Coverage Report

Created: 2024-11-21 20:39

/root/doris/be/src/runtime/load_stream.cpp
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// Licensed to the Apache Software Foundation (ASF) under one
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// or more contributor license agreements.  See the NOTICE file
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// distributed with this work for additional information
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// regarding copyright ownership.  The ASF licenses this file
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// to you under the Apache License, Version 2.0 (the
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// "License"); you may not use this file except in compliance
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// with the License.  You may obtain a copy of the License at
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//
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//   http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing,
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// software distributed under the License is distributed on an
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// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
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// KIND, either express or implied.  See the License for the
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// specific language governing permissions and limitations
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// under the License.
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#include "runtime/load_stream.h"
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#include <brpc/stream.h>
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#include <bthread/bthread.h>
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#include <bthread/condition_variable.h>
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#include <bthread/mutex.h>
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#include <olap/rowset/rowset_factory.h>
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#include <olap/rowset/rowset_meta.h>
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#include <olap/storage_engine.h>
27
#include <olap/tablet_manager.h>
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#include <runtime/exec_env.h>
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#include <memory>
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#include <sstream>
32
33
#include "bvar/bvar.h"
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#include "cloud/config.h"
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#include "common/signal_handler.h"
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#include "exec/tablet_info.h"
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#include "gutil/ref_counted.h"
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#include "olap/tablet.h"
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#include "olap/tablet_fwd.h"
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#include "olap/tablet_schema.h"
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#include "runtime/exec_env.h"
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#include "runtime/fragment_mgr.h"
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#include "runtime/load_channel.h"
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#include "runtime/load_stream_mgr.h"
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#include "runtime/load_stream_writer.h"
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#include "runtime/workload_group/workload_group_manager.h"
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#include "util/debug_points.h"
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#include "util/runtime_profile.h"
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#include "util/thrift_util.h"
50
#include "util/uid_util.h"
51
52
#define UNKNOWN_ID_FOR_TEST 0x7c00
53
54
namespace doris {
55
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bvar::Adder<int64_t> g_load_stream_cnt("load_stream_count");
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bvar::LatencyRecorder g_load_stream_flush_wait_ms("load_stream_flush_wait_ms");
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bvar::Adder<int> g_load_stream_flush_running_threads("load_stream_flush_wait_threads");
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TabletStream::TabletStream(PUniqueId load_id, int64_t id, int64_t txn_id,
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                           LoadStreamMgr* load_stream_mgr, RuntimeProfile* profile)
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        : _id(id),
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          _next_segid(0),
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          _load_id(load_id),
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          _txn_id(txn_id),
66
14
          _load_stream_mgr(load_stream_mgr) {
67
14
    load_stream_mgr->create_tokens(_flush_tokens);
68
14
    _profile = profile->create_child(fmt::format("TabletStream {}", id), true, true);
69
14
    _append_data_timer = ADD_TIMER(_profile, "AppendDataTime");
70
14
    _add_segment_timer = ADD_TIMER(_profile, "AddSegmentTime");
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14
    _close_wait_timer = ADD_TIMER(_profile, "CloseWaitTime");
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14
}
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10
inline std::ostream& operator<<(std::ostream& ostr, const TabletStream& tablet_stream) {
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10
    ostr << "load_id=" << tablet_stream._load_id << ", txn_id=" << tablet_stream._txn_id
76
10
         << ", tablet_id=" << tablet_stream._id << ", status=" << tablet_stream._status.status();
77
10
    return ostr;
78
10
}
79
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Status TabletStream::init(std::shared_ptr<OlapTableSchemaParam> schema, int64_t index_id,
81
14
                          int64_t partition_id) {
82
14
    WriteRequest req {
83
14
            .tablet_id = _id,
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14
            .txn_id = _txn_id,
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14
            .index_id = index_id,
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14
            .partition_id = partition_id,
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14
            .load_id = _load_id,
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14
            .table_schema_param = schema,
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            // TODO(plat1ko): write_file_cache
90
14
            .storage_vault_id {},
91
14
    };
92
93
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    _load_stream_writer = std::make_shared<LoadStreamWriter>(&req, _profile);
94
14
    DBUG_EXECUTE_IF("TabletStream.init.uninited_writer", {
95
14
        _status.update(Status::Uninitialized("fault injection"));
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14
        return _status.status();
97
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    });
98
14
    _status.update(_load_stream_writer->init());
99
14
    if (!_status.ok()) {
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1
        LOG(INFO) << "failed to init rowset builder due to " << *this;
101
1
    }
102
14
    return _status.status();
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14
}
104
105
27
Status TabletStream::append_data(const PStreamHeader& header, butil::IOBuf* data) {
106
27
    if (!_status.ok()) {
107
1
        return _status.status();
108
1
    }
109
110
    // dispatch add_segment request
111
26
    if (header.opcode() == PStreamHeader::ADD_SEGMENT) {
112
0
        return add_segment(header, data);
113
0
    }
114
115
26
    SCOPED_TIMER(_append_data_timer);
116
117
26
    int64_t src_id = header.src_id();
118
26
    uint32_t segid = header.segment_id();
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    // Ensure there are enough space and mapping are built.
