =
514
77
                    _context.write_file_cache
515
77
                            ? (config::enable_file_cache ? io::FileCachePolicy::FILE_BLOCK_CACHE
516
0
                                                         : io::FileCachePolicy::NO_CACHE)
517
77
                            : io::FileCachePolicy::NO_CACHE,
518
77
            .is_doris_table = true,
519
77
            .cache_base_path {},
520
77
            .tablet_id = _rowset_meta->tablet_id(),
521
77
            .storage_resource_id = _rowset_meta->resource_id(),
522
77
    };
523
77
    auto s = segment_v2::Segment::open(fs, path, _rowset_meta->tablet_id(), segment_id, rowset_id(),
524
77
                                       _context.tablet_schema, reader_options, &segment);
525
77
    if (!s.ok()) {
526
0
        LOG(WARNING) << "failed to open segment. " << path << ":" << s;
527
0
        return s;
528
0
    }
529
77
    return Status::OK();
530
77
}
531
532
/* policy of segcompaction target selection:
533
 *  1. skip big segments
534
 *  2. if the consecutive smalls end up with a big, compact the smalls, except
535
 *     single small
536
 *  3. if the consecutive smalls end up with small, compact the smalls if the
537
 *     length is beyond (config::segcompaction_batch_size / 2)
538
 */
539
Status BetaRowsetWriter::_find_longest_consecutive_small_segment(
540
15
        SegCompactionCandidatesSharedPtr& segments) {
541
15
    segments = std::make_shared<SegCompactionCandidates>();
542
    // skip last (maybe active) segment
543
15
    int32_t last_segment = _num_segment - 1;
544
15
    size_t task_bytes = 0;
545
15
    uint32_t task_rows = 0;
546
15
    int32_t segid;
547
15
    for (segid = _segcompacted_point;
548
86
         segid < last_segment && segments->size() < config::segcompaction_batch_size; segid++) {
549
77
        segment_v2::SegmentSharedPtr segment;
550
77
        RETURN_IF_ERROR(_load_noncompacted_segment(segment, segid));
551
77
        const auto segment_rows = segment->num_rows();
552
77
        const auto segment_bytes = segment->file_reader()->size();
553
77
        bool is_large_segment = segment_rows > config::segcompaction_candidate_max_rows ||
554
77
                                segment_bytes > config::segcompaction_candidate_max_bytes;
555
77
        if (is_large_segment) {
556
14
            if (segid == _segcompacted_point) {
557
                // skip large segments at the front
558
8
                auto dst_seg_id = _num_segcompacted.load();
559
8
                RETURN_IF_ERROR(_rename_compacted_segment_plain(_segcompacted_point++));
560
8
                if (_segcompaction_worker->need_convert_delete_bitmap()) {
561
4
                    _segcompaction_worker->convert_segment_delete_bitmap(
562
4
                            _context.mow_context->delete_bitmap, segid, dst_seg_id);
563
4
                }
564
8
                continue;
565
8
            } else {
566
                // stop because we need consecutive segments
567
6
                break;
568
6
            }
569
14
        }
570
63
        bool is_task_full = task_rows + segment_rows > config::segcompaction_task_max_rows ||
571
63
                            task_bytes + segment_bytes > config::segcompaction_task_max_bytes;
572
63
        if (is_task_full) {
573
0
            break;
574
0
        }
575
63
        segments->push_back(segment);
576
63
        task_rows += segment->num_rows();
577
63
        task_bytes += segment->file_reader()->size();
578
63
    }
579
15
    size_t s = segments->size();
580
15
    if (segid == last_segment && s <= (config::segcompaction_batch_size / 2)) {
581
        // we didn't collect enough segments, better to do it in next
582
        // round to compact more at once
583
0
        segments->clear();
584
0
        return Status::OK();
585
0
    }
586
15
    if (s == 1) { // poor bachelor, let it go
587
4
        VLOG_DEBUG << "only one candidate segment";
588
4
        auto src_seg_id = _segcompacted_point.load();
589
4
        auto dst_seg_id = _num_segcompacted.load();
590
4
        RETURN_IF_ERROR(_rename_compacted_segment_plain(_segcompacted_point++));
591
4
        if (_segcompaction_worker->need_convert_delete_bitmap()) {
592
2
            _segcompaction_worker->convert_segment_delete_bitmap(
593
2
                    _context.mow_context->delete_bitmap, src_seg_id, dst_seg_id);
594
2
        }
595
4
        segments->clear();
596
4
        return Status::OK();
597
4
    }
598
11
    if (VLOG_DEBUG_IS_ON) {
599
0
        vlog_buffer.clear();
600
0
        for (auto& segment : (*segments.get())) {
601
0
            fmt::format_to(vlog_buffer, "[id:{} num_rows:{}]", segment->id(), segment->num_rows());
602
0
        }
603
0
        VLOG_DEBUG << "candidate segments num:" << s
604
0
                   << " list of candidates:" << fmt::to_string(vlog_buffer);
605
0
    }
606
11
    return Status::OK();
607
15
}
608
609
11
Status BetaRowsetWriter::_rename_compacted_segments(int64_t begin, int64_t end) {
610
11
    int ret;
611
11
    auto src_seg_path = BetaRowset::local_segment_path_segcompacted(_context.tablet_path,
612
11
                                                                    _context.rowset_id, begin, end);
613
11
    auto dst_seg_path = local_segment_path(_context.tablet_path, _context.rowset_id.to_string(),
614
11
                                           _num_segcompacted);
615
11
    ret = rename(src_seg_path.c_str(), dst_seg_path.c_str());
616
11
    if (ret) {
617
0
        return Status::Error<ROWSET_RENAME_FILE_FAILED>(
618
0
                "failed to rename {} to {}. ret:{}, errno:{}", src_seg_path, dst_seg_path, ret,
619
0
                errno);
620
0
    }
621
11
    RETURN_IF_ERROR(_remove_segment_footer_cache(_num_segcompacted, dst_seg_path));
622
623
    // rename inverted index files
624
11
    RETURN_IF_ERROR(_rename_compacted_indices(begin, end, 0));
625
626
11
    _num_segcompacted++;
