Coverage Report

Created: 2024-11-21 21:13

/root/doris/be/src/olap/tablet_manager.cpp
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Count
Source (jump to first uncovered line)
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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
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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 "olap/tablet_manager.h"
19
20
#include <fmt/format.h>
21
#include <gen_cpp/AgentService_types.h>
22
#include <gen_cpp/BackendService_types.h>
23
#include <gen_cpp/Descriptors_types.h>
24
#include <gen_cpp/MasterService_types.h>
25
#include <gen_cpp/Types_types.h>
26
#include <gen_cpp/olap_file.pb.h>
27
#include <re2/re2.h>
28
#include <unistd.h>
29
30
#include <algorithm>
31
#include <list>
32
#include <mutex>
33
#include <ostream>
34
#include <string_view>
35
36
#include "bvar/bvar.h"
37
#include "common/compiler_util.h" // IWYU pragma: keep
38
#include "common/config.h"
39
#include "common/logging.h"
40
#include "gutil/integral_types.h"
41
#include "gutil/strings/strcat.h"
42
#include "gutil/strings/substitute.h"
43
#include "io/fs/local_file_system.h"
44
#include "olap/cumulative_compaction_time_series_policy.h"
45
#include "olap/data_dir.h"
46
#include "olap/olap_common.h"
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#include "olap/olap_define.h"
48
#include "olap/olap_meta.h"
49
#include "olap/pb_helper.h"
50
#include "olap/rowset/beta_rowset.h"
51
#include "olap/rowset/rowset.h"
52
#include "olap/rowset/rowset_meta_manager.h"
53
#include "olap/storage_engine.h"
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#include "olap/tablet.h"
55
#include "olap/tablet_meta.h"
56
#include "olap/tablet_meta_manager.h"
57
#include "olap/tablet_schema.h"
58
#include "olap/txn_manager.h"
59
#include "runtime/exec_env.h"
60
#include "runtime/memory/mem_tracker.h"
61
#include "runtime/thread_context.h"
62
#include "service/backend_options.h"
63
#include "util/defer_op.h"
64
#include "util/doris_metrics.h"
65
#include "util/histogram.h"
66
#include "util/metrics.h"
67
#include "util/path_util.h"
68
#include "util/scoped_cleanup.h"
69
#include "util/stopwatch.hpp"
70
#include "util/time.h"
71
#include "util/trace.h"
72
#include "util/uid_util.h"
73
74
namespace doris {
75
class CumulativeCompactionPolicy;
76
} // namespace doris
77
78
using std::map;
79
using std::set;
80
using std::string;
81
using std::vector;
82
83
namespace doris {
84
using namespace ErrorCode;
85
86
DEFINE_GAUGE_METRIC_PROTOTYPE_5ARG(tablet_meta_mem_consumption, MetricUnit::BYTES, "",
87
                                   mem_consumption, Labels({{"type", "tablet_meta"}}));
88
89
bvar::Adder<int64_t> g_tablet_meta_schema_columns_count("tablet_meta_schema_columns_count");
90
91
TabletManager::TabletManager(StorageEngine& engine, int32_t tablet_map_lock_shard_size)
92
        : _engine(engine),
93
          _tablet_meta_mem_tracker(std::make_shared<MemTracker>("TabletMeta(experimental)")),
94
          _tablets_shards_size(tablet_map_lock_shard_size),
95
150
          _tablets_shards_mask(tablet_map_lock_shard_size - 1) {
96
150
    CHECK_GT(_tablets_shards_size, 0);
97
150
    CHECK_EQ(_tablets_shards_size & _tablets_shards_mask, 0);
98
150
    _tablets_shards.resize(_tablets_shards_size);
99
150
    REGISTER_HOOK_METRIC(tablet_meta_mem_consumption,
100
150
                         [this]() { return _tablet_meta_mem_tracker->consumption(); });
101
150
}
102
103
150
TabletManager::~TabletManager() {
104
#ifndef BE_TEST
105
    DEREGISTER_HOOK_METRIC(tablet_meta_mem_consumption);
106
#endif
107
150
}
108
109
Status TabletManager::_add_tablet_unlocked(TTabletId tablet_id, const TabletSharedPtr& tablet,
110
93
                                           bool update_meta, bool force, RuntimeProfile* profile) {
111
93
    if (profile->get_counter("AddTablet") == nullptr) {
112
2
        ADD_TIMER(profile, "AddTablet");
113
2
    }
114
93
    Status res = Status::OK();
115
93
    VLOG_NOTICE << "begin to add tablet to TabletManager. "
116
0
                << "tablet_id=" << tablet_id << ", force=" << force;
117
118
93
    TabletSharedPtr existed_tablet = nullptr;
119
93
    tablet_map_t& tablet_map = _get_tablet_map(tablet_id);
120
93
    const auto& iter = tablet_map.find(tablet_id);
121
93
    if (iter != tablet_map.end()) {
122
2
        existed_tablet = iter->second;
123
2
    }
124
125
93
    if (existed_tablet == nullptr) {
126
91
        return _add_tablet_to_map_unlocked(tablet_id, tablet, update_meta, false /*keep_files*/,
127
91
                                           false /*drop_old*/, profile);
128
91
    }
129
    // During restore process, the tablet is exist and snapshot loader will replace the tablet's rowsets
130
    // and then reload the tablet, the tablet's path will the same
131
2
    if (!force) {
132
2
        if (existed_tablet->tablet_path() == tablet->tablet_path()) {
133
0
            return Status::Error<ENGINE_INSERT_EXISTS_TABLE>(
134
0
                    "add the same tablet twice! tablet_id={}, tablet_path={}", tablet_id,
135
0
                    tablet->tablet_path());
136
0
        }
137
2
        if (existed_tablet->data_dir() == tablet->data_dir()) {
138
0
            return Status::Error<ENGINE_INSERT_EXISTS_TABLE>(
139
0
                    "add tablet with same data dir twice! tablet_id={}", tablet_id);
140
0
        }
141
2
    }
142
143
2
    MonotonicStopWatch watch;
144
2
    watch.start();
145
146
    // During storage migration, the tablet is moved to another disk, have to check
147
    // if the new tablet's rowset version is larger than the old one to prevent losting data during
148
    // migration
149
2
    int64_t old_time, new_time;
150
2
    int32_t old_version, new_version;
151
2
    {
152
2
        std::shared_lock rdlock(existed_tablet->get_header_lock());
153
2
        const RowsetSharedPtr old_rowset = existed_tablet->get_rowset_with_max_version();
154
2
        const RowsetSharedPtr new_rowset = tablet->get_rowset_with_max_version();
155
        // If new tablet is empty, it is a newly created schema change tablet.
156
        // the old tablet is dropped before add tablet. it should not exist old tablet
157
2
        if (new_rowset == nullptr) {
158
            // it seems useless to call unlock and return here.
159
            // it could prevent error when log level is changed in the future.
160
0
            return Status::Error<ENGINE_INSERT_EXISTS_TABLE>(
161
0
                    "new tablet is empty and old tablet exists. it should not happen. tablet_id={}",
162
0
                    tablet_id);
163
0
        }
164
2
        old_time = old_rowset == nullptr ? -1 : old_rowset->creation_time();
165
2
        new_time = new_rowset->creation_time();
166
2
        old_version = old_rowset == nullptr ? -1 : old_rowset->end_version();
167
2
        new_version = new_rowset->end_version();
168
2
    }
169
2
    COUNTER_UPDATE(ADD_CHILD_TIMER(profile, "GetExistTabletVersion", "AddTablet"),
170
2
                   static_cast<int64_t>(watch.reset()));
171
172
    // In restore process, we replace all origin files in tablet dir with
173
    // the downloaded snapshot files. Then we try to reload tablet header.
174
    // force == true means we forcibly replace the Tablet in tablet_map
175
    // with the new one. But if we do so, the files in the tablet dir will be
176
    // dropped when the origin Tablet deconstruct.
177
    // So we set keep_files == true to not delete files when the
178
    // origin Tablet deconstruct.
179
    // During restore process, snapshot loader
180
    // replaced the old tablet's rowset with new rowsets, but the tablet path is reused, if drop files
181
    // here, the new rowset's file will also be dropped, so use keep files here
182
2
    bool keep_files = force;
183
2
    if (force ||
184
2
        (new_version > old_version || (new_version == old_version && new_time >= old_time))) {
185
        // check if new tablet's meta is in store and add new tablet's meta to meta store
186
2
        res = _add_tablet_to_map_unlocked(tablet_id, tablet, update_meta, keep_files,
187
2
                                          true /*drop_old*/, profile);
188
2
    } else {
189
0
        RETURN_IF_ERROR(tablet->set_tablet_state(TABLET_SHUTDOWN));
190
0
        tablet->save_meta();
191
0
        COUNTER_UPDATE(ADD_CHILD_TIMER(profile, "SaveMeta", "AddTablet"),
192
0
                       static_cast<int64_t>(watch.reset()));
193
0
        {
194
0
            std::lock_guard<std::shared_mutex> shutdown_tablets_wrlock(_shutdown_tablets_lock);
195
0
            _shutdown_tablets.push_back(tablet);
196
0
        }
197
198
0
        res = Status::Error<ENGINE_INSERT_OLD_TABLET>(
199
0
                "set tablet to shutdown state. tablet_id={}, tablet_path={}", tablet->tablet_id(),
200
0
                tablet->tablet_path());
201
0
    }
202
2
    LOG(WARNING) << "add duplicated tablet. force=" << force << ", res=" << res
203
2
                 << ", tablet_id=" << tablet_id << ", old_version=" << old_version
204
2
                 << ", new_version=" << new_version << ", old_time=" << old_time
205
2
                 << ", new_time=" << new_time
206
2
                 << ", old_tablet_path=" << existed_tablet->tablet_path()
207
2
                 << ", new_tablet_path=" << tablet->tablet_path();
208
209
2
    return res;
210
2
}
211
212
Status TabletManager::_add_tablet_to_map_unlocked(TTabletId tablet_id,
213
                                                  const TabletSharedPtr& tablet, bool update_meta,
214
                                                  bool keep_files, bool drop_old,
215
93
                                                  RuntimeProfile* profile) {
216
    // check if new tablet's meta is in store and add new tablet's meta to meta store
217
93
    Status res = Status::OK();
218
93
    MonotonicStopWatch watch;
219
93
    watch.start();
220
93
    if (update_meta) {
221
        // call tablet save meta in order to valid the meta
222
93
        tablet->save_meta();
223
93
        COUNTER_UPDATE(ADD_CHILD_TIMER(profile, "SaveMeta", "AddTablet"),
224
93
                       static_cast<int64_t>(watch.reset()));
225
93
    }
226
93
    if (drop_old) {
227
        // If the new tablet is fresher than the existing one, then replace
228
        // the existing tablet with the new one.
229
        // Use default replica_id to ignore whether replica_id is match when drop tablet.
230
2
        Status status = _drop_tablet(tablet_id, /* replica_id */ 0, keep_files, false, true);
231
2
        COUNTER_UPDATE(ADD_CHILD_TIMER(profile, "DropOldTablet", "AddTablet"),
232
2
                       static_cast<int64_t>(watch.reset()));
233
2
        RETURN_NOT_OK_STATUS_WITH_WARN(
234
2
                status, strings::Substitute("failed to drop old tablet when add new tablet. "
235
2
                                            "tablet_id=$0",
236
2
                                            tablet_id));
237
2
    }
238
    // Register tablet into DataDir, so that we can manage tablet from
239
    // the perspective of root path.
240
    // Example: unregister all tables when a bad disk found.