120
26
    SegIdMapping* mapping = nullptr;
121
26
    {
122
26
        std::lock_guard lock_guard(_lock);
123
26
        if (!_segids_mapping.contains(src_id)) {
124
14
            _segids_mapping[src_id] = std::make_unique<SegIdMapping>();
125
14
        }
126
26
        mapping = _segids_mapping[src_id].get();
127
26
    }
128
26
    if (segid + 1 > mapping->size()) {
129
        // TODO: Each sender lock is enough.
130
15
        std::lock_guard lock_guard(_lock);
131
15
        ssize_t origin_size = mapping->size();
132
15
        if (segid + 1 > origin_size) {
133
15
            mapping->resize(segid + 1, std::numeric_limits<uint32_t>::max());
134
39
            for (size_t index = origin_size; index <= segid; index++) {
135
24
                mapping->at(index) = _next_segid;
136
24
                _next_segid++;
137
24
                VLOG_DEBUG << "src_id=" << src_id << ", segid=" << index << " to "
138
0
                           << " segid=" << _next_segid - 1 << ", " << *this;
139
24
            }
140
15
        }
141
15
    }
142
143
    // Each sender sends data in one segment sequential, so we also do not
144
    // need a lock here.
145
26
    bool eos = header.segment_eos();
146
26
    FileType file_type = header.file_type();
147
26
    uint32_t new_segid = mapping->at(segid);
148
26
    DCHECK(new_segid != std::numeric_limits<uint32_t>::max());
149
26
    butil::IOBuf buf = data->movable();
150
26
    auto flush_func = [this, new_segid, eos, buf, header, file_type]() mutable {
151
26
        signal::set_signal_task_id(_load_id);
152
26
        g_load_stream_flush_running_threads << -1;
153
26
        auto st = _load_stream_writer->append_data(new_segid, header.offset(), buf, file_type);
154
26
        if (!st.ok() && !config::is_cloud_mode()) {
155
1
            auto res = ExecEnv::get_tablet(_id);
156
1
            TabletSharedPtr tablet =
157
1
                    res.has_value() ? std::dynamic_pointer_cast<Tablet>(res.value()) : nullptr;
158
1
            if (tablet) {
159
1
                tablet->report_error(st);
160
1
            }
161
1
        }
162
26
        if (eos && st.ok()) {
163
21
            DBUG_EXECUTE_IF("TabletStream.append_data.unknown_file_type",
164
21
                            { file_type = static_cast<FileType>(-1); });
165
21
            if (file_type == FileType::SEGMENT_FILE || file_type == FileType::INVERTED_INDEX_FILE) {
166
21
                st = _load_stream_writer->close_writer(new_segid, file_type);
167
21
            } else {
168
0
                st = Status::InternalError(
169
0
                        "appent data failed, file type error, file type = {}, "
170
0
                        "segment_id={}",
171
0
                        file_type, new_segid);
172
0
            }
173
21
        }
174
26
        DBUG_EXECUTE_IF("TabletStream.append_data.append_failed",
175
26
                        { st = Status::InternalError("fault injection"); });
176
26
        if (!st.ok()) {
177
2
            _status.update(st);
178
2
            LOG(WARNING) << "write data failed " << st << ", " << *this;
179
2
        }
180
26
    };
181
26
    auto& flush_token = _flush_tokens[new_segid % _flush_tokens.size()];
182
26
    auto load_stream_flush_token_max_tasks = config::load_stream_flush_token_max_tasks;
183
26
    auto load_stream_max_wait_flush_token_time_ms =
184
26
            config::load_stream_max_wait_flush_token_time_ms;
185
26
    DBUG_EXECUTE_IF("TabletStream.append_data.long_wait", {
186
26
        load_stream_flush_token_max_tasks = 0;
187
26
        load_stream_max_wait_flush_token_time_ms = 1000;
188
26
    });
189
26
    MonotonicStopWatch timer;
190
26
    timer.start();
191
26
    while (flush_token->num_tasks() >= load_stream_flush_token_max_tasks) {
192
0
        if (timer.elapsed_time() / 1000 / 1000 >= load_stream_max_wait_flush_token_time_ms) {
193
0
            _status.update(
194
0
                    Status::Error<true>("wait flush token back pressure time is more than "
195
0
                                        "load_stream_max_wait_flush_token_time {}",
196
0
                                        load_stream_max_wait_flush_token_time_ms));
197
0
            return _status.status();
198
0
        }
199
0
        bthread_usleep(2 * 1000); // 2ms
200
0
    }
201
26
    timer.stop();
202
26
    int64_t time_ms = timer.elapsed_time() / 1000 / 1000;
203
26
    g_load_stream_flush_wait_ms << time_ms;
204
26
    g_load_stream_flush_running_threads << 1;
205
26
    Status st = Status::OK();
206
26
    DBUG_EXECUTE_IF("TabletStream.append_data.submit_func_failed",