627
11
    return Status::OK();
628
11
}
629
630
void BetaRowsetWriter::_clear_statistics_for_deleting_segments_unsafe(uint32_t begin,
631
43
                                                                      uint32_t end) {
632
43
    VLOG_DEBUG << "_segid_statistics_map clear record segid range from:" << begin << " to:" << end;
633
134
    for (uint32_t i = begin; i <= end; ++i) {
634
91
        _segid_statistics_map.erase(i);
635
91
    }
636
43
}
637
638
42
Status BetaRowsetWriter::_rename_compacted_segment_plain(uint32_t seg_id) {
639
42
    if (seg_id == _num_segcompacted) {
640
10
        ++_num_segcompacted;
641
10
        return Status::OK();
642
10
    }
643
644
32
    auto src_seg_path =
645
32
            local_segment_path(_context.tablet_path, _context.rowset_id.to_string(), seg_id);
646
32
    auto dst_seg_path = local_segment_path(_context.tablet_path, _context.rowset_id.to_string(),
647
32
                                           _num_segcompacted);
648
32
    VLOG_DEBUG << "segcompaction skip this segment. rename " << src_seg_path << " to "
649
0
               << dst_seg_path;
650
32
    {
651
32
        std::lock_guard<std::mutex> lock(_segid_statistics_map_mutex);
652
32
        DCHECK_EQ(_segid_statistics_map.find(seg_id) == _segid_statistics_map.end(), false);
653
32
        DCHECK_EQ(_segid_statistics_map.find(_num_segcompacted) == _segid_statistics_map.end(),
654
32
                  true);
655
32
        auto org = _segid_statistics_map[seg_id];
656
32
        _segid_statistics_map.emplace(_num_segcompacted, org);
657
32
        _clear_statistics_for_deleting_segments_unsafe(seg_id, seg_id);
658
32
    }
659
32
    int ret = rename(src_seg_path.c_str(), dst_seg_path.c_str());
660
32
    if (ret) {
661
0
        return Status::Error<ROWSET_RENAME_FILE_FAILED>(
662
0
                "failed to rename {} to {}. ret:{}, errno:{}", src_seg_path, dst_seg_path, ret,
663
0
                errno);
664
0
    }
665
666
32
    RETURN_IF_ERROR(_remove_segment_footer_cache(_num_segcompacted, dst_seg_path));
667
    // rename remaining inverted index files
668
32
    RETURN_IF_ERROR(_rename_compacted_indices(-1, -1, seg_id));
669
670
32
    ++_num_segcompacted;
671
32
    return Status::OK();
672
32
}
673
674
Status BetaRowsetWriter::_remove_segment_footer_cache(const uint32_t seg_id,
675
43
                                                      const std::string& segment_path) {
676
43
    auto* footer_page_cache = ExecEnv::GetInstance()->get_storage_page_cache();
677
43
    if (!footer_page_cache) {
678
0
        return Status::OK();
679
0
    }
680
681
43
    auto fs = _rowset_meta->fs();
682
43
    bool exists = false;
683
43
    RETURN_IF_ERROR(fs->exists(segment_path, &exists));
684
43
    if (exists) {
685
43
        io::FileReaderSPtr file_reader;
686
43
        io::FileReaderOptions reader_options {
687
43
                .cache_type = config::enable_file_cache ? io::FileCachePolicy::FILE_BLOCK_CACHE
688
43
                                                        : io::FileCachePolicy::NO_CACHE,
689
43
                .is_doris_table = true,
690
43
                .cache_base_path = "",
691
43
                .file_size = _rowset_meta->segment_file_size(static_cast<int>(seg_id)),
692
43
                .tablet_id = _rowset_meta->tablet_id(),
693
43
                .storage_resource_id = _rowset_meta->resource_id(),
694
43
        };
695
43
        RETURN_IF_ERROR(fs->open_file(segment_path, &file_reader, &reader_options));
696
43
        DCHECK(file_reader != nullptr);
697
43
        auto cache_key = segment_v2::Segment::get_segment_footer_cache_key(file_reader);
698
43
        footer_page_cache->erase(cache_key, segment_v2::PageTypePB::INDEX_PAGE);
699
43
    }
700
43
    return Status::OK();
701
43
}
702
703
43
Status BetaRowsetWriter::_rename_compacted_indices(int64_t begin, int64_t end, uint64_t seg_id) {
704
43
    int ret;
705
706
43
    auto src_seg_path = begin < 0 ? local_segment_path(_context.tablet_path,
707
32
                                                       _context.rowset_id.to_string(), seg_id)
708
43
                                  : BetaRowset::local_segment_path_segcompacted(
709
11
                                            _context.tablet_path, _context.rowset_id, begin, end);
710
43
    auto src_index_path_prefix = InvertedIndexDescriptor::get_index_file_path_prefix(src_seg_path);
711
43
    auto dst_seg_path = local_segment_path(_context.tablet_path, _context.rowset_id.to_string(),
712
43
                                           _num_segcompacted);
713
43
    auto dst_index_path_prefix = InvertedIndexDescriptor::get_index_file_path_prefix(dst_seg_path);
714
715
43
    if (_context.tablet_schema->get_inverted_index_storage_format() >=
716
43
        InvertedIndexStorageFormatPB::V2) {
717
22
        if (_context.tablet_schema->has_inverted_index() ||
718
22
            _context.tablet_schema->has_ann_index()) {
719
22
            auto src_idx_path =
720
22
                    InvertedIndexDescriptor::get_index_file_path_v2(src_index_path_prefix);
721
22
            auto dst_idx_path =
722
22
                    InvertedIndexDescriptor::get_index_file_path_v2(dst_index_path_prefix);
723
724
22
            ret = rename(src_idx_path.c_str(), dst_idx_path.c_str());
725
22
            if (ret) {
726
0
                return Status::Error<ROWSET_RENAME_FILE_FAILED>(
727
0
                        "failed to rename {} to {}. ret:{}, errno:{}", src_idx_path, dst_idx_path,
728
0
                        ret, errno);
729
0
            }
730
22
        }
731
22
    }
732
    // rename remaining inverted index files
733
150
    for (auto column : _context.tablet_schema->columns()) {
734
150
        auto index_infos = _context.tablet_schema->inverted_indexs(*column);
735
150
        for (const auto& index_info : index_infos) {
736
44
            auto index_id = index_info->index_id();
737
44