241
93
    tablet->register_tablet_into_dir();
242
93
    tablet_map_t& tablet_map = _get_tablet_map(tablet_id);
243
93
    tablet_map[tablet_id] = tablet;
244
93
    _add_tablet_to_partition(tablet);
245
    // TODO: remove multiply 2 of tablet meta mem size
246
    // Because table schema will copy in tablet, there will be double mem cost
247
    // so here multiply 2
248
93
    _tablet_meta_mem_tracker->consume(tablet->tablet_meta()->mem_size() * 2);
249
93
    g_tablet_meta_schema_columns_count << tablet->tablet_meta()->tablet_columns_num();
250
93
    COUNTER_UPDATE(ADD_CHILD_TIMER(profile, "RegisterTabletInfo", "AddTablet"),
251
93
                   static_cast<int64_t>(watch.reset()));
252
253
93
    VLOG_NOTICE << "add tablet to map successfully."
254
0
                << " tablet_id=" << tablet_id;
255
256
93
    return res;
257
93
}
258
259
0
bool TabletManager::check_tablet_id_exist(TTabletId tablet_id) {
260
0
    std::shared_lock rdlock(_get_tablets_shard_lock(tablet_id));
261
0
    return _check_tablet_id_exist_unlocked(tablet_id);
262
0
}
263
264
0
bool TabletManager::_check_tablet_id_exist_unlocked(TTabletId tablet_id) {
265
0
    tablet_map_t& tablet_map = _get_tablet_map(tablet_id);
266
0
    return tablet_map.find(tablet_id) != tablet_map.end();
267
0
}
268
269
Status TabletManager::create_tablet(const TCreateTabletReq& request, std::vector<DataDir*> stores,
270
94
                                    RuntimeProfile* profile) {
271
94
    DorisMetrics::instance()->create_tablet_requests_total->increment(1);
272
273
94
    int64_t tablet_id = request.tablet_id;
274
94
    LOG(INFO) << "begin to create tablet. tablet_id=" << tablet_id
275
94
              << ", table_id=" << request.table_id << ", partition_id=" << request.partition_id
276
94
              << ", replica_id=" << request.replica_id << ", stores.size=" << stores.size()
277
94
              << ", first store=" << stores[0]->path();
278
279
    // when we create rollup tablet A(assume on shard-1) from tablet B(assume on shard-2)
280
    // we need use write lock on shard-1 and then use read lock on shard-2
281
    // if there have create rollup tablet C(assume on shard-2) from tablet D(assume on shard-1) at the same time, we will meet deadlock
282
94
    std::unique_lock two_tablet_lock(_two_tablet_mtx, std::defer_lock);
283
94
    bool in_restore_mode = request.__isset.in_restore_mode && request.in_restore_mode;
284
94
    bool is_schema_change_or_atomic_restore =
285
94
            request.__isset.base_tablet_id && request.base_tablet_id > 0;
286
94
    bool need_two_lock =
287
94
            is_schema_change_or_atomic_restore &&
288
94
            ((_tablets_shards_mask & request.base_tablet_id) != (_tablets_shards_mask & tablet_id));
289
94
    if (need_two_lock) {
290
0
        SCOPED_TIMER(ADD_TIMER(profile, "GetTwoTableLock"));
291
0
        two_tablet_lock.lock();
292
0
    }
293
294
94
    MonotonicStopWatch shard_lock_watch;
295
94
    shard_lock_watch.start();
296
94
    std::lock_guard wrlock(_get_tablets_shard_lock(tablet_id));
297
94
    shard_lock_watch.stop();
298
94
    COUNTER_UPDATE(ADD_TIMER(profile, "GetShardLock"),
299
94
                   static_cast<int64_t>(shard_lock_watch.elapsed_time()));
300
    // Make create_tablet operation to be idempotent:
301
    // 1. Return true if tablet with same tablet_id and schema_hash exist;
302
    //           false if tablet with same tablet_id but different schema_hash exist.
303
    // 2. When this is an alter task, if the tablet(both tablet_id and schema_hash are
304
    // same) already exist, then just return true(an duplicate request). But if
305
    // tablet_id exist but with different schema_hash, return an error(report task will
306
    // eventually trigger its deletion).
307
94
    {
308
94
        SCOPED_TIMER(ADD_TIMER(profile, "GetTabletUnlocked"));
309
94
        if (_get_tablet_unlocked(tablet_id) != nullptr) {
310
3
            LOG(INFO) << "success to create tablet. tablet already exist. tablet_id=" << tablet_id;
311
3
            return Status::OK();
312
3
        }
313
94
    }
314
315
91
    TabletSharedPtr base_tablet = nullptr;
316
    // If the CreateTabletReq has base_tablet_id then it is a alter-tablet request
317
91
    if (is_schema_change_or_atomic_restore) {
318
        // if base_tablet_id's lock diffrent with new_tablet_id, we need lock it.
319
0
        if (need_two_lock) {
320
0
            SCOPED_TIMER(ADD_TIMER(profile, "GetBaseTablet"));
321
0
            base_tablet = get_tablet(request.base_tablet_id);
322
0
            two_tablet_lock.unlock();
323
0
        } else {
324
0
            SCOPED_TIMER(ADD_TIMER(profile, "GetBaseTabletUnlocked"));
325
0
            base_tablet = _get_tablet_unlocked(request.base_tablet_id);
326
0
        }
327
0
        if (base_tablet == nullptr) {
328
0
            DorisMetrics::instance()->create_tablet_requests_failed->increment(1);
329
0
            return Status::Error<TABLE_CREATE_META_ERROR>(
330
0
                    "fail to create tablet(change schema/atomic restore), base tablet does not "
331
0
                    "exist. new_tablet_id={}, base_tablet_id={}",
332
0
                    tablet_id, request.base_tablet_id);
333
0
        }
334
        // If we are doing schema-change or atomic-restore, we should use the same data dir
335
        // TODO(lingbin): A litter trick here, the directory should be determined before
336
        // entering this method
337
        //
338
        // ATTN: Since all restored replicas will be saved to HDD, so no storage_medium check here.
339
0
        if (in_restore_mode ||
340
0
            request.storage_medium == base_tablet->data_dir()->storage_medium()) {
341
0
            LOG(INFO) << "create tablet use the base tablet data dir. tablet_id=" << tablet_id
342
0
                      << ", base tablet_id=" << request.base_tablet_id
343
0
                      << ", data dir=" << base_tablet->data_dir()->path();
344
0
            stores.clear();
345
0
            stores.push_back(base_tablet->data_dir());
346
0
        }
347
0
    }
348
349
    // set alter type to schema-change. it is useless
350
91
    TabletSharedPtr tablet = _internal_create_tablet_unlocked(
351
91
            request, is_schema_change_or_atomic_restore, base_tablet.get(), stores, profile);
352
91
    if (tablet == nullptr) {
353
0
        DorisMetrics::instance()->create_tablet_requests_failed->increment(1);
354
0
        return Status::Error<CE_CMD_PARAMS_ERROR>("fail to create tablet. tablet_id={}",
355
0
                                                  request.tablet_id);
356
0
    }
357
358
91
    LOG(INFO) << "success to create tablet. tablet_id=" << tablet_id
359
91
              << ", tablet_path=" << tablet->tablet_path();
360
91
    return Status::OK();
361
91
}
362
363
TabletSharedPtr TabletManager::_internal_create_tablet_unlocked(
364
        const TCreateTabletReq& request, const bool is_schema_change, const Tablet* base_tablet,
365
91
        const std::vector<DataDir*>& data_dirs, RuntimeProfile* profile) {
366
    // If in schema-change state, base_tablet must also be provided.
367
    // i.e., is_schema_change and base_tablet are either assigned or not assigned
368
91
    DCHECK((is_schema_change && base_tablet) || (!is_schema_change && !base_tablet));
369
370
    // NOTE: The existence of tablet_id and schema_hash has already been checked,
371
    // no need check again here.
372
373
91
    const std::string parent_timer_name = "InternalCreateTablet";
374
91
    SCOPED_TIMER(ADD_TIMER(profile, parent_timer_name));
375
376
91
    MonotonicStopWatch watch;
377
91
    watch.start();
378
91
    auto create_meta_timer = ADD_CHILD_TIMER(profile, "CreateMeta", parent_timer_name);
379
91
    auto tablet = _create_tablet_meta_and_dir_unlocked(request, is_schema_change, base_tablet,
380
91
                                                       data_dirs, profile);
381
91
    COUNTER_UPDATE(create_meta_timer, static_cast<int64_t>(watch.reset()));
382
91
    if (tablet == nullptr) {
383
0
        return nullptr;
384
0
    }
385
386
91
    int64_t new_tablet_id = request.tablet_id;
387
91
    int32_t new_schema_hash = request.tablet_schema.schema_hash;
388
389
    // should remove the tablet's pending_id no matter create-tablet success or not
390
91
    DataDir* data_dir = tablet->data_dir();
391
392
    // TODO(yiguolei)
393
    // the following code is very difficult to understand because it mixed alter tablet v2
394
    // and alter tablet v1 should remove alter tablet v1 code after v0.12
395
91
    Status res = Status::OK();
396
91
    bool is_tablet_added = false;
397
91
    do {
398
91
        res = tablet->init();
399
91
        COUNTER_UPDATE(ADD_CHILD_TIMER(profile, "TabletInit", parent_timer_name),
400
91
                       static_cast<int64_t>(watch.reset()));
401
91
        if (!res.ok()) {
402
0
            LOG(WARNING) << "tablet init failed. tablet:" << tablet->tablet_id();
403
0
            break;
404
0
        }
405
406
        // Create init version if this is not a restore mode replica and request.version is set
407
        // bool in_restore_mode = request.__isset.in_restore_mode && request.in_restore_mode;
408
        // if (!in_restore_mode && request.__isset.version) {
409
        // create initial rowset before add it to storage engine could omit many locks
410
91
        res = tablet->create_initial_rowset(request.version);
411
91
        COUNTER_UPDATE(ADD_CHILD_TIMER(profile, "InitRowset", parent_timer_name),
412
91
                       static_cast<int64_t>(watch.reset()));
413
91
        if (!res.ok()) {
414
0
            LOG(WARNING) << "fail to create initial version for tablet. res=" << res;
415
0
            break;
416
0
        }
417
418
91
        if (is_schema_change) {
419
            // if this is a new alter tablet, has to set its state to not ready
420
            // because schema change handler depends on it to check whether history data
421
            // convert finished
422
0
            static_cast<void>(tablet->set_tablet_state(TabletState::TABLET_NOTREADY));
423
0
        }
424
        // Add tablet to StorageEngine will make it visible to user
425
        // Will persist tablet meta
426
91
        auto add_tablet_timer = ADD_CHILD_TIMER(profile, "AddTablet", parent_timer_name);
427
91
        res = _add_tablet_unlocked(new_tablet_id, tablet, /*update_meta*/ true, false, profile);
428
91
        COUNTER_UPDATE(add_tablet_timer, static_cast<int64_t>(watch.reset()));
429
91
        if (!res.ok()) {
430
0
            LOG(WARNING) << "fail to add tablet to StorageEngine. res=" << res;
431
0
            break;
432
0
        }
433
91
        is_tablet_added = true;
434
435
        // TODO(lingbin): The following logic seems useless, can be removed?
436
        // Because if _add_tablet_unlocked() return OK, we must can get it from map.