207
26
                    { st = Status::InternalError("fault injection"); });
208
26
    if (st.ok()) {
209
26
        st = flush_token->submit_func(flush_func);
210
26
    }
211
26
    if (!st.ok()) {
212
0
        _status.update(st);
213
0
    }
214
26
    return _status.status();
215
26
}
216
217
0
Status TabletStream::add_segment(const PStreamHeader& header, butil::IOBuf* data) {
218
0
    if (!_status.ok()) {
219
0
        return _status.status();
220
0
    }
221
222
0
    SCOPED_TIMER(_add_segment_timer);
223
0
    DCHECK(header.has_segment_statistics());
224
0
    SegmentStatistics stat(header.segment_statistics());
225
0
    TabletSchemaSPtr flush_schema;
226
0
    if (header.has_flush_schema()) {
227
0
        flush_schema = std::make_shared<TabletSchema>();
228
0
        flush_schema->init_from_pb(header.flush_schema());
229
0
    }
230
231
0
    int64_t src_id = header.src_id();
232
0
    uint32_t segid = header.segment_id();
233
0
    uint32_t new_segid;
234
0
    DBUG_EXECUTE_IF("TabletStream.add_segment.unknown_segid", { segid = UNKNOWN_ID_FOR_TEST; });
235
0
    {
236
0
        std::lock_guard lock_guard(_lock);
237
0
        if (!_segids_mapping.contains(src_id)) {
238
0
            _status.update(Status::InternalError(
239
0
                    "add segment failed, no segment written by this src be yet, src_id={}, "
240
0
                    "segment_id={}",
241
0
                    src_id, segid));
242
0
            return _status.status();
243
0
        }
244
0
        DBUG_EXECUTE_IF("TabletStream.add_segment.segid_never_written",
245
0
                        { segid = _segids_mapping[src_id]->size(); });
246
0
        if (segid >= _segids_mapping[src_id]->size()) {
247
0
            _status.update(Status::InternalError(
248
0
                    "add segment failed, segment is never written, src_id={}, segment_id={}",
249
0
                    src_id, segid));
250
0
            return _status.status();
251
0
        }
252
0
        new_segid = _segids_mapping[src_id]->at(segid);
253
0
    }
254
0
    DCHECK(new_segid != std::numeric_limits<uint32_t>::max());
255
256
0
    auto add_segment_func = [this, new_segid, stat, flush_schema]() {
257
0
        signal::set_signal_task_id(_load_id);
258
0
        auto st = _load_stream_writer->add_segment(new_segid, stat, flush_schema);
259
0
        DBUG_EXECUTE_IF("TabletStream.add_segment.add_segment_failed",
260
0
                        { st = Status::InternalError("fault injection"); });
261
0
        if (!st.ok()) {
262
0
            _status.update(st);
263
0
            LOG(INFO) << "add segment failed " << *this;
264
0
        }
265
0
    };
266
0
    auto& flush_token = _flush_tokens[new_segid % _flush_tokens.size()];
267
0
    Status st = Status::OK();
268
0
    DBUG_EXECUTE_IF("TabletStream.add_segment.submit_func_failed",
269
0
                    { st = Status::InternalError("fault injection"); });
270
0
    if (st.ok()) {
271
0
        st = flush_token->submit_func(add_segment_func);
272
0
    }
273
0
    if (!st.ok()) {
274
0
        _status.update(st);
275
0
    }
276
0
    return _status.status();
277
0
}
278
279
30
Status TabletStream::_run_in_heavy_work_pool(std::function<Status()> fn) {
280
30
    bthread::Mutex mu;
281
30
    std::unique_lock<bthread::Mutex> lock(mu);
282
30
    bthread::ConditionVariable cv;
283
30
    auto st = Status::OK();
284
30
    auto func = [this, &mu, &cv, &st, &fn] {
285
30
        signal::set_signal_task_id(_load_id);
286
30
        st = fn();
287
30
        std::lock_guard<bthread::Mutex> lock(mu);
288
30
        cv.notify_one();
289
30
    };
290
30
    bool ret = _load_stream_mgr->heavy_work_pool()->try_offer(func);
291
30
    if (!ret) {
292
0
        return Status::Error<ErrorCode::INTERNAL_ERROR>(
293
0
                "there is not enough thread resource for close load");
294
0
    }
295
30
    cv.wait(lock);
296
30
    return st;
297
30
}
298
299
14
void TabletStream::pre_close() {
300
14
    if (!_status.ok()) {
301
1
        return;
302
1
    }
303
304
13
    SCOPED_TIMER(_close_wait_timer);
305
13
    _status.update(_run_in_heavy_work_pool([this]() {
306
104
        for (auto& token : _flush_tokens) {
307
104
            token->wait();
308
104
        }
309
13
        return Status::OK();
310
13
    }));
311
    // it is necessary to check status after wait_func,
312
    // for create_rowset could fail during add_segment when loading to MOW table,
313
    // in this case, should skip close to avoid submit_calc_delete_bitmap_task which could cause coredump.