            if (_context.tablet_schema->get_inverted_index_storage_format() ==
738
44
                InvertedIndexStorageFormatPB::V1) {
739
0
                auto src_idx_path = InvertedIndexDescriptor::get_index_file_path_v1(
740
0
                        src_index_path_prefix, index_id, index_info->get_index_suffix());
741
0
                auto dst_idx_path = InvertedIndexDescriptor::get_index_file_path_v1(
742
0
                        dst_index_path_prefix, index_id, index_info->get_index_suffix());
743
0
                VLOG_DEBUG << "segcompaction skip this index. rename " << src_idx_path << " to "
744
0
                           << dst_idx_path;
745
0
                ret = rename(src_idx_path.c_str(), dst_idx_path.c_str());
746
0
                if (ret) {
747
0
                    return Status::Error<INVERTED_INDEX_RENAME_FILE_FAILED>(
748
0
                            "failed to rename {} to {}. ret:{}, errno:{}", src_idx_path,
749
0
                            dst_idx_path, ret, errno);
750
0
                }
751
0
            }
752
            // Erase the origin index file cache
753
44
            auto src_idx_cache_key = InvertedIndexDescriptor::get_index_file_cache_key(
754
44
                    src_index_path_prefix, index_id, index_info->get_index_suffix());
755
44
            auto dst_idx_cache_key = InvertedIndexDescriptor::get_index_file_cache_key(
756
44
                    dst_index_path_prefix, index_id, index_info->get_index_suffix());
757
44
            RETURN_IF_ERROR(InvertedIndexSearcherCache::instance()->erase(src_idx_cache_key));
758
44
            RETURN_IF_ERROR(InvertedIndexSearcherCache::instance()->erase(dst_idx_cache_key));
759
44
        }
760
150
    }
761
43
    return Status::OK();
762
43
}
763
764
1.29k
Status BetaRowsetWriter::_segcompaction_if_necessary() {
765
1.29k
    Status status = Status::OK();
766
    // if not doing segcompaction, just check segment number
767
1.29k
    if (!config::enable_segcompaction || !_context.enable_segcompaction ||
768
1.29k
        _context.tablet_schema->num_variant_columns() > 0) {
769
1.17k
        return _check_segment_number_limit(_num_segment);
770
1.17k
    }
771
    // leave _is_doing_segcompaction as the last condition
772
    // otherwise _segcompacting_cond will never get notified
773
121
    if (_is_doing_segcompaction.exchange(true)) {
774
0
        return status;
775
0
    }
776
121
    if (_segcompaction_status.load() != OK) {
777
0
        status = Status::Error<SEGCOMPACTION_FAILED>(
778
0
                "BetaRowsetWriter::_segcompaction_if_necessary meet invalid state, error code: {}",
779
0
                _segcompaction_status.load());
780
121
    } else {
781
121
        status = _check_segment_number_limit(_num_segcompacted);
782
121
    }
783
121
    if (status.ok() && (_num_segment - _segcompacted_point) >= config::segcompaction_batch_size) {
784
15
        SegCompactionCandidatesSharedPtr segments;
785
15
        status = _find_longest_consecutive_small_segment(segments);
786
15
        if (LIKELY(status.ok()) && (!segments->empty())) {
787
11
            LOG(INFO) << "submit segcompaction task, tablet_id:" << _context.tablet_id
788
11
                      << " rowset_id:" << _context.rowset_id << " segment num:" << _num_segment
789
11
                      << ", segcompacted_point:" << _segcompacted_point;
790
11
            status = _engine.submit_seg_compaction_task(_segcompaction_worker, segments);
791
11
            if (status.ok()) {
792
11
                return status;
793
11
            }
794
11
        }
795
15
    }
796
110
    {
797
110
        std::lock_guard lk(_is_doing_segcompaction_lock);
798
110
        _is_doing_segcompaction = false;
799
110
        _segcompacting_cond.notify_all();
800
110
    }
801
110
    return status;
802
121
}
803
804
629
Status BetaRowsetWriter::_segcompaction_rename_last_segments() {
805
629
    DCHECK_EQ(_is_doing_segcompaction, false);
806
629
    if (!config::enable_segcompaction) {
807
144
        return Status::OK();
808
144
    }
809
485
    if (_segcompaction_status.load() != OK) {
810
0
        return Status::Error<SEGCOMPACTION_FAILED>(
811
0
                "BetaRowsetWriter::_segcompaction_rename_last_segments meet invalid state, error "
812
0
                "code: {}",
813
0
                _segcompaction_status.load());
814
0
    }
815
485
    if (!is_segcompacted() || _segcompacted_point == _num_segment) {
816
        // no need if never segcompact before or all segcompacted
817
476
        return Status::OK();
818
476
    }
819
    // currently we only rename remaining segments to reduce wait time
820
    // so that transaction can be committed ASAP
821
9
    VLOG_DEBUG << "segcompaction last few segments";
822
39
    for (int32_t segid = _segcompacted_point; segid < _num_segment; segid++) {
823
30
        auto dst_segid = _num_segcompacted.load();
824
30
        RETURN_IF_ERROR(_rename_compacted_segment_plain(_segcompacted_point++));
825
30
        if (_segcompaction_worker->need_convert_delete_bitmap()) {
826
16
            _segcompaction_worker->convert_segment_delete_bitmap(
827
16
                    _context.mow_context->delete_bitmap, segid, dst_segid);
828
16
        }
829
30
    }
830
9
    return Status::OK();
831
9
}
832
833
10
Status BaseBetaRowsetWriter::add_rowset(RowsetSharedPtr rowset) {
834
10
    assert(rowset->rowset_meta()->rowset_type() == BETA_ROWSET);
835
10
    RETURN_IF_ERROR(rowset->link_files_to(_context.tablet_path, _context.rowset_id));
836
10
    _num_rows_written += rowset->num_rows();
837
10
    const auto& rowset_meta = rowset->rowset_meta();
838
10
    auto index_size = rowset_meta->index_disk_size();
839
10
    auto total_size = rowset_meta->total_disk_size();
840
10
    auto data_size = rowset_meta->data_disk_size();
841
    // corrupted index size caused by bug before 2.1.5 or 3.0.0 version
842
    // try to get real index size from disk.