437
91
        TabletSharedPtr tablet_ptr = _get_tablet_unlocked(new_tablet_id);
438
91
        COUNTER_UPDATE(ADD_CHILD_TIMER(profile, "GetTablet", parent_timer_name),
439
91
                       static_cast<int64_t>(watch.reset()));
440
91
        if (tablet_ptr == nullptr) {
441
0
            res = Status::Error<TABLE_NOT_FOUND>("fail to get tablet. res={}", res);
442
0
            break;
443
0
        }
444
91
    } while (false);
445
446
91
    if (res.ok()) {
447
91
        return tablet;
448
91
    }
449
    // something is wrong, we need clear environment
450
0
    if (is_tablet_added) {
451
0
        Status status = _drop_tablet(new_tablet_id, request.replica_id, false, false, true);
452
0
        COUNTER_UPDATE(ADD_CHILD_TIMER(profile, "DropTablet", parent_timer_name),
453
0
                       static_cast<int64_t>(watch.reset()));
454
0
        if (!status.ok()) {
455
0
            LOG(WARNING) << "fail to drop tablet when create tablet failed. res=" << res;
456
0
        }
457
0
    } else {
458
0
        tablet->delete_all_files();
459
0
        static_cast<void>(TabletMetaManager::remove(data_dir, new_tablet_id, new_schema_hash));
460
0
        COUNTER_UPDATE(ADD_CHILD_TIMER(profile, "RemoveTabletFiles", parent_timer_name),
461
0
                       static_cast<int64_t>(watch.reset()));
462
0
    }
463
0
    return nullptr;
464
91
}
465
466
91
static string _gen_tablet_dir(const string& dir, int16_t shard_id, int64_t tablet_id) {
467
91
    string path = dir;
468
91
    path = path_util::join_path_segments(path, DATA_PREFIX);
469
91
    path = path_util::join_path_segments(path, std::to_string(shard_id));
470
91
    path = path_util::join_path_segments(path, std::to_string(tablet_id));
471
91
    return path;
472
91
}
473
474
TabletSharedPtr TabletManager::_create_tablet_meta_and_dir_unlocked(
475
        const TCreateTabletReq& request, const bool is_schema_change, const Tablet* base_tablet,
476
91
        const std::vector<DataDir*>& data_dirs, RuntimeProfile* profile) {
477
91
    string pending_id = StrCat(TABLET_ID_PREFIX, request.tablet_id);
478
    // Many attempts are made here in the hope that even if a disk fails, it can still continue.
479
91
    std::string parent_timer_name = "CreateMeta";
480
91
    MonotonicStopWatch watch;
481
91
    watch.start();
482
91
    for (auto& data_dir : data_dirs) {
483
91
        COUNTER_UPDATE(ADD_CHILD_TIMER(profile, "RemovePendingIds", parent_timer_name),
484
91
                       static_cast<int64_t>(watch.reset()));
485
486
91
        TabletMetaSharedPtr tablet_meta;
487
        // if create meta failed, do not need to clean dir, because it is only in memory
488
91
        Status res = _create_tablet_meta_unlocked(request, data_dir, is_schema_change, base_tablet,
489
91
                                                  &tablet_meta);
490
91
        COUNTER_UPDATE(ADD_CHILD_TIMER(profile, "CreateMetaUnlock", parent_timer_name),
491
91
                       static_cast<int64_t>(watch.reset()));
492
91
        if (!res.ok()) {
493
0
            LOG(WARNING) << "fail to create tablet meta. res=" << res
494
0
                         << ", root=" << data_dir->path();
495
0
            continue;
496
0
        }
497
498
91
        string tablet_dir =
499
91
                _gen_tablet_dir(data_dir->path(), tablet_meta->shard_id(), request.tablet_id);
500
91
        string schema_hash_dir = path_util::join_path_segments(
501
91
                tablet_dir, std::to_string(request.tablet_schema.schema_hash));
502
503
        // Because the tablet is removed asynchronously, so that the dir may still exist when BE
504
        // receive create-tablet request again, For example retried schema-change request
505
91
        bool exists = true;
506
91
        res = io::global_local_filesystem()->exists(schema_hash_dir, &exists);
507
91
        if (!res.ok()) {
508
0
            continue;
509
0
        }
510
91
        if (exists) {
511
0
            LOG(WARNING) << "skip this dir because tablet path exist, path=" << schema_hash_dir;
512
0
            continue;
513
91
        } else {
514
91
            Status st = io::global_local_filesystem()->create_directory(schema_hash_dir);
515
91
            if (!st.ok()) {
516
0
                continue;
517
0
            }
518
91
        }
519
520
91
        if (tablet_meta->partition_id() <= 0) {
521
26
            LOG(WARNING) << "invalid partition id " << tablet_meta->partition_id() << ", tablet "
522
26
                         << tablet_meta->tablet_id();
523
26
        }
524
91
        TabletSharedPtr new_tablet =
525
91
                std::make_shared<Tablet>(_engine, std::move(tablet_meta), data_dir);
526
91
        COUNTER_UPDATE(ADD_CHILD_TIMER(profile, "CreateTabletFromMeta", parent_timer_name),
527
91
                       static_cast<int64_t>(watch.reset()));
528
91
        return new_tablet;
529
91
    }
530
0
    return nullptr;
531
91
}
532
533
Status TabletManager::drop_tablet(TTabletId tablet_id, TReplicaId replica_id,
534
45
                                  bool is_drop_table_or_partition) {
535
45
    return _drop_tablet(tablet_id, replica_id, false, is_drop_table_or_partition, false);
536
45
}
537
538
// Drop specified tablet.
539
Status TabletManager::_drop_tablet(TTabletId tablet_id, TReplicaId replica_id, bool keep_files,
540
47
                                   bool is_drop_table_or_partition, bool had_held_shard_lock) {
541
47
    LOG(INFO) << "begin drop tablet. tablet_id=" << tablet_id << ", replica_id=" << replica_id
542
47
              << ", is_drop_table_or_partition=" << is_drop_table_or_partition;
543
47
    DorisMetrics::instance()->drop_tablet_requests_total->increment(1);
544
545
47
    RETURN_IF_ERROR(register_transition_tablet(tablet_id, "drop tablet"));
546
47
    Defer defer {[&]() { unregister_transition_tablet(tablet_id, "drop tablet"); }};
547
548
    // Fetch tablet which need to be dropped
549
47
    TabletSharedPtr to_drop_tablet;
550
47
    {
551
47
        std::unique_lock<std::shared_mutex> wlock(_get_tablets_shard_lock(tablet_id),
552
47
                                                  std::defer_lock);
553
47
        if (!had_held_shard_lock) {
554
45
            wlock.lock();
555
45
        }
556
47
        to_drop_tablet = _get_tablet_unlocked(tablet_id);
557
47
        if (to_drop_tablet == nullptr) {
558
1
            LOG(WARNING) << "fail to drop tablet because it does not exist. "
559
1
                         << "tablet_id=" << tablet_id;
560
1
            return Status::OK();
561
1
        }
562
563
        // We should compare replica id to avoid dropping new cloned tablet.
564
        // Iff request replica id is 0, FE may be an older release, then we drop this tablet as before.
565
46
        if (to_drop_tablet->replica_id() != replica_id && replica_id != 0) {
566
0
            return Status::Aborted("replica_id not match({} vs {})", to_drop_tablet->replica_id(),
567
0
                                   replica_id);
568
0
        }
569
570
46
        _remove_tablet_from_partition(to_drop_tablet);
571
46
        tablet_map_t& tablet_map = _get_tablet_map(tablet_id);
572
46
        tablet_map.erase(tablet_id);
573
46
    }
574
575
0
    to_drop_tablet->clear_cache();
576
577
46
    if (!keep_files) {
578
        // drop tablet will update tablet meta, should lock
579
46
        std::lock_guard<std::shared_mutex> wrlock(to_drop_tablet->get_header_lock());
580
46
        SCOPED_SIMPLE_TRACE_IF_TIMEOUT(TRACE_TABLET_LOCK_THRESHOLD);
581
46
        LOG(INFO) << "set tablet to shutdown state and remove it from memory. "
582
46
                  << "tablet_id=" << tablet_id << ", tablet_path=" << to_drop_tablet->tablet_path();
583
        // NOTE: has to update tablet here, but must not update tablet meta directly.
584
        // because other thread may hold the tablet object, they may save meta too.
585
        // If update meta directly here, other thread may override the meta
586
        // and the tablet will be loaded at restart time.
587
        // To avoid this exception, we first set the state of the tablet to `SHUTDOWN`.
588
46
        RETURN_IF_ERROR(to_drop_tablet->set_tablet_state(TABLET_SHUTDOWN));
589
        // We must record unused remote rowsets path info to OlapMeta before tablet state is marked as TABLET_SHUTDOWN in OlapMeta,
590
        // otherwise if BE shutdown after saving tablet state, these remote rowsets path info will lost.
591
46
        if (is_drop_table_or_partition) {
592
0
            RETURN_IF_ERROR(to_drop_tablet->remove_all_remote_rowsets());
593
0
        }
594
46
        to_drop_tablet->save_meta();
595
46
        {
596
46
            std::lock_guard<std::shared_mutex> wrdlock(_shutdown_tablets_lock);
597
46
            _shutdown_tablets.push_back(to_drop_tablet);
598
46
        }
599
46
    }
600
601
46
    to_drop_tablet->deregister_tablet_from_dir();
602
46
    _tablet_meta_mem_tracker->release(to_drop_tablet->tablet_meta()->mem_size() * 2);
603
46
    g_tablet_meta_schema_columns_count << -to_drop_tablet->tablet_meta()->tablet_columns_num();
604
46
    return Status::OK();
605
46
}
606
607
2.26k
TabletSharedPtr TabletManager::get_tablet(TTabletId tablet_id, bool include_deleted, string* err) {
608
2.26k
    std::shared_lock rdlock(_get_tablets_shard_lock(tablet_id));
609
2.26k
    return _get_tablet_unlocked(tablet_id, include_deleted, err);
610
2.26k
}
611
612
0
std::vector<TabletSharedPtr> TabletManager::get_all_tablet(std::function<bool(Tablet*)>&& filter) {
613
0
    std::vector<TabletSharedPtr> res;
614
0
    for_each_tablet([&](const TabletSharedPtr& tablet) { res.emplace_back(tablet); },
615
0
                    std::move(filter));
616
0
    return res;
617
0
}
618
619
void TabletManager::for_each_tablet(std::function<void(const TabletSharedPtr&)>&& handler,
620
8
                                    std::function<bool(Tablet*)>&& filter) {
621
8
    std::vector<TabletSharedPtr> tablets;
622
8
    for (const auto& tablets_shard : _tablets_shards) {
623
8
        tablets.clear();
624
8
        {
625
8
            std::shared_lock rdlock(tablets_shard.lock);
626
52
            for (const auto& [id, tablet] : tablets_shard.tablet_map) {
627
52
                if (filter(tablet.get())) {
628
52
                    tablets.emplace_back(tablet);
629
52
                }
630
52
            }
631
8
        }
632
52
        for (const auto& tablet : tablets) {
633
52
            handler(tablet);
634
52
        }
635
8
    }
636
8
}
637
638
TabletSharedPtr TabletManager::_get_tablet_unlocked(TTabletId tablet_id, bool include_deleted,
639
2.26k
                                                    string* err) {
640
2.26k
    TabletSharedPtr tablet;
641
2.26k
    tablet = _get_tablet_unlocked(tablet_id);
642
2.26k
    if (tablet == nullptr && include_deleted) {
643
4
        std::shared_lock rdlock(_shutdown_tablets_lock);
644
4
        for (auto& deleted_tablet : _shutdown_tablets) {
645
2
            CHECK(deleted_tablet != nullptr) << "deleted tablet is nullptr";
646
2
            if (deleted_tablet->tablet_id() == tablet_id) {
647
2
                tablet = deleted_tablet;
648
2
                break;
649
2
            }
650
2
        }
651
4
    }
652
653
2.26k
    if (tablet == nullptr) {
654
37
        if (err != nullptr) {
655
1
            *err = "tablet does not exist. " + BackendOptions::get_localhost();
656
1
        }
657
37
        return nullptr;
658
37
    }
659
#ifndef BE_TEST
660
    if (!tablet->is_used()) {
661
        LOG(WARNING) << "tablet cannot be used. tablet=" << tablet_id;
662
        if (err != nullptr) {
663
            *err = "tablet cannot be used. " + BackendOptions::get_localhost();
664
        }
665
        return nullptr;
666
    }
667
#endif
668
669
2.23k
    return tablet;
670
2.26k
}
671
672
TabletSharedPtr TabletManager::get_tablet(TTabletId tablet_id, TabletUid tablet_uid,
673
0
                                          bool include_deleted, string* err) {
674
0
    std::shared_lock rdlock(_get_tablets_shard_lock(tablet_id));
675
0
    TabletSharedPtr tablet = _get_tablet_unlocked(tablet_id, include_deleted, err);
676
0
    if (tablet != nullptr && tablet->tablet_uid() == tablet_uid) {
677
0
        return tablet;
678
0
    }
679
0
    return nullptr;
680
0
}
681
682
0
uint64_t TabletManager::get_rowset_nums() {
683
0
    uint64_t rowset_nums = 0;
684
0
    for_each_tablet([&](const TabletSharedPtr& tablet) { rowset_nums += tablet->version_count(); },
685
0
                    filter_all_tablets);
686
0
    return rowset_nums;
687
0
}
688
689
0
uint64_t TabletManager::get_segment_nums() {
690
0
    uint64_t segment_nums = 0;
691
0
    for_each_tablet([&](const TabletSharedPtr& tablet) { segment_nums += tablet->segment_count(); },
692
0
                    filter_all_tablets);
693
0
    return segment_nums;
694
0
}
695
696
bool TabletManager::get_tablet_id_and_schema_hash_from_path(const string& path,
697
                                                            TTabletId* tablet_id,
698
37
                                                            TSchemaHash* schema_hash) {
699
    // the path like: /data/14/10080/964828783/
700
37
    static re2::RE2 normal_re("/data/\\d+/(\\d+)/(\\d+)($|/)");
701
    // match tablet schema hash data path, for example, the path is /data/1/16791/29998
702
    // 1 is shard id , 16791 is tablet id, 29998 is schema hash
703
37
    if (RE2::PartialMatch(path, normal_re, tablet_id, schema_hash)) {
704
33
        return true;
705
33
    }
706
707
    // If we can't match normal path pattern, this may be a path which is a empty tablet
708
    // directory. Use this pattern to match empty tablet directory. In this case schema_hash
709
    // will be set to zero.