843
10
    if (index_size < 0 || index_size > total_size * 2) {
844
0
        LOG(ERROR) << "invalid index size:" << index_size << " total size:" << total_size
845
0
                   << " data size:" << data_size << " tablet:" << rowset_meta->tablet_id()
846
0
                   << " rowset:" << rowset_meta->rowset_id();
847
0
        index_size = 0;
848
0
        auto st = rowset->get_inverted_index_size(&index_size);
849
0
        if (!st.ok()) {
850
0
            if (!st.is<NOT_FOUND>()) {
851
0
                LOG(ERROR) << "failed to get inverted index size. res=" << st;
852
0
                return st;
853
0
            }
854
0
        }
855
0
    }
856
10
    _total_data_size += data_size;
857
10
    _total_index_size += index_size;
858
10
    _num_segment += cast_set<int32_t>(rowset->num_segments());
859
    // append key_bounds to current rowset
860
10
    RETURN_IF_ERROR(rowset->get_segments_key_bounds(&_segments_encoded_key_bounds));
861
10
    rowset->get_num_segment_rows(&_segment_num_rows);
862
10
    _segments_key_bounds_truncated = rowset->rowset_meta()->is_segments_key_bounds_truncated();
863
864
    // TODO update zonemap
865
10
    if (rowset->rowset_meta()->has_delete_predicate()) {
866
0
        _rowset_meta->set_delete_predicate(rowset->rowset_meta()->delete_predicate());
867
0
    }
868
    // Update the tablet schema in the rowset metadata if the tablet schema contains a variant.
869
    // During the build process, _context.tablet_schema will be used as the rowset schema.
870
    // This situation may arise in the event of a linked schema change. If this schema is not set,
871
    // the subcolumns of the variant will be lost.
872
10
    if (_context.tablet_schema->num_variant_columns() > 0 && rowset->tablet_schema() != nullptr) {
873
0
        _context.tablet_schema = rowset->tablet_schema();
874
0
    }
875
10
    return Status::OK();
876
10
}
877
878
0
Status BaseBetaRowsetWriter::add_rowset_for_linked_schema_change(RowsetSharedPtr rowset) {
879
    // TODO use schema_mapping to transfer zonemap
880
0
    return add_rowset(rowset);
881
0
}
882
883
1.13k
Status BaseBetaRowsetWriter::flush() {
884
1.13k
    return _segment_creator.flush();
885
1.13k
}
886
887
12
Status BaseBetaRowsetWriter::flush_memtable(Block* block, int32_t segment_id, int64_t* flush_size) {
888
12
    if (block->rows() == 0) {
889
0
        return Status::OK();
890
0
    }
891
892
12
    {
893
12
        SCOPED_RAW_TIMER(&_segment_writer_ns);
894
12
        RETURN_IF_ERROR(_segment_creator.flush_single_block(block, segment_id, flush_size));
895
12
    }
896
12
    return Status::OK();
897
12
}
898
899
6
Status BaseBetaRowsetWriter::flush_single_block(const Block* block) {
900
6
    return _segment_creator.flush_single_block(block);
901
6
}
902
903
1.02k
Status BetaRowsetWriter::_wait_flying_segcompaction() {
904
1.02k
    std::unique_lock<std::mutex> l(_is_doing_segcompaction_lock);
905
1.02k
    uint64_t begin_wait = GetCurrentTimeMicros();
906
1.02k
    while (_is_doing_segcompaction) {
907
        // change sync wait to async?
908
0
        _segcompacting_cond.wait(l);
909
0
    }
910
1.02k
    uint64_t elapsed = GetCurrentTimeMicros() - begin_wait;
911
1.02k
    if (elapsed >= MICROS_PER_SEC) {
912
0
        LOG(INFO) << "wait flying segcompaction finish time:" << elapsed << "us";
913
0
    }
914
1.02k
    if (_segcompaction_status.load() != OK) {
915
0
        return Status::Error<SEGCOMPACTION_FAILED>(
916
0
                "BetaRowsetWriter meet invalid state, error code: {}",
917
0
                _segcompaction_status.load());
918
0
    }
919
1.02k
    return Status::OK();
920
1.02k
}
921
922
38
RowsetSharedPtr BaseBetaRowsetWriter::manual_build(const RowsetMetaSharedPtr& spec_rowset_meta) {
923
38
    if (_rowset_meta->newest_write_timestamp() == -1) {
924
0
        _rowset_meta->set_newest_write_timestamp(UnixSeconds());
925
0
    }
926
927
38
    build_rowset_meta_with_spec_field(*_rowset_meta, *spec_rowset_meta);
928
38
    RowsetSharedPtr rowset;
929
38
    auto status = RowsetFactory::create_rowset(_context.tablet_schema, _context.tablet_path,
930
38
                                               _rowset_meta, &rowset);
931
38
    if (!status.ok()) {
932
0
        LOG(WARNING) << "rowset init failed when build new rowset, res=" << status;
933
0
        return nullptr;
934
0
    }
935
38
    _already_built = true;
936
38
    return rowset;
937
38
}
938
939
629
Status BaseBetaRowsetWriter::_close_file_writers() {
940
    // Flush and close segment files
941
629
    RETURN_NOT_OK_STATUS_WITH_WARN(_segment_creator.close(),
942
629
                                   "failed to close segment creator when build new rowset");
943
629
    return Status::OK();
944
629
}
945
946
629
Status BetaRowsetWriter::_close_file_writers() {
947
629
    RETURN_IF_ERROR(BaseBetaRowsetWriter::_close_file_writers());
948
    // if _segment_start_id is not zero, that means it's a transient rowset writer for
949
    // MoW partial update, don't need to do segment compaction.
950
629
    if (_segment_start_id == 0) {
951
629
        if (_segcompaction_worker->cancel()) {
952
629
            std::lock_guard lk(_is_doing_segcompaction_lock);
953
629
            _is_doing_segcompaction = false;
954
629
            _segcompacting_cond.notify_all();
955
629
        } else {
956
0
            RETURN_NOT_OK_STATUS_WITH_WARN(_wait_flying_segcompaction(),
957
0
                                           "segcompaction failed when build new rowset");
958
0
        }
959
629
        RETURN_NOT_OK_STATUS_WITH_WARN(_segcompaction_rename_last_segments(),
960
629
                                       "rename last segments failed when build new rowset");
961
        // segcompaction worker would do file wrier's close function in compact_segments
962
629
        if (auto& seg_comp_file_writer = _segcompaction_worker->get_file_writer();
963
629
            nullptr != seg_comp_file_writer &&
964
629
            seg_comp_file_writer->state() != io::FileWriter::State::CLOSED) {
965
0
            RETURN_NOT_OK_STATUS_WITH_WARN(seg_comp_file_writer->close(),
966
0
                                           "close segment compaction worker failed");
967
0
        }
968
        // process delete bitmap for mow table
969
629
        if (is_segcompacted() && _segcompaction_worker->need_convert_delete_bitmap()) {
970
4
            auto converted_delete_bitmap = _segcompaction_worker->get_converted_delete_bitmap();
971
            // which means the segment compaction is triggerd
972
4
            if (converted_delete_bitmap != nullptr) {
973
4
                RowsetIdUnorderedSet rowsetids;
974
4
                rowsetids.insert(rowset_id());
975
4
                context().tablet->add_sentinel_mark_to_delete_bitmap(converted_delete_bitmap.get(),
976
4
                                                                     rowsetids);
977
4
                context().mow_context->delete_bitmap->remove({rowset_id(), 0, 0},
978
4
                                                             {rowset_id(), UINT32_MAX, INT64_MAX});
979
4
                context().mow_context->delete_bitmap->merge(*converted_delete_bitmap);
980
4
            }
981
4
        }
982
629
    }
983
629
    return Status::OK();
984
629
}
985
986
978
Status BetaRowsetWriter::build(RowsetSharedPtr& rowset) {
987
978
    if (_calc_delete_bitmap_token != nullptr) {
988
9
        RETURN_IF_ERROR(_calc_delete_bitmap_token->wait());
989
9
    }
990
978
    RETURN_IF_ERROR(_close_file_writers());
991
978
    const auto total_segment_num = _num_segment - _segcompacted_point + 1 + _num_segcompacted;
992
978
    RETURN_NOT_OK_STATUS_WITH_WARN(_check_segment_number_limit(total_segment_num),
993
978
                                   "too many segments when build new rowset");
994
978
    RETURN_IF_ERROR(_build_rowset_meta(_rowset_meta.get(), true));
995
978
    if (_is_pending) {
996
30
        _rowset_meta->set_rowset_state(COMMITTED);
997
948
    } else {
998
948
        _rowset_meta->set_rowset_state(VISIBLE);
999
948
    }
1000
1001
978
    if (_rowset_meta->newest_write_timestamp() == -1) {
1002
718
        _rowset_meta->set_newest_write_timestamp(UnixSeconds());
1003
718
    }
1004
1005
978
    _rowset_meta->set_tablet_schema(_context.tablet_schema);
1006
1007
    // If segment compaction occurs, the idx file info will become inaccurate.
1008
978
    if ((_context.tablet_schema->has_inverted_index() || _context.tablet_schema->has_ann_index()) &&
1009
978
        _num_segcompacted == 0) {
1010
160
        if (auto idx_files_info = _idx_files.inverted_index_file_info(_segment_start_id);
1011
160
            !idx_files_info.has_value()) [[unlikely]] {
1012
0
            LOG(ERROR) << "expected inverted index files info, but none presents: "
1013
0
                       << idx_files_info.error();
1014
160
        } else {
1015
160
            _rowset_meta->add_inverted_index_files_info(idx_files_info.value());
1016
160
        }
1017
160
    }
1018
1019
978
    RETURN_NOT_OK_STATUS_WITH_WARN(
1020
978
            RowsetFactory::create_rowset(_context.tablet_schema, _context.tablet_path, _rowset_meta,
1021
978
                                         &rowset),
1022
978
            "rowset init failed when build new rowset");
1023
978
    _already_built = true;
1024
978
    return Status::OK();
1025
978
}
1026
1027
0
int64_t BaseBetaRowsetWriter::_num_seg() const {
1028
0
    return _num_segment;
1029
0
}
1030
1031
1.04k
int64_t BetaRowsetWriter::_num_seg() const {
1032
1.04k
    return is_segcompacted() ? _num_segcompacted : _num_segment;
1033
1.04k
}
1034
1035
1.04k
Status BaseBetaRowsetWriter::_build_rowset_meta(RowsetMeta* rowset_meta, bool check_segment_num) {
1036
1.04k
    int64_t num_rows_written = 0;
1037
1.04k
    int64_t total_data_size = 0;
1038
1.04k
    int64_t total_index_size = 0;
1039
1.04k
    std::vector<KeyBoundsPB> segments_encoded_key_bounds;
1040
1.04k
    std::vector<uint32_t> segment_rows;
1041
1.04k
    std::optional<bool> segments_key_bounds_truncated;
1042
1.04k
    {
1043
1.04k
        std::lock_guard<std::mutex> lock(_segid_statistics_map_mutex);
1044
1.59k
        for (const auto& itr : _segid_statistics_map) {
1045
1.59k
            num_rows_written += itr.second.row_num;
1046
1.59k
            total_data_size += itr.second.data_size;
1047
1.59k
            total_index_size += itr.second.index_size;
1048
1.59k
            segments_encoded_key_bounds.push_back(itr.second.key_bounds);
1049
            // segcompaction don't modify _segment_num_rows, so we need to get segment rows from _segid_statistics_map for load
1050
1.59k
            segment_rows.push_back(cast_set<uint32_t>(itr.second.row_num));
1051
1.59k
        }
1052
1.04k
        segments_key_bounds_truncated = _segments_key_bounds_truncated;
1053
1.04k
    }
1054
1.04k
    if (segment_rows.empty()) {
1055
        // vertical compaction and linked schema change will not record segment statistics,
1056
        // it will record segment rows in _segment_num_rows
1057
337
        RETURN_IF_ERROR(get_segment_num_rows(&segment_rows));
1058
337
    }
1059
1060
1.20k
    for (auto& key_bound : _segments_encoded_key_bounds) {
1061
1.20k
        segments_encoded_key_bounds.push_back(key_bound);
1062
1.20k
    }
1063
1.04k
    if (segments_key_bounds_truncated.has_value()) {
1064
476
        rowset_meta->set_segments_key_bounds_truncated(segments_key_bounds_truncated.value());
1065
476
    }
1066
1.04k
    rowset_meta->set_num_segment_rows(segment_rows);
1067
    // segment key bounds are empty in old version(before version 1.2.x). So we should not modify
1068
    // the overlap property when key bounds are empty.