710
4
    static re2::RE2 empty_tablet_re("/data/\\d+/(\\d+)($|/$)");
711
4
    if (!RE2::PartialMatch(path, empty_tablet_re, tablet_id)) {
712
2
        return false;
713
2
    }
714
2
    *schema_hash = 0;
715
2
    return true;
716
4
}
717
718
3
bool TabletManager::get_rowset_id_from_path(const string& path, RowsetId* rowset_id) {
719
    // the path like: /data/14/10080/964828783/02000000000000969144d8725cb62765f9af6cd3125d5a91_0.dat
720
3
    static re2::RE2 re("/data/\\d+/\\d+/\\d+/([A-Fa-f0-9]+)_.*");
721
3
    string id_str;
722
3
    bool ret = RE2::PartialMatch(path, re, &id_str);
723
3
    if (ret) {
724
1
        rowset_id->init(id_str);
725
1
        return true;
726
1
    }
727
2
    return false;
728
3
}
729
730
0
void TabletManager::get_tablet_stat(TTabletStatResult* result) {
731
0
    std::shared_ptr<std::vector<TTabletStat>> local_cache;
732
0
    {
733
0
        std::lock_guard<std::mutex> guard(_tablet_stat_cache_mutex);
734
0
        local_cache = _tablet_stat_list_cache;
735
0
    }
736
0
    result->__set_tablet_stat_list(*local_cache);
737
0
}
738
739
std::vector<TabletSharedPtr> TabletManager::find_best_tablets_to_compaction(
740
        CompactionType compaction_type, DataDir* data_dir,
741
        const std::unordered_set<TabletSharedPtr>& tablet_submitted_compaction, uint32_t* score,
742
        const std::unordered_map<std::string_view, std::shared_ptr<CumulativeCompactionPolicy>>&
743
3
                all_cumulative_compaction_policies) {
744
3
    int64_t now_ms = UnixMillis();
745
3
    const string& compaction_type_str =
746
3
            compaction_type == CompactionType::BASE_COMPACTION ? "base" : "cumulative";
747
3
    uint32_t highest_score = 0;
748
    // find the single compaction tablet
749
3
    uint32_t single_compact_highest_score = 0;
750
3
    TabletSharedPtr best_tablet;
751
3
    TabletSharedPtr best_single_compact_tablet;
752
51
    auto handler = [&](const TabletSharedPtr& tablet_ptr) {
753
51
        if (tablet_ptr->tablet_meta()->tablet_schema()->disable_auto_compaction()) {
754
0
            LOG_EVERY_N(INFO, 500) << "Tablet " << tablet_ptr->tablet_id()
755
0
                                   << " will be ignored by automatic compaction tasks since it's "
756
0
                                   << "set to disabled automatic compaction.";
757
0
            return;
758
0
        }
759
760
51
        if (config::enable_skip_tablet_compaction &&
761
51
            tablet_ptr->should_skip_compaction(compaction_type, UnixSeconds())) {
762
0
            return;
763
0
        }
764
51
        if (!tablet_ptr->can_do_compaction(data_dir->path_hash(), compaction_type)) {
765
0
            return;
766
0
        }
767
768
51
        auto search = tablet_submitted_compaction.find(tablet_ptr);
769
51
        if (search != tablet_submitted_compaction.end()) {
770
0
            return;
771
0
        }
772
773
51
        int64_t last_failure_ms = tablet_ptr->last_cumu_compaction_failure_time();
774
51
        if (compaction_type == CompactionType::BASE_COMPACTION) {
775
0
            last_failure_ms = tablet_ptr->last_base_compaction_failure_time();
776
0
        }
777
51
        if (now_ms - last_failure_ms <= 5000) {
778
0
            VLOG_DEBUG << "Too often to check compaction, skip it. "
779
0
                       << "compaction_type=" << compaction_type_str
780
0
                       << ", last_failure_time_ms=" << last_failure_ms
781
0
                       << ", tablet_id=" << tablet_ptr->tablet_id();
782
0
            return;
783
0
        }
784
785
51
        if (compaction_type == CompactionType::BASE_COMPACTION) {
786
0
            std::unique_lock<std::mutex> lock(tablet_ptr->get_base_compaction_lock(),
787
0
                                              std::try_to_lock);
788
0
            if (!lock.owns_lock()) {
789
0
                LOG(INFO) << "can not get base lock: " << tablet_ptr->tablet_id();
790
0
                return;
791
0
            }
792
51
        } else {
793
51
            std::unique_lock<std::mutex> lock(tablet_ptr->get_cumulative_compaction_lock(),
794
51
                                              std::try_to_lock);
795
51
            if (!lock.owns_lock()) {
796
0
                LOG(INFO) << "can not get cumu lock: " << tablet_ptr->tablet_id();
797
0
                return;
798
0
            }
799
51
        }
800
51
        auto cumulative_compaction_policy = all_cumulative_compaction_policies.at(
801
51
                tablet_ptr->tablet_meta()->compaction_policy());
802
51
        uint32_t current_compaction_score = tablet_ptr->calc_compaction_score();
803
51
        if (current_compaction_score < 5) {
804
0
            tablet_ptr->set_skip_compaction(true, compaction_type, UnixSeconds());
805
0
        }
806
807
        // tablet should do single compaction
808
51
        if (current_compaction_score > single_compact_highest_score &&
809
51
            tablet_ptr->should_fetch_from_peer()) {
810
2
            bool ret = tablet_ptr->suitable_for_compaction(compaction_type,
811
2
                                                           cumulative_compaction_policy);
812
2
            if (ret) {
813
2
                single_compact_highest_score = current_compaction_score;
814
2
                best_single_compact_tablet = tablet_ptr;
815
2
            }
816
2
        }
817
818
        // tablet should do cumu or base compaction
819
51
        if (current_compaction_score > highest_score && !tablet_ptr->should_fetch_from_peer()) {
820
3
            bool ret = tablet_ptr->suitable_for_compaction(compaction_type,
821
3
                                                           cumulative_compaction_policy);
822
3
            if (ret) {
823
3
                highest_score = current_compaction_score;
824
3
                best_tablet = tablet_ptr;
825
3
            }
826
3
        }
827
51
    };
828
829
3
    for_each_tablet(handler, filter_all_tablets);
830
3
    std::vector<TabletSharedPtr> picked_tablet;
831
3
    if (best_tablet != nullptr) {
832
3
        VLOG_CRITICAL << "Found the best tablet for compaction. "
833
0
                      << "compaction_type=" << compaction_type_str
834
0
                      << ", tablet_id=" << best_tablet->tablet_id() << ", path=" << data_dir->path()
835
0
                      << ", highest_score=" << highest_score
836
0
                      << ", fetch from peer: " << best_tablet->should_fetch_from_peer();
837
3
        picked_tablet.emplace_back(std::move(best_tablet));
838
3
    }
839
840
    // pick single compaction tablet needs the highest score
841
3
    if (best_single_compact_tablet != nullptr && single_compact_highest_score >= highest_score) {
842
1
        VLOG_CRITICAL << "Found the best tablet for single compaction. "
843
0
                      << "compaction_type=" << compaction_type_str
844
0
                      << ", tablet_id=" << best_single_compact_tablet->tablet_id()
845
0
                      << ", path=" << data_dir->path()
846
0
                      << ", highest_score=" << single_compact_highest_score << ", fetch from peer: "
847
0
                      << best_single_compact_tablet->should_fetch_from_peer();
848
1
        picked_tablet.emplace_back(std::move(best_single_compact_tablet));
849
1
    }
850
3
    *score = highest_score > single_compact_highest_score ? highest_score
851
3
                                                          : single_compact_highest_score;
852
3
    return picked_tablet;
853
3
}
854
855
Status TabletManager::load_tablet_from_meta(DataDir* data_dir, TTabletId tablet_id,
856
                                            TSchemaHash schema_hash, std::string_view meta_binary,
857
                                            bool update_meta, bool force, bool restore,
858
2
                                            bool check_path) {
859
2
    TabletMetaSharedPtr tablet_meta(new TabletMeta());
860
2
    Status status = tablet_meta->deserialize(meta_binary);
861
2
    if (!status.ok()) {
862
0
        return Status::Error<HEADER_PB_PARSE_FAILED>(
863
0
                "fail to load tablet because can not parse meta_binary string. tablet_id={}, "
864
0
                "schema_hash={}, path={}, status={}",
865
0
                tablet_id, schema_hash, data_dir->path(), status);
866
0
    }
867
868
    // check if tablet meta is valid
869
2
    if (tablet_meta->tablet_id() != tablet_id || tablet_meta->schema_hash() != schema_hash) {
870
0
        return Status::Error<HEADER_PB_PARSE_FAILED>(
871
0
                "fail to load tablet because meet invalid tablet meta. trying to load "
872
0
                "tablet(tablet_id={}, schema_hash={}), but meet tablet={}, path={}",
873
0
                tablet_id, schema_hash, tablet_meta->tablet_id(), data_dir->path());
874
0
    }
875
2
    if (tablet_meta->tablet_uid().hi == 0 && tablet_meta->tablet_uid().lo == 0) {
876
0
        return Status::Error<HEADER_PB_PARSE_FAILED>(
877
0
                "fail to load tablet because its uid == 0. tablet={}, path={}",
878
0
                tablet_meta->tablet_id(), data_dir->path());
879
0
    }
880
881
2
    if (restore) {
882
        // we're restoring tablet from trash, tablet state should be changed from shutdown back to running
883
0
        tablet_meta->set_tablet_state(TABLET_RUNNING);
884
0
    }
885
886
2
    if (tablet_meta->partition_id() == 0) {
887
0
        LOG(WARNING) << "tablet=" << tablet_id << " load from meta but partition id eq 0";
888
0
    }
889
890
2
    TabletSharedPtr tablet = std::make_shared<Tablet>(_engine, std::move(tablet_meta), data_dir);
891
892
    // NOTE: method load_tablet_from_meta could be called by two cases as below
893
    // case 1: BE start;
894
    // case 2: Clone Task/Restore
895
    // For case 1 doesn't need path check because BE is just starting and not ready,
896
    // just check tablet meta status to judge whether tablet is delete is enough.
897
    // For case 2, If a tablet has just been copied to local BE,
898
    // it may be cleared by gc-thread(see perform_tablet_gc) because the tablet meta may not be loaded to memory.
899
    // So clone task should check path and then failed and retry in this case.
900
2
    if (check_path) {
901
2
        bool exists = true;
902
2
        RETURN_IF_ERROR(io::global_local_filesystem()->exists(tablet->tablet_path(), &exists));
903
2
        if (!exists) {
904
0
            return Status::Error<TABLE_ALREADY_DELETED_ERROR>(
905
0
                    "tablet path not exists, create tablet failed, path={}", tablet->tablet_path());
906
0
        }
907
2
    }
908
909
2
    if (tablet->tablet_meta()->tablet_state() == TABLET_SHUTDOWN) {
910
0
        {
911
0
            std::lock_guard<std::shared_mutex> shutdown_tablets_wrlock(_shutdown_tablets_lock);
912
0
            _shutdown_tablets.push_back(tablet);
913
0
        }
914
0
        return Status::Error<TABLE_ALREADY_DELETED_ERROR>(
915
0
                "fail to load tablet because it is to be deleted. tablet_id={}, schema_hash={}, "
916
0
                "path={}",
917
0
                tablet_id, schema_hash, data_dir->path());
918
0
    }
919
    // NOTE: We do not check tablet's initial version here, because if BE restarts when
920
    // one tablet is doing schema-change, we may meet empty tablet.
921
2
    if (tablet->max_version().first == -1 && tablet->tablet_state() == TABLET_RUNNING) {
922
        // tablet state is invalid, drop tablet
923
0
        return Status::Error<TABLE_INDEX_VALIDATE_ERROR>(
924
0
                "fail to load tablet. it is in running state but without delta. tablet={}, path={}",
925
0
                tablet->tablet_id(), data_dir->path());
926
0
    }
927
928
2
    RETURN_NOT_OK_STATUS_WITH_WARN(
929
2
            tablet->init(),
930
2
            strings::Substitute("tablet init failed. tablet=$0", tablet->tablet_id()));
931
932
2
    RuntimeProfile profile("CreateTablet");
933
2
    std::lock_guard<std::shared_mutex> wrlock(_get_tablets_shard_lock(tablet_id));
934
2
    RETURN_NOT_OK_STATUS_WITH_WARN(
935
2
            _add_tablet_unlocked(tablet_id, tablet, update_meta, force, &profile),
936
2
            strings::Substitute("fail to add tablet. tablet=$0", tablet->tablet_id()));
937
938
2
    return Status::OK();
939
2
}
940
941
Status TabletManager::load_tablet_from_dir(DataDir* store, TTabletId tablet_id,
942
                                           SchemaHash schema_hash, const string& schema_hash_path,
943
2
                                           bool force, bool restore) {
944
2
    LOG(INFO) << "begin to load tablet from dir. "
945
2
              << " tablet_id=" << tablet_id << " schema_hash=" << schema_hash
946
2
              << " path = " << schema_hash_path << " force = " << force << " restore = " << restore;
947
    // not add lock here, because load_tablet_from_meta already add lock
948
2
    std::string header_path = TabletMeta::construct_header_file_path(schema_hash_path, tablet_id);
949
    // should change shard id before load tablet
950
2
    std::string shard_path =
951
2
            path_util::dir_name(path_util::dir_name(path_util::dir_name(header_path)));
952
2
    std::string shard_str = shard_path.substr(shard_path.find_last_of('/') + 1);
953
2
    int32_t shard = stol(shard_str);
954
955
2
    bool exists = false;
956
2
    RETURN_IF_ERROR(io::global_local_filesystem()->exists(header_path, &exists));
957
2
    if (!exists) {
958
0
        return Status::Error<NOT_FOUND>("fail to find header file. [header_path={}]", header_path);
959
0
    }
960
961
2
    TabletMetaSharedPtr tablet_meta(new TabletMeta());
962
2
    if (!tablet_meta->create_from_file(header_path).ok()) {
963
0
        return Status::Error<ENGINE_LOAD_INDEX_TABLE_ERROR>(
964
0
                "fail to load tablet_meta. file_path={}", header_path);
965
0
    }
966
2
    TabletUid tablet_uid = TabletUid::gen_uid();
967
968
    // remove rowset binlog metas
969
2
    auto binlog_metas_file = fmt::format("{}/rowset_binlog_metas.pb", schema_hash_path);
970
2
    bool binlog_metas_file_exists = false;
971
2
    auto file_exists_status =
972
2
            io::global_local_filesystem()->exists(binlog_metas_file, &binlog_metas_file_exists);
973
2
    if (!file_exists_status.ok()) {
974
0
        return file_exists_status;
975
0
    }
976
2
    bool contain_binlog = false;
977
2
    RowsetBinlogMetasPB rowset_binlog_metas_pb;
978
2
    if (binlog_metas_file_exists) {
979
0
        auto binlog_meta_filesize = std::filesystem::file_size(binlog_metas_file);
980
0
        if (binlog_meta_filesize > 0) {
981
0
            contain_binlog = true;
982
0
            RETURN_IF_ERROR(read_pb(binlog_metas_file, &rowset_binlog_metas_pb));
983
0
            VLOG_DEBUG << "load rowset binlog metas from file. file_path=" << binlog_metas_file;
984
0
        }
985
0
        RETURN_IF_ERROR(io::global_local_filesystem()->delete_file(binlog_metas_file));
986
0
    }
987
2
    if (contain_binlog) {
988
0
        auto binlog_dir = fmt::format("{}/_binlog", schema_hash_path);
989
0
        RETURN_IF_ERROR(io::global_local_filesystem()->create_directory(binlog_dir));
990
991
0
        std::vector<io::FileInfo> files;
992
0
        RETURN_IF_ERROR(
993
0
                io::global_local_filesystem()->list(schema_hash_path, true, &files, &exists));
994
0
        for (auto& file : files) {
995
0
            auto& filename = file.file_name;
996
0
            std::string new_suffix;
997
0
            std::string old_suffix;
998
999
0
            if (filename.ends_with(".binlog")) {
1000
0
                old_suffix = ".binlog";
1001
0
                new_suffix = ".dat";
1002
0
            } else if (filename.ends_with(".binlog-index")) {
1003
0
                old_suffix = ".binlog-index";
1004
0
                new_suffix = ".idx";
1005
0
            } else {
1006
0
                continue;
1007
0
            }
1008
1009
0
            std::string new_filename = filename;
1010
0
            new_filename.replace(filename.size() - old_suffix.size(), old_suffix.size(),
1011
0
                                 new_suffix);
1012
0
            auto from = fmt::format("{}/{}", schema_hash_path, filename);
1013
0
            auto to = fmt::format("{}/_binlog/{}", schema_hash_path, new_filename);
1014
0
            RETURN_IF_ERROR(io::global_local_filesystem()->rename(from, to));
1015
0
        }
1016
1017
0
        auto* meta = store->get_meta();
1018
        // if ingest binlog metas error, it will be gc in gc_unused_binlog_metas
1019
0
        RETURN_IF_ERROR(
1020
0
                RowsetMetaManager::ingest_binlog_metas(meta, tablet_uid, &rowset_binlog_metas_pb));
1021
0
    }
1022
1023
    // has to change shard id here, because meta file maybe copied from other source
1024
    // its shard is different from local shard
1025
2
    tablet_meta->set_shard_id(shard);
1026
    // load dir is called by clone, restore, storage migration
1027
    // should change tablet uid when tablet object changed
1028
2
    tablet_meta->set_tablet_uid(std::move(tablet_uid));
1029
2
    std::string meta_binary;
1030
2
    tablet_meta->serialize(&meta_binary);
1031
2
    RETURN_NOT_OK_STATUS_WITH_WARN(
1032
2
            load_tablet_from_meta(store, tablet_id, schema_hash, meta_binary, true, force, restore,
1033
2
                                  true),
1034
2
            strings::Substitute("fail to load tablet. header_path=$0", header_path));
1035
1036
2
    return Status::OK();
1037
2
}
1038
1039
0
Status TabletManager::report_tablet_info(TTabletInfo* tablet_info) {
1040
0
    LOG(INFO) << "begin to process report tablet info."