1069
    // for mow table with cluster keys, the overlap is used for cluster keys,
1070
    // the key_bounds is primary keys
1071
1.04k
    if (!segments_encoded_key_bounds.empty() &&
1072
1.04k
        !is_segment_overlapping(segments_encoded_key_bounds) &&
1073
1.04k
        _context.tablet_schema->cluster_key_uids().empty()) {
1074
545
        rowset_meta->set_segments_overlap(NONOVERLAPPING);
1075
545
    }
1076
1077
1.04k
    auto segment_num = _num_seg();
1078
1.04k
    if (check_segment_num && config::check_segment_when_build_rowset_meta) {
1079
0
        auto segments_encoded_key_bounds_size = segments_encoded_key_bounds.size();
1080
0
        if (segments_encoded_key_bounds_size != segment_num) {
1081
0
            return Status::InternalError(
1082
0
                    "segments_encoded_key_bounds_size should  equal to _num_seg, "
1083
0
                    "segments_encoded_key_bounds_size "
1084
0
                    "is: {}, _num_seg is: {}",
1085
0
                    segments_encoded_key_bounds_size, segment_num);
1086
0
        }
1087
0
        if (segment_rows.size() != segment_num) {
1088
0
            return Status::InternalError(
1089
0
                    "segment_rows size should equal to _num_seg, segment_rows size is: {}, "
1090
0
                    "_num_seg is {}, tablet={}, rowset={}, txn={}",
1091
0
                    segment_rows.size(), segment_num, _context.tablet_id,
1092
0
                    _context.rowset_id.to_string(), _context.txn_id);
1093
0
        }
1094
0
    }
1095
1096
1.04k
    rowset_meta->set_num_segments(segment_num);
1097
1.04k
    rowset_meta->set_num_rows(num_rows_written + _num_rows_written);
1098
1.04k
    rowset_meta->set_total_disk_size(total_data_size + _total_data_size + total_index_size +
1099
1.04k
                                     _total_index_size);
1100
1.04k
    rowset_meta->set_data_disk_size(total_data_size + _total_data_size);
1101
1.04k
    rowset_meta->set_index_disk_size(total_index_size + _total_index_size);
1102
1.04k
    bool aggregate_key_bounds = config::enable_aggregate_non_mow_key_bounds &&
1103
1.04k
                                !_context.enable_unique_key_merge_on_write;
1104
1.04k
    rowset_meta->set_segments_key_bounds(segments_encoded_key_bounds, aggregate_key_bounds);
1105
    // TODO write zonemap to meta
1106
1.04k
    rowset_meta->set_empty((num_rows_written + _num_rows_written) == 0);
1107
1.04k
    rowset_meta->set_creation_time(time(nullptr));
1108
1.04k
    return Status::OK();
1109
1.04k
}
1110
1111
63
Status BaseBetaRowsetWriter::_build_tmp(RowsetSharedPtr& rowset_ptr) {
1112
63
    Status status;
1113
63
    std::shared_ptr<RowsetMeta> tmp_rs_meta = std::make_shared<RowsetMeta>();
1114
63
    tmp_rs_meta->init(_rowset_meta.get());
1115
1116
63
    status = _build_rowset_meta(tmp_rs_meta.get());
1117
63
    if (!status.ok()) {
1118
0
        LOG(WARNING) << "failed to build rowset meta, res=" << status;
1119
0
        return status;
1120
0
    }
1121
1122
63
    status = RowsetFactory::create_rowset(_context.tablet_schema, _context.tablet_path, tmp_rs_meta,
1123
63
                                          &rowset_ptr);
1124
63
    DBUG_EXECUTE_IF("BaseBetaRowsetWriter::_build_tmp.create_rowset_failed",
1125
63
                    { status = Status::InternalError("create rowset failed"); });
1126
63
    if (!status.ok()) {
1127
0
        LOG(WARNING) << "rowset init failed when build new rowset, res=" << status;
1128
0
        return status;
1129
0
    }
1130
63
    return Status::OK();
1131
63
}
1132
1133
Status BaseBetaRowsetWriter::_create_file_writer(const std::string& path,
1134
                                                 io::FileWriterPtr& file_writer,
1135
2.85k
                                                 FileType file_type) {
1136
2.85k
    io::FileWriterOptions opts = _context.get_file_writer_options(file_type);
1137
2.85k
    Status st = _context.fs()->create_file(path, &file_writer, &opts);
1138
2.85k
    if (!st.ok()) {
1139
0
        LOG(WARNING) << "failed to create writable file. path=" << path << ", err: " << st;
1140
0
        return st;
1141
0
    }
1142
1143
2.85k
    DCHECK(file_writer != nullptr);
1144
2.85k
    TEST_SYNC_POINT_CALLBACK("BaseBetaRowsetWriter::_create_file_writer", &path, &file_type,
1145
2.85k
                             file_writer.get(), &opts);
1146
2.85k
    return Status::OK();
1147
2.85k
}
1148
1149
Status BaseBetaRowsetWriter::create_file_writer(uint32_t segment_id, io::FileWriterPtr& file_writer,
1150
2.83k
                                                FileType file_type) {
1151
2.83k
    auto segment_path = _context.segment_path(segment_id);
1152
2.83k
    if (file_type == FileType::INVERTED_INDEX_FILE) {
1153
309
        std::string prefix =
1154
309
                std::string {InvertedIndexDescriptor::get_index_file_path_prefix(segment_path)};
1155
309
        std::string index_path = InvertedIndexDescriptor::get_index_file_path_v2(prefix);
1156
309
        return _create_file_writer(index_path, file_writer, file_type);