1041
0
              << "tablet_id=" << tablet_info->tablet_id;
1042
1043
0
    Status res = Status::OK();
1044
1045
0
    TabletSharedPtr tablet = get_tablet(tablet_info->tablet_id);
1046
0
    if (tablet == nullptr) {
1047
0
        return Status::Error<TABLE_NOT_FOUND>("can't find tablet={}", tablet_info->tablet_id);
1048
0
    }
1049
1050
0
    tablet->build_tablet_report_info(tablet_info);
1051
0
    VLOG_TRACE << "success to process report tablet info.";
1052
0
    return res;
1053
0
}
1054
1055
0
void TabletManager::build_all_report_tablets_info(std::map<TTabletId, TTablet>* tablets_info) {
1056
0
    DCHECK(tablets_info != nullptr);
1057
0
    VLOG_NOTICE << "begin to build all report tablets info";
1058
1059
    // build the expired txn map first, outside the tablet map lock
1060
0
    std::map<TabletInfo, std::vector<int64_t>> expire_txn_map;
1061
0
    _engine.txn_manager()->build_expire_txn_map(&expire_txn_map);
1062
0
    LOG(INFO) << "find expired transactions for " << expire_txn_map.size() << " tablets";
1063
1064
0
    HistogramStat tablet_version_num_hist;
1065
0
    auto local_cache = std::make_shared<std::vector<TTabletStat>>();
1066
0
    auto handler = [&](const TabletSharedPtr& tablet) {
1067
0
        auto& t_tablet = (*tablets_info)[tablet->tablet_id()];
1068
0
        TTabletInfo& tablet_info = t_tablet.tablet_infos.emplace_back();
1069
0
        tablet->build_tablet_report_info(&tablet_info, true, true);
1070
        // find expired transaction corresponding to this tablet
1071
0
        TabletInfo tinfo(tablet->tablet_id(), tablet->tablet_uid());
1072
0
        auto find = expire_txn_map.find(tinfo);
1073
0
        if (find != expire_txn_map.end()) {
1074
0
            tablet_info.__set_transaction_ids(find->second);
1075
0
            expire_txn_map.erase(find);
1076
0
        }
1077
0
        tablet_version_num_hist.add(tablet_info.total_version_count);
1078
0
        auto& t_tablet_stat = local_cache->emplace_back();
1079
0
        t_tablet_stat.__set_tablet_id(tablet_info.tablet_id);
1080
0
        t_tablet_stat.__set_data_size(tablet_info.data_size);
1081
0
        t_tablet_stat.__set_remote_data_size(tablet_info.remote_data_size);
1082
0
        t_tablet_stat.__set_row_count(tablet_info.row_count);
1083
0
        t_tablet_stat.__set_total_version_count(tablet_info.total_version_count);
1084
0
        t_tablet_stat.__set_visible_version_count(tablet_info.visible_version_count);
1085
0
        t_tablet_stat.__set_visible_version(tablet_info.version);
1086
0
    };
1087
0
    for_each_tablet(handler, filter_all_tablets);
1088
1089
0
    {
1090
0
        std::lock_guard<std::mutex> guard(_tablet_stat_cache_mutex);
1091
0
        _tablet_stat_list_cache.swap(local_cache);
1092
0
    }
1093
0
    DorisMetrics::instance()->tablet_version_num_distribution->set_histogram(
1094
0
            tablet_version_num_hist);
1095
0
    LOG(INFO) << "success to build all report tablets info. tablet_count=" << tablets_info->size();
1096
0
}
1097
1098
5
Status TabletManager::start_trash_sweep() {
1099
5
    DBUG_EXECUTE_IF("TabletManager.start_trash_sweep.sleep", DBUG_BLOCK);
1100
5
    std::unique_lock<std::mutex> lock(_gc_tablets_lock, std::defer_lock);
1101
5
    if (!lock.try_lock()) {
1102
0
        return Status::OK();
1103
0
    }
1104
1105
5
    for_each_tablet([](const TabletSharedPtr& tablet) { tablet->delete_expired_stale_rowset(); },
1106
5
                    filter_all_tablets);
1107
1108
5
    std::list<TabletSharedPtr>::iterator last_it;
1109
5
    {
1110
5
        std::shared_lock rdlock(_shutdown_tablets_lock);
1111
5
        last_it = _shutdown_tablets.begin();
1112
5
        if (last_it == _shutdown_tablets.end()) {
1113
0
            return Status::OK();
1114
0
        }
1115
5
    }
1116
1117
9
    auto get_batch_tablets = [this, &last_it](int limit) {
1118
9
        std::vector<TabletSharedPtr> batch_tablets;
1119
9
        std::lock_guard<std::shared_mutex> wrdlock(_shutdown_tablets_lock);
1120
33
        while (last_it != _shutdown_tablets.end() && batch_tablets.size() < limit) {
1121
            // it means current tablet is referenced by other thread
1122
24
            if (last_it->use_count() > 1) {
1123
1
                last_it++;
1124
23
            } else {
1125
23
                batch_tablets.push_back(*last_it);
1126
23
                last_it = _shutdown_tablets.erase(last_it);
1127
23
            }
1128
24
        }
1129
1130
9
        return batch_tablets;
1131
9
    };
1132
1133
5
    std::list<TabletSharedPtr> failed_tablets;
1134
    // return true if need continue delete
1135
5
    auto delete_one_batch = [this, get_batch_tablets, &failed_tablets]() -> bool {
1136
5
        int limit = 200;
1137
9
        for (;;) {
1138
9
            auto batch_tablets = get_batch_tablets(limit);
1139
23
            for (const auto& tablet : batch_tablets) {
1140
23
                if (_move_tablet_to_trash(tablet)) {
1141
23
                    limit--;
1142
23
                } else {
1143
0
                    failed_tablets.push_back(tablet);
1144
0
                }
1145
23
            }
1146
9
            if (limit <= 0) {
1147
0
                return true;
1148
0
            }
1149
9
            if (batch_tablets.empty()) {
1150
5
                return false;
1151
5
            }
1152
9
        }
1153
1154
0
        return false;
1155
5
    };
1156
1157
5
    while (delete_one_batch()) {
1158
#ifndef BE_TEST
1159
        sleep(1);
1160
#endif
1161
0
    }
1162
1163
5
    if (!failed_tablets.empty()) {
1164
0
        std::lock_guard<std::shared_mutex> wrlock(_shutdown_tablets_lock);
1165
0
        _shutdown_tablets.splice(_shutdown_tablets.end(), failed_tablets);
1166
0
    }
1167
1168
5
    return Status::OK();
1169
5
}
1170
1171
23
bool TabletManager::_move_tablet_to_trash(const TabletSharedPtr& tablet) {
1172
23
    RETURN_IF_ERROR(register_transition_tablet(tablet->tablet_id(), "move to trash"));
1173
23
    Defer defer {[&]() { unregister_transition_tablet(tablet->tablet_id(), "move to trash"); }};
1174
1175
23
    TabletSharedPtr tablet_in_not_shutdown = get_tablet(tablet->tablet_id());
1176
23
    if (tablet_in_not_shutdown) {
1177
0
        TSchemaHash schema_hash_not_shutdown = tablet_in_not_shutdown->schema_hash();
1178
0
        size_t path_hash_not_shutdown = tablet_in_not_shutdown->data_dir()->path_hash();
1179
0
        if (tablet->schema_hash() == schema_hash_not_shutdown &&
1180
0
            tablet->data_dir()->path_hash() == path_hash_not_shutdown) {
1181
0
            tablet->clear_cache();
1182
            // shard_id in memory not eq shard_id in shutdown
1183
0
            if (tablet_in_not_shutdown->tablet_path() != tablet->tablet_path()) {
1184
0
                LOG(INFO) << "tablet path not eq shutdown tablet path, move it to trash, tablet_id="
1185
0
                          << tablet_in_not_shutdown->tablet_id()
1186
0
                          << " mem manager tablet path=" << tablet_in_not_shutdown->tablet_path()
1187
0
                          << " shutdown tablet path=" << tablet->tablet_path();
1188
0
                return tablet->data_dir()->move_to_trash(tablet->tablet_path());
1189
0
            } else {
1190
0
                LOG(INFO) << "tablet path eq shutdown tablet path, not move to trash, tablet_id="
1191
0
                          << tablet_in_not_shutdown->tablet_id()
1192
0
                          << " mem manager tablet path=" << tablet_in_not_shutdown->tablet_path()
1193
0
                          << " shutdown tablet path=" << tablet->tablet_path();
1194
0
                return true;
1195
0
            }
1196
0
        }
1197
0
    }
1198
1199
23
    TabletMetaSharedPtr tablet_meta(new TabletMeta());
1200
23
    int64_t get_meta_ts = MonotonicMicros();
1201
23
    Status check_st = TabletMetaManager::get_meta(tablet->data_dir(), tablet->tablet_id(),
1202
23
                                                  tablet->schema_hash(), tablet_meta);
1203
23
    if (check_st.ok()) {
1204
23
        if (tablet_meta->tablet_state() != TABLET_SHUTDOWN ||
1205
23
            tablet_meta->tablet_uid() != tablet->tablet_uid()) {
1206
0
            LOG(WARNING) << "tablet's state changed to normal, skip remove dirs"
1207
0
                         << " tablet id = " << tablet_meta->tablet_id()
1208
0
                         << " schema hash = " << tablet_meta->schema_hash()
1209
0
                         << " old tablet_uid=" << tablet->tablet_uid()
1210
0
                         << " cur tablet_uid=" << tablet_meta->tablet_uid();
1211
0
            return true;
1212
0
        }
1213
1214
23
        tablet->clear_cache();
1215
1216
        // move data to trash
1217
23
        const auto& tablet_path = tablet->tablet_path();
1218
23
        bool exists = false;
1219
23
        Status exists_st = io::global_local_filesystem()->exists(tablet_path, &exists);
1220
23
        if (!exists_st) {
1221
0
            return false;
1222
0
        }
1223
23
        if (exists) {
1224
            // take snapshot of tablet meta
1225
23
            auto meta_file_path = fmt::format("{}/{}.hdr", tablet_path, tablet->tablet_id());
1226
23
            int64_t save_meta_ts = MonotonicMicros();
1227
23
            auto save_st = tablet->tablet_meta()->save(meta_file_path);
1228
23
            if (!save_st.ok()) {
1229
0
                LOG(WARNING) << "failed to save meta, tablet_id=" << tablet_meta->tablet_id()
1230
0
                             << ", tablet_uid=" << tablet_meta->tablet_uid()
1231
0
                             << ", error=" << save_st;
1232
0
                return false;
1233
0
            }
1234
23
            int64_t now = MonotonicMicros();
1235
23
            LOG(INFO) << "start to move tablet to trash. " << tablet_path
1236
23
                      << ". rocksdb get meta cost " << (save_meta_ts - get_meta_ts)
1237
23
                      << " us, rocksdb save meta cost " << (now - save_meta_ts) << " us";
1238
23
            Status rm_st = tablet->data_dir()->move_to_trash(tablet_path);
1239
23
            if (!rm_st.ok()) {
1240
0
                LOG(WARNING) << "fail to move dir to trash. " << tablet_path;
1241
0
                return false;
1242
0
            }
1243
23
        }
1244
        // remove tablet meta
1245
23
        auto remove_st = TabletMetaManager::remove(tablet->data_dir(), tablet->tablet_id(),
1246
23
                                                   tablet->schema_hash());
1247
23
        if (!remove_st.ok()) {
1248
0
            LOG(WARNING) << "failed to remove meta, tablet_id=" << tablet_meta->tablet_id()
1249
0
                         << ", tablet_uid=" << tablet_meta->tablet_uid() << ", error=" << remove_st;
1250
0
            return false;
1251
0
        }
1252
23
        LOG(INFO) << "successfully move tablet to trash. "
1253
23
                  << "tablet_id=" << tablet->tablet_id()
1254
23
                  << ", schema_hash=" << tablet->schema_hash() << ", tablet_path=" << tablet_path;
1255
23
        return true;
1256
23
    } else {
1257
0
        tablet->clear_cache();
1258
        // if could not find tablet info in meta store, then check if dir existed
1259
0
        const auto& tablet_path = tablet->tablet_path();
1260
0
        bool exists = false;
1261
0
        Status exists_st = io::global_local_filesystem()->exists(tablet_path, &exists);
1262
0
        if (!exists_st) {
1263
0
            return false;
1264
0
        }
1265
0
        if (exists) {
1266
0
            if (check_st.is<META_KEY_NOT_FOUND>()) {
1267
0
                LOG(INFO) << "could not find tablet meta in rocksdb, so just delete it path "
1268
0
                          << "tablet_id=" << tablet->tablet_id()
1269
0
                          << ", schema_hash=" << tablet->schema_hash()
1270
0
                          << ", delete tablet_path=" << tablet_path;
1271
0
                RETURN_IF_ERROR(io::global_local_filesystem()->delete_directory(tablet_path));
1272
0
                RETURN_IF_ERROR(DataDir::delete_tablet_parent_path_if_empty(tablet_path));
1273
0
                return true;
1274
0
            }
1275
0
            LOG(WARNING) << "errors while load meta from store, skip this tablet. "
1276
0
                         << "tablet_id=" << tablet->tablet_id()
1277
0
                         << ", schema_hash=" << tablet->schema_hash();
1278
0
            return false;
1279
0
        } else {
1280
0
            LOG(INFO) << "could not find tablet dir, skip it and remove it from gc-queue. "
1281
0
                      << "tablet_id=" << tablet->tablet_id()
1282
0
                      << ", schema_hash=" << tablet->schema_hash()
1283
0
                      << ", tablet_path=" << tablet_path;
1284
0
            return true;
1285
0
        }
1286
0
    }
1287
23
}
1288
1289
82
Status TabletManager::register_transition_tablet(int64_t tablet_id, std::string reason) {
1290
82
    tablets_shard& shard = _get_tablets_shard(tablet_id);
1291
82
    std::thread::id thread_id = std::this_thread::get_id();
1292
82
    std::lock_guard<std::mutex> lk(shard.lock_for_transition);
1293
82
    if (auto search = shard.tablets_under_transition.find(tablet_id);
1294
82
        search == shard.tablets_under_transition.end()) {
1295
        // not found
1296
80
        shard.tablets_under_transition[tablet_id] = std::make_tuple(reason, thread_id, 1);
1297
80
        LOG(INFO) << "add tablet_id= " << tablet_id << " to map, reason=" << reason
1298
80
                  << " lock times=1 thread_id_in_map=" << thread_id;
1299
80
        return Status::OK();
1300
80
    } else {
1301
        // found
1302
2
        auto& [r, thread_id_in_map, lock_times] = search->second;
1303
2
        if (thread_id != thread_id_in_map) {
1304
            // other thread, failed
1305
0
            LOG(INFO) << "tablet_id = " << tablet_id << " is doing " << r
1306
0
                      << " thread_id_in_map=" << thread_id_in_map << " , add reason=" << reason
1307
0
                      << " thread_id=" << thread_id;
1308
0
            return Status::InternalError<false>("{} failed try later, tablet_id={}", reason,
1309
0
                                                tablet_id);
1310
0
        }
1311
        // add lock times
1312
2
        ++lock_times;
1313
2
        LOG(INFO) << "add tablet_id= " << tablet_id << " to map, reason=" << reason
1314
2
                  << " lock times=" << lock_times << " thread_id_in_map=" << thread_id_in_map;
1315
2
        return Status::OK();
1316
2
    }
1317
82
}
1318
1319
82
void TabletManager::unregister_transition_tablet(int64_t tablet_id, std::string reason) {
1320
82
    tablets_shard& shard = _get_tablets_shard(tablet_id);
1321
82
    std::thread::id thread_id = std::this_thread::get_id();
1322
82
    std::lock_guard<std::mutex> lk(shard.lock_for_transition);
1323
82
    if (auto search = shard.tablets_under_transition.find(tablet_id);
1324
82
        search == shard.tablets_under_transition.end()) {
1325
        // impossible, bug
1326
0
        DCHECK(false) << "tablet " << tablet_id
1327
0
                      << " must be found, before unreg must have been reg";
1328
82
    } else {
1329
82
        auto& [r, thread_id_in_map, lock_times] = search->second;
1330
82
        if (thread_id_in_map != thread_id) {
1331
            // impossible, bug
1332
0
            DCHECK(false) << "tablet " << tablet_id << " unreg thread must same reg thread";
1333
0
        }
1334
        // sub lock times
1335
82
        --lock_times;
1336
82
        if (lock_times != 0) {
1337
2
            LOG(INFO) << "erase tablet_id= " << tablet_id << " from map, reason=" << reason
1338
2
                      << " left=" << lock_times << " thread_id_in_map=" << thread_id_in_map;
1339
80
        } else {
1340
80
            LOG(INFO) << "erase tablet_id= " << tablet_id << " from map, reason=" << reason
1341
80
                      << " thread_id_in_map=" << thread_id_in_map;
1342
80
            shard.tablets_under_transition.erase(tablet_id);
1343
80
        }
1344
82
    }
1345
82
}
1346
1347
void TabletManager::try_delete_unused_tablet_path(DataDir* data_dir, TTabletId tablet_id,
1348
                                                  SchemaHash schema_hash,
1349
                                                  const string& schema_hash_path,
1350
10
                                                  int16_t shard_id) {
1351
    // acquire the read lock, so that there is no creating tablet or load tablet from meta tasks
1352
    // create tablet and load tablet task should check whether the dir exists
1353
10
    tablets_shard& shard = _get_tablets_shard(tablet_id);
1354
10
    std::shared_lock rdlock(shard.lock);
1355
1356
    // check if meta already exists
1357
10
    TabletMetaSharedPtr tablet_meta(new TabletMeta());
1358
10
    Status check_st = TabletMetaManager::get_meta(data_dir, tablet_id, schema_hash, tablet_meta);
1359
10
    if (check_st.ok() && tablet_meta->shard_id() == shard_id) {
1360
0
        return;
1361
0
    }
1362
1363
10
    LOG(INFO) << "tablet meta not exists, try delete tablet path " << schema_hash_path;
1364
1365
10
    bool succ = register_transition_tablet(tablet_id, "path gc");
1366
10
    if (!succ) {
1367
0
        return;
1368
0
    }
1369
10
    Defer defer {[&]() { unregister_transition_tablet(tablet_id, "path gc"); }};
1370
1371
10
    TabletSharedPtr tablet = _get_tablet_unlocked(tablet_id);
1372
10
    if (tablet != nullptr && tablet->tablet_path() == schema_hash_path) {
1373
0
        LOG(INFO) << "tablet exists, skip delete the path " << schema_hash_path;
1374
0
        return;
1375
0
    }
1376
1377
    // TODO(ygl): may do other checks in the future
1378
10
    bool exists = false;
1379
10
    Status exists_st = io::global_local_filesystem()->exists(schema_hash_path, &exists);
1380
10
    if (exists_st && exists) {
1381
10
        LOG(INFO) << "start to move tablet to trash. tablet_path = " << schema_hash_path;
1382
10
        Status rm_st = data_dir->move_to_trash(schema_hash_path);
1383
10
        if (!rm_st.ok()) {
1384
0
            LOG(WARNING) << "fail to move dir to trash. dir=" << schema_hash_path;
1385
10
        } else {
1386
10
            LOG(INFO) << "move path " << schema_hash_path << " to trash successfully";
1387
10
        }
1388
10
    }
1389
10
}
1390
1391
void TabletManager::update_root_path_info(std::map<string, DataDirInfo>* path_map,
1392
0
                                          size_t* tablet_count) {
1393
0
    DCHECK(tablet_count);
1394
0
    *tablet_count = 0;
1395
0
    auto filter = [path_map, tablet_count](Tablet* t) -> bool {
1396
0
        ++(*tablet_count);
1397
0
        auto iter = path_map->find(t->data_dir()->path());
1398
0
        return iter != path_map->end() && iter->second.is_used;
1399
0
    };
1400
1401
0
    auto handler = [&](const TabletSharedPtr& tablet) {
1402
0
        auto& data_dir_info = (*path_map)[tablet->data_dir()->path()];
1403
0
        data_dir_info.local_used_capacity += tablet->tablet_local_size();
1404
0
        data_dir_info.remote_used_capacity += tablet->tablet_remote_size();
1405
0
    };
1406
1407
0
    for_each_tablet(handler, filter);
1408
0
}
1409
1410
void TabletManager::get_partition_related_tablets(int64_t partition_id,
1411
0
                                                  std::set<TabletInfo>* tablet_infos) {
1412
0
    std::shared_lock rdlock(_partitions_lock);
1413
0
    auto it = _partitions.find(partition_id);
1414
0
    if (it != _partitions.end()) {
1415
0
        *tablet_infos = it->second.tablets;
1416
0
    }
1417
0
}
1418
1419
0
void TabletManager::get_partitions_visible_version(std::map<int64_t, int64_t>* partitions_version) {
1420
0
    std::shared_lock rdlock(_partitions_lock);
1421
0
    for (const auto& [partition_id, partition] : _partitions) {
1422
0
        partitions_version->insert(
1423
0
                {partition_id, partition.visible_version->version.load(std::memory_order_relaxed)});
1424
0
    }
1425
0
}
1426
1427
void TabletManager::update_partitions_visible_version(
1428
0
        const std::map<int64_t, int64_t>& partitions_version) {
1429
0
    std::shared_lock rdlock(_partitions_lock);
1430
0
    for (auto [partition_id, version] : partitions_version) {
1431
0
        auto it = _partitions.find(partition_id);
1432
0
        if (it != _partitions.end()) {
1433
0
            it->second.visible_version->update_version_monoto(version);
1434
0
        }
1435
0
    }
1436
0
}
1437
1438
0
void TabletManager::do_tablet_meta_checkpoint(DataDir* data_dir) {
1439
0
    auto filter = [data_dir](Tablet* tablet) -> bool {
1440
0
        return tablet->tablet_state() == TABLET_RUNNING &&
1441
0
               tablet->data_dir()->path_hash() == data_dir->path_hash() && tablet->is_used() &&
1442
0
               tablet->init_succeeded();
1443
0
    };
1444
1445
0
    std::vector<TabletSharedPtr> related_tablets = get_all_tablet(filter);
1446
0
    int counter = 0;
1447
0
    MonotonicStopWatch watch;
1448
0
    watch.start();
1449
0
    for (TabletSharedPtr tablet : related_tablets) {
1450
0
        if (tablet->do_tablet_meta_checkpoint()) {
1451
0
            ++counter;
1452
0
        }
1453
0
    }
1454
0
    int64_t cost = watch.elapsed_time() / 1000 / 1000;
1455
0
    LOG(INFO) << "finish to do meta checkpoint on dir: " << data_dir->path()
1456
0
              << ", number: " << counter << ", cost(ms): " << cost;
1457
0
}
1458
1459
Status TabletManager::_create_tablet_meta_unlocked(const TCreateTabletReq& request, DataDir* store,
1460
                                                   const bool is_schema_change,
1461
                                                   const Tablet* base_tablet,
1462
91
                                                   TabletMetaSharedPtr* tablet_meta) {
1463
91
    uint32_t next_unique_id = 0;
1464
91
    std::unordered_map<uint32_t, uint32_t> col_idx_to_unique_id;
1465
91
    if (!is_schema_change) {
1466
1.32k
        for (uint32_t col_idx = 0; col_idx < request.tablet_schema.columns.size(); ++col_idx) {
1467
1.23k
            col_idx_to_unique_id[col_idx] = col_idx;
1468
1.23k
        }
1469
91
        next_unique_id = request.tablet_schema.columns.size();
1470
91
    } else {
1471
0
        next_unique_id = base_tablet->next_unique_id();
1472
0
        auto& new_columns = request.tablet_schema.columns;
1473
0
        for (uint32_t new_col_idx = 0; new_col_idx < new_columns.size(); ++new_col_idx) {
1474
0
            const TColumn& column = new_columns[new_col_idx];
1475
            // For schema change, compare old_tablet and new_tablet:
1476
            // 1. if column exist in both new_tablet and old_tablet, choose the column's
1477
            //    unique_id in old_tablet to be the column's ordinal number in new_tablet
1478
            // 2. if column exists only in new_tablet, assign next_unique_id of old_tablet
1479
            //    to the new column
1480
0
            int32_t old_col_idx = base_tablet->tablet_schema()->field_index(column.column_name);
1481
0
            if (old_col_idx != -1) {
1482
0
                uint32_t old_unique_id =
1483
0
                        base_tablet->tablet_schema()->column(old_col_idx).unique_id();
1484
0
                col_idx_to_unique_id[new_col_idx] = old_unique_id;
1485
0
            } else {
1486
                // Not exist in old tablet, it is a new added column
1487
0
                col_idx_to_unique_id[new_col_idx] = next_unique_id++;
1488
0
            }
1489
0
        }
1490
0
    }
1491
91
    VLOG_NOTICE << "creating tablet meta. next_unique_id=" << next_unique_id;
1492
1493
    // We generate a new tablet_uid for this new tablet.