1157
2.52k
    } else if (file_type == FileType::SEGMENT_FILE) {
1158
2.52k
        return _create_file_writer(segment_path, file_writer, file_type);
1159
2.52k
    }
1160
0
    return Status::Error<ErrorCode::INTERNAL_ERROR>(
1161
0
            fmt::format("failed to create file = {}, file type = {}", segment_path, file_type));
1162
2.83k
}
1163
1164
Status BaseBetaRowsetWriter::create_index_file_writer(uint32_t segment_id,
1165
321
                                                      IndexFileWriterPtr* index_file_writer) {
1166
321
    RETURN_IF_ERROR(RowsetWriter::create_index_file_writer(segment_id, index_file_writer));
1167
    // used for inverted index format v1
1168
321
    (*index_file_writer)
1169
321
            ->set_file_writer_opts(_context.get_file_writer_options(FileType::INVERTED_INDEX_FILE));
1170
321
    TEST_SYNC_POINT_CALLBACK("BaseBetaRowsetWriter::create_inverted_index_file_writer", &segment_id,
1171
321
                             index_file_writer->get());
1172
321
    return Status::OK();
1173
321
}
1174
1175
Status BetaRowsetWriter::create_segment_writer_for_segcompaction(
1176
12
        std::unique_ptr<segment_v2::SegmentWriter>* writer, int64_t begin, int64_t end) {
1177
12
    DCHECK(begin >= 0 && end >= 0);
1178
12
    std::string path = BetaRowset::local_segment_path_segcompacted(_context.tablet_path,
1179
12
                                                                   _context.rowset_id, begin, end);
1180
12
    io::FileWriterPtr file_writer;
1181
12
    RETURN_IF_ERROR(_create_file_writer(path, file_writer, FileType::SEGMENT_FILE));
1182
1183
12
    IndexFileWriterPtr index_file_writer;
1184
12
    if (_context.tablet_schema->has_inverted_index() || _context.tablet_schema->has_ann_index()) {
1185
8
        io::FileWriterPtr idx_file_writer;
1186
8
        std::string prefix(InvertedIndexDescriptor::get_index_file_path_prefix(path));
1187
8
        if (_context.tablet_schema->get_inverted_index_storage_format() !=
1188
8
            InvertedIndexStorageFormatPB::V1) {
1189
8
            std::string index_path = InvertedIndexDescriptor::get_index_file_path_v2(prefix);
1190
8
            RETURN_IF_ERROR(_create_file_writer(index_path, idx_file_writer,
1191
8
                                                FileType::INVERTED_INDEX_FILE));
1192
8
        }
1193
8
        index_file_writer = std::make_unique<IndexFileWriter>(
1194
8
                _context.fs(), prefix, _context.rowset_id.to_string(), _num_segcompacted,
1195
8
                _context.tablet_schema->get_inverted_index_storage_format(),
1196
8
                std::move(idx_file_writer), true /* can_use_ram_dir */, _context.tablet_id);
1197
8
        index_file_writer->set_file_writer_opts(
1198
8
                _context.get_file_writer_options(FileType::INVERTED_INDEX_FILE));
1199
8
    }
1200
1201
12
    segment_v2::SegmentWriterOptions writer_options;
1202
12
    writer_options.enable_unique_key_merge_on_write = _context.enable_unique_key_merge_on_write;
1203
12
    writer_options.rowset_ctx = &_context;
1204
12
    writer_options.write_type = _context.write_type;
1205
12
    writer_options.write_type = DataWriteType::TYPE_COMPACTION;
1206
12
    writer_options.max_rows_per_segment = _context.max_rows_per_segment;
1207
12
    writer_options.mow_ctx = _context.mow_context;
1208
1209
12
    *writer = std::make_unique<segment_v2::SegmentWriter>(
1210
12
            file_writer.get(), _num_segcompacted, _context.tablet_schema, _context.tablet,
1211
12
            _context.data_dir, writer_options, index_file_writer.get());
1212
12
    if (auto& seg_writer = _segcompaction_worker->get_file_writer();
1213
12
        seg_writer != nullptr && seg_writer->state() != io::FileWriter::State::CLOSED) {
1214
0
        RETURN_IF_ERROR(_segcompaction_worker->get_file_writer()->close());
1215
0
    }
1216
12
    _segcompaction_worker->get_file_writer().reset(file_writer.release());
1217
12
    if (auto& idx_file_writer = _segcompaction_worker->get_inverted_index_file_writer();
1218
12
        idx_file_writer != nullptr) {
1219
0
        RETURN_IF_ERROR(idx_file_writer->begin_close());
1220
0
        RETURN_IF_ERROR(idx_file_writer->finish_close());
1221
0
    }
1222
12
    _segcompaction_worker->get_inverted_index_file_writer().reset(index_file_writer.release());
1223
12
    return Status::OK();
1224
12
}
1225
1226
0
Status BaseBetaRowsetWriter::_check_segment_number_limit(size_t segnum) {
1227
0
    DBUG_EXECUTE_IF("BetaRowsetWriter._check_segment_number_limit_too_many_segments",
1228
0
                    { segnum = dp->param("segnum", 1024); });
1229
0
    if (UNLIKELY(segnum > config::max_segment_num_per_rowset)) {
1230
0
        return Status::Error<TOO_MANY_SEGMENTS>(
1231
0
                "too many segments in rowset. tablet_id:{}, rowset_id:{}, max:{}, "
1232
0
                "_num_segment:{}, rowset_num_rows:{}. Please check if the bucket number is too "
1233
0
                "small or if the data is skewed.",
1234
0
                _context.tablet_id, _context.rowset_id.to_string(),
1235
0
                config::max_segment_num_per_rowset, _num_segment, get_rowset_num_rows());
1236
0
    }
1237
0
    return Status::OK();
1238
0
}
1239
1240
2.27k
Status BetaRowsetWriter::_check_segment_number_limit(size_t segnum) {
1241
2.27k
    DBUG_EXECUTE_IF("BetaRowsetWriter._check_segment_number_limit_too_many_segments",
1242
2.27k
                    { segnum = dp->param("segnum", 1024); });
1243
2.27k
    if (UNLIKELY(segnum > config::max_segment_num_per_rowset)) {
1244
0
        return Status::Error<TOO_MANY_SEGMENTS>(
1245
0
                "too many segments in rowset. tablet_id:{}, rowset_id:{}, max:{}, _num_segment:{}, "
1246
0
                "_segcompacted_point:{}, _num_segcompacted:{}, rowset_num_rows:{}. Please check if "
1247
0
                "the bucket number is too small or if the data is skewed.",
1248
0
                _context.tablet_id, _context.rowset_id.to_string(),
1249
0
                config::max_segment_num_per_rowset, _num_segment, _segcompacted_point,
1250
0
                _num_segcompacted, get_rowset_num_rows());
1251
0
    }
1252
2.27k
    return Status::OK();
1253
2.27k
}
1254
1255
1.29k
Status BaseBetaRowsetWriter::add_segment(uint32_t segment_id, const SegmentStatistics& segstat) {
1256
1.29k
    uint32_t segid_offset = segment_id - _segment_start_id;
1257
1.29k
    bool key_bounds_truncated = false;
1258
1.29k
    SegmentStatistics stored_segstat =
1259
1.29k
            copy_segment_statistics_with_truncated_key_bounds(segstat, key_bounds_truncated);
1260
1.29k
    {
1261
1.29k
        std::lock_guard<std::mutex> lock(_segid_statistics_map_mutex);
1262
1.29k
        CHECK_EQ(_segid_statistics_map.find(segment_id) == _segid_statistics_map.end(), true);
1263
1.29k
        _segid_statistics_map.emplace(segment_id, std::move(stored_segstat));
1264
1.29k
        if (segment_id >= _segment_num_rows.size()) {
1265
1.29k
            _segment_num_rows.resize(segment_id + 1);
1266
1.29k
        }
1267
1.29k
        _segment_num_rows[segid_offset] = cast_set<uint32_t>(segstat.row_num);
1268
1.29k
        if (key_bounds_truncated) {
1269
778
            _segments_key_bounds_truncated = true;
1270
778
        }
1271
1.29k
    }
1272
1.29k
    VLOG_DEBUG << "_segid_statistics_map add new record. segment_id:" << segment_id
1273
0
               << " row_num:" << segstat.row_num << " data_size:" << segstat.data_size
1274
0
               << " index_size:" << segstat.index_size;
1275
1276
1.29k
    {
1277
1.29k
        std::lock_guard<std::mutex> lock(_segment_set_mutex);
1278
1.29k
        _segment_set.add(segid_offset);
1279
2.59k
        while (_segment_set.contains(_num_segment)) {
1280
1.29k
            _num_segment++;
1281
1.29k
        }
1282
1.29k
    }
1283
1284
1.29k
    if (_context.mow_context != nullptr) {
1285
63
        RETURN_IF_ERROR(_generate_delete_bitmap(segment_id));
1286
63
    }
1287
1.29k
    return Status::OK();
1288
1.29k
}
1289
1290
1.29k
Status BetaRowsetWriter::add_segment(uint32_t segment_id, const SegmentStatistics& segstat) {
1291
1.29k
    RETURN_IF_ERROR(BaseBetaRowsetWriter::add_segment(segment_id, segstat));
1292
1.29k
    return _segcompaction_if_necessary();
1293
1.29k
}
1294
1295
Status BetaRowsetWriter::flush_segment_writer_for_segcompaction(
1296
        std::unique_ptr<segment_v2::SegmentWriter>* writer, uint64_t index_size,
1297
11
        KeyBoundsPB& key_bounds) {
1298
11
    uint32_t segid = (*writer)->get_segment_id();
1299
11
    uint32_t row_num = (*writer)->row_count();
1300
11
    uint64_t segment_size;
1301
1302
11
    auto s = (*writer)->finalize_footer(&segment_size);
1303
11
    if (!s.ok()) {
1304
0
        return Status::Error<WRITER_DATA_WRITE_ERROR>("failed to finalize segment: {}",
1305
0
                                                      s.to_string());
1306
0
    }
1307
11
    int64_t inverted_index_file_size = 0;
1308
11
    RETURN_IF_ERROR((*writer)->close_inverted_index(&inverted_index_file_size));
1309
1310
11
    SegmentStatistics segstat;
1311
11
    segstat.row_num = row_num;
1312
11
    segstat.data_size = segment_size;
1313
11
    segstat.index_size = inverted_index_file_size;
1314
11
    bool key_bounds_truncated = copy_key_bounds_with_truncation(key_bounds, &segstat.key_bounds);
1315
11
    {
1316
11
        std::lock_guard<std::mutex> lock(_segid_statistics_map_mutex);
1317
11
        CHECK_EQ(_segid_statistics_map.find(segid) == _segid_statistics_map.end(), true);
1318
11
        _segid_statistics_map.emplace(segid, std::move(segstat));
1319
11
        if (key_bounds_truncated) {
1320
2
            _segments_key_bounds_truncated = true;
1321
2
        }
1322
11
    }
1323
11
    VLOG_DEBUG << "_segid_statistics_map add new record. segid:" << segid << " row_num:" << row_num
1324
0
               << " data_size:" << PrettyPrinter::print_bytes(segment_size)
1325
0
               << " index_size:" << PrettyPrinter::print_bytes(inverted_index_file_size);
1326
1327
11
    writer->reset();
1328
1329
11
    return Status::OK();
1330
11
}
1331
1332
} // namespace doris