1494
91
    uint64_t shard_id = store->get_shard();
1495
91
    *tablet_meta = TabletMeta::create(request, TabletUid::gen_uid(), shard_id, next_unique_id,
1496
91
                                      col_idx_to_unique_id);
1497
91
    if (request.__isset.storage_format) {
1498
52
        if (request.storage_format == TStorageFormat::DEFAULT) {
1499
0
            (*tablet_meta)->set_preferred_rowset_type(_engine.default_rowset_type());
1500
52
        } else if (request.storage_format == TStorageFormat::V1) {
1501
0
            (*tablet_meta)->set_preferred_rowset_type(ALPHA_ROWSET);
1502
52
        } else if (request.storage_format == TStorageFormat::V2) {
1503
52
            (*tablet_meta)->set_preferred_rowset_type(BETA_ROWSET);
1504
52
        } else {
1505
0
            return Status::Error<CE_CMD_PARAMS_ERROR>("invalid TStorageFormat: {}",
1506
0
                                                      request.storage_format);
1507
0
        }
1508
52
    }
1509
91
    return Status::OK();
1510
91
}
1511
1512
2.51k
TabletSharedPtr TabletManager::_get_tablet_unlocked(TTabletId tablet_id) {
1513
2.51k
    VLOG_NOTICE << "begin to get tablet. tablet_id=" << tablet_id;
1514
2.51k
    tablet_map_t& tablet_map = _get_tablet_map(tablet_id);
1515
2.51k
    const auto& iter = tablet_map.find(tablet_id);
1516
2.51k
    if (iter != tablet_map.end()) {
1517
2.37k
        return iter->second;
1518
2.37k
    }
1519
141
    return nullptr;
1520
2.51k
}
1521
1522
93
void TabletManager::_add_tablet_to_partition(const TabletSharedPtr& tablet) {
1523
93
    std::lock_guard<std::shared_mutex> wrlock(_partitions_lock);
1524
93
    auto& partition = _partitions[tablet->partition_id()];
1525
93
    partition.tablets.insert(tablet->get_tablet_info());
1526
93
    tablet->set_visible_version(
1527
93
            std::static_pointer_cast<const VersionWithTime>(partition.visible_version));
1528
93
}
1529
1530
46
void TabletManager::_remove_tablet_from_partition(const TabletSharedPtr& tablet) {
1531
46
    tablet->set_visible_version(nullptr);
1532
46
    std::lock_guard<std::shared_mutex> wrlock(_partitions_lock);
1533
46
    auto it = _partitions.find(tablet->partition_id());
1534
46
    if (it == _partitions.end()) {
1535
0
        return;
1536
0
    }
1537
1538
46
    auto& tablets = it->second.tablets;
1539
46
    tablets.erase(tablet->get_tablet_info());
1540
46
    if (tablets.empty()) {
1541
26
        _partitions.erase(it);
1542
26
    }
1543
46
}
1544
1545
void TabletManager::obtain_specific_quantity_tablets(vector<TabletInfo>& tablets_info,
1546
0
                                                     int64_t num) {
1547
0
    for (const auto& tablets_shard : _tablets_shards) {
1548
0
        std::shared_lock rdlock(tablets_shard.lock);
1549
0
        for (const auto& item : tablets_shard.tablet_map) {
1550
0
            TabletSharedPtr tablet = item.second;
1551
0
            if (tablets_info.size() >= num) {
1552
0
                return;
1553
0
            }
1554
0
            if (tablet == nullptr) {
1555
0
                continue;
1556
0
            }
1557
0
            tablets_info.push_back(tablet->get_tablet_info());
1558
0
        }
1559
0
    }
1560
0
}
1561
1562
2.41k
std::shared_mutex& TabletManager::_get_tablets_shard_lock(TTabletId tabletId) {
1563
2.41k
    return _get_tablets_shard(tabletId).lock;
1564
2.41k
}
1565
1566
2.76k
TabletManager::tablet_map_t& TabletManager::_get_tablet_map(TTabletId tabletId) {
1567
2.76k
    return _get_tablets_shard(tabletId).tablet_map;
1568
2.76k
}
1569
1570
5.35k
TabletManager::tablets_shard& TabletManager::_get_tablets_shard(TTabletId tabletId) {
1571
5.35k
    return _tablets_shards[tabletId & _tablets_shards_mask];
1572
5.35k
}
1573
1574
void TabletManager::get_tablets_distribution_on_different_disks(
1575
        std::map<int64_t, std::map<DataDir*, int64_t>>& tablets_num_on_disk,
1576
0
        std::map<int64_t, std::map<DataDir*, std::vector<TabletSize>>>& tablets_info_on_disk) {
1577
0
    std::vector<DataDir*> data_dirs = _engine.get_stores();
1578
0
    std::map<int64_t, Partition> partitions;
1579
0
    {
1580
        // When drop tablet, '_partitions_lock' is locked in 'tablet_shard_lock'.
1581
        // To avoid locking 'tablet_shard_lock' in '_partitions_lock', we lock and
1582
        // copy _partitions here.
1583
0
        std::shared_lock rdlock(_partitions_lock);
1584
0
        partitions = _partitions;
1585
0
    }
1586
1587
0
    for (const auto& [partition_id, partition] : partitions) {
1588
0
        std::map<DataDir*, int64_t> tablets_num;
1589
0
        std::map<DataDir*, std::vector<TabletSize>> tablets_info;
1590
0
        for (auto* data_dir : data_dirs) {
1591
0
            tablets_num[data_dir] = 0;
1592
0
        }
1593
1594
0
        for (const auto& tablet_info : partition.tablets) {
1595
            // get_tablet() will hold 'tablet_shard_lock'
1596
0
            TabletSharedPtr tablet = get_tablet(tablet_info.tablet_id);
1597
0
            if (tablet == nullptr) {
1598
0
                continue;
1599
0
            }
1600
0
            DataDir* data_dir = tablet->data_dir();
1601
0
            size_t tablet_footprint = tablet->tablet_footprint();
1602
0
            tablets_num[data_dir]++;
1603
0
            TabletSize tablet_size(tablet_info.tablet_id, tablet_footprint);
1604
0
            tablets_info[data_dir].push_back(tablet_size);
1605
0
        }
1606
0
        tablets_num_on_disk[partition_id] = tablets_num;
1607
0
        tablets_info_on_disk[partition_id] = tablets_info;
1608
0
    }
1609
0
}
1610
1611
struct SortCtx {
1612
    SortCtx(TabletSharedPtr tablet, RowsetSharedPtr rowset, int64_t cooldown_timestamp,
1613
            int64_t file_size)
1614
0
            : tablet(tablet), cooldown_timestamp(cooldown_timestamp), file_size(file_size) {}
1615
    TabletSharedPtr tablet;
1616
    RowsetSharedPtr rowset;
1617
    // to ensure the tablet with -1 would always be greater than other
1618
    uint64_t cooldown_timestamp;
1619
    int64_t file_size;
1620
0
    bool operator<(const SortCtx& other) const {
1621
0
        if (this->cooldown_timestamp == other.cooldown_timestamp) {
1622
0
            return this->file_size > other.file_size;
1623
0
        }
1624
0
        return this->cooldown_timestamp < other.cooldown_timestamp;
1625
0
    }
1626
};
1627
1628
void TabletManager::get_cooldown_tablets(std::vector<TabletSharedPtr>* tablets,
1629
                                         std::vector<RowsetSharedPtr>* rowsets,
1630
0
                                         std::function<bool(const TabletSharedPtr&)> skip_tablet) {
1631
0
    std::vector<SortCtx> sort_ctx_vec;
1632
0
    std::vector<std::weak_ptr<Tablet>> candidates;
1633
0
    for_each_tablet([&](const TabletSharedPtr& tablet) { candidates.emplace_back(tablet); },
1634
0
                    filter_all_tablets);
1635
0
    auto get_cooldown_tablet = [&sort_ctx_vec, &skip_tablet](std::weak_ptr<Tablet>& t) {
1636
0
        const TabletSharedPtr& tablet = t.lock();
1637
0
        RowsetSharedPtr rowset = nullptr;
1638
0
        if (UNLIKELY(nullptr == tablet)) {
1639
0
            return;
1640
0
        }
1641
0
        int64_t cooldown_timestamp = -1;
1642
0
        size_t file_size = -1;
1643
0
        if (!skip_tablet(tablet) &&
1644
0
            (rowset = tablet->need_cooldown(&cooldown_timestamp, &file_size))) {
1645
0
            sort_ctx_vec.emplace_back(tablet, rowset, cooldown_timestamp, file_size);
1646
0
        }
1647
0
    };
1648
0
    std::for_each(candidates.begin(), candidates.end(), get_cooldown_tablet);
1649
1650
0
    std::sort(sort_ctx_vec.begin(), sort_ctx_vec.end());
1651
1652
0
    for (SortCtx& ctx : sort_ctx_vec) {
1653
0
        VLOG_DEBUG << "get cooldown tablet: " << ctx.tablet->tablet_id();
1654
0
        tablets->push_back(std::move(ctx.tablet));
1655
0
        rowsets->push_back(std::move(ctx.rowset));
1656
0
    }
1657
0
}
1658
1659
0
void TabletManager::get_all_tablets_storage_format(TCheckStorageFormatResult* result) {
1660
0
    DCHECK(result != nullptr);
1661
0
    auto handler = [result](const TabletSharedPtr& tablet) {
1662
0
        if (tablet->all_beta()) {
1663
0
            result->v2_tablets.push_back(tablet->tablet_id());
1664
0
        } else {
1665
0
            result->v1_tablets.push_back(tablet->tablet_id());
1666
0
        }
1667
0
    };
1668
1669
0
    for_each_tablet(handler, filter_all_tablets);
1670
0
    result->__isset.v1_tablets = true;
1671
0
    result->__isset.v2_tablets = true;
1672
0
}
1673
1674
0
std::set<int64_t> TabletManager::check_all_tablet_segment(bool repair) {
1675
0
    std::set<int64_t> bad_tablets;
1676
0
    std::map<int64_t, std::vector<int64_t>> repair_shard_bad_tablets;
1677
0
    auto handler = [&](const TabletSharedPtr& tablet) {
1678
0
        if (!tablet->check_all_rowset_segment()) {
1679
0
            int64_t tablet_id = tablet->tablet_id();
1680
0
            bad_tablets.insert(tablet_id);
1681
0
            if (repair) {
1682
0
                repair_shard_bad_tablets[tablet_id & _tablets_shards_mask].push_back(tablet_id);
1683
0
            }
1684
0
        }
1685
0
    };
1686
0
    for_each_tablet(handler, filter_all_tablets);
1687
1688
0
    for (const auto& [shard_index, shard_tablets] : repair_shard_bad_tablets) {
1689
0
        auto& tablets_shard = _tablets_shards[shard_index];
1690
0
        auto& tablet_map = tablets_shard.tablet_map;
1691
0
        std::lock_guard<std::shared_mutex> wrlock(tablets_shard.lock);
1692
0
        for (auto tablet_id : shard_tablets) {
1693
0
            auto it = tablet_map.find(tablet_id);
1694
0
            if (it == tablet_map.end()) {
1695
0
                bad_tablets.erase(tablet_id);
1696
0
                LOG(WARNING) << "Bad tablet has be removed. tablet_id=" << tablet_id;
1697
0
            } else {
1698
0
                const auto& tablet = it->second;
1699
0
                static_cast<void>(tablet->set_tablet_state(TABLET_SHUTDOWN));
1700
0
                tablet->save_meta();
1701
0
                {
1702
0
                    std::lock_guard<std::shared_mutex> shutdown_tablets_wrlock(
1703
0
                            _shutdown_tablets_lock);
1704
0
                    _shutdown_tablets.push_back(tablet);
1705
0
                }
1706
0
                LOG(WARNING) << "There are some segments lost, set tablet to shutdown state."
1707
0
                             << "tablet_id=" << tablet->tablet_id()
1708
0
                             << ", tablet_path=" << tablet->tablet_path();
1709
0
            }
1710
0
        }
1711
0
    }
1712
1713
0
    return bad_tablets;
1714
0
}
1715
1716
bool TabletManager::update_tablet_partition_id(::doris::TPartitionId partition_id,
1717
0
                                               ::doris::TTabletId tablet_id) {
1718
0
    std::shared_lock rdlock(_get_tablets_shard_lock(tablet_id));
1719
0
    TabletSharedPtr tablet = _get_tablet_unlocked(tablet_id);
1720
0
    if (tablet == nullptr) {
1721
0
        LOG(WARNING) << "get tablet err partition_id: " << partition_id
1722
0
                     << " tablet_id:" << tablet_id;
1723
0
        return false;
1724
0
    }
1725
0
    _remove_tablet_from_partition(tablet);
1726
0
    auto st = tablet->tablet_meta()->set_partition_id(partition_id);
1727
0
    if (!st.ok()) {
1728
0
        LOG(WARNING) << "set partition id err partition_id: " << partition_id
1729
0
                     << " tablet_id:" << tablet_id;
1730
0
        return false;
1731
0
    }
1732
0
    _add_tablet_to_partition(tablet);
1733
0
    return true;
1734
0
}
1735
1736
} // end namespace doris