314
13
    if (!_status.ok()) {
315
2
        return;
316
2
    }
317
318
11
    DBUG_EXECUTE_IF("TabletStream.close.segment_num_mismatch", { _num_segments++; });
319
11
    if (_check_num_segments && (_next_segid.load() != _num_segments)) {
320
2
        _status.update(Status::Corruption(
321
2
                "segment num mismatch in tablet {}, expected: {}, actual: {}, load_id: {}", _id,
322
2
                _num_segments, _next_segid.load(), print_id(_load_id)));
323
2
        return;
324
2
    }
325
326
9
    _status.update(_run_in_heavy_work_pool([this]() { return _load_stream_writer->pre_close(); }));
327
9
}
328
329
14
Status TabletStream::close() {
330
14
    if (!_status.ok()) {
331
6
        return _status.status();
332
6
    }
333
334
8
    SCOPED_TIMER(_close_wait_timer);
335
8
    _status.update(_run_in_heavy_work_pool([this]() { return _load_stream_writer->close(); }));
336
8
    return _status.status();
337
14
}
338
339
IndexStream::IndexStream(PUniqueId load_id, int64_t id, int64_t txn_id,
340
                         std::shared_ptr<OlapTableSchemaParam> schema,
341
                         LoadStreamMgr* load_stream_mgr, RuntimeProfile* profile)
342
        : _id(id),
343
          _load_id(load_id),
344
          _txn_id(txn_id),
345
          _schema(schema),
346
28
          _load_stream_mgr(load_stream_mgr) {
347
28
    _profile = profile->create_child(fmt::format("IndexStream {}", id), true, true);
348
28
    _append_data_timer = ADD_TIMER(_profile, "AppendDataTime");
349
28
    _close_wait_timer = ADD_TIMER(_profile, "CloseWaitTime");
350
28
}
351
352
27
Status IndexStream::append_data(const PStreamHeader& header, butil::IOBuf* data) {
353
27
    SCOPED_TIMER(_append_data_timer);
354
27
    int64_t tablet_id = header.tablet_id();
355
27
    TabletStreamSharedPtr tablet_stream;
356
27
    {
357
27
        std::lock_guard lock_guard(_lock);
358
27
        auto it = _tablet_streams_map.find(tablet_id);
359
27
        if (it == _tablet_streams_map.end()) {
360
13
            _init_tablet_stream(tablet_stream, tablet_id, header.partition_id());
361
14
        } else {
362
14
            tablet_stream = it->second;
363
14
        }
364
27
    }
365
366
27
    return tablet_stream->append_data(header, data);
367
27
}
368
369
void IndexStream::_init_tablet_stream(TabletStreamSharedPtr& tablet_stream, int64_t tablet_id,
370
14
                                      int64_t partition_id) {
371
14
    tablet_stream = std::make_shared<TabletStream>(_load_id, tablet_id, _txn_id, _load_stream_mgr,
372
14
                                                   _profile);
373
14
    _tablet_streams_map[tablet_id] = tablet_stream;
374
14
    auto st = tablet_stream->init(_schema, _id, partition_id);
375
14
    if (!st.ok()) {
376
1
        LOG(WARNING) << "tablet stream init failed " << *tablet_stream;
377
1
    }
378
14
}
379
380
void IndexStream::close(const std::vector<PTabletID>& tablets_to_commit,
381
28
                        std::vector<int64_t>* success_tablet_ids, FailedTablets* failed_tablets) {
382
28
    std::lock_guard lock_guard(_lock);
383
28
    SCOPED_TIMER(_close_wait_timer);
384
    // open all need commit tablets
385
34
    for (const auto& tablet : tablets_to_commit) {
386
34
        if (_id != tablet.index_id()) {
387
18
            continue;
388
18
        }
389
16
        TabletStreamSharedPtr tablet_stream;
390
16
        auto it = _tablet_streams_map.find(tablet.tablet_id());
391
16
        if (it == _tablet_streams_map.end()) {
392
1
            _init_tablet_stream(tablet_stream, tablet.tablet_id(), tablet.partition_id());
393
15
        } else {
394
15
            tablet_stream = it->second;
395
15
        }
396
16
        if (tablet.has_num_segments()) {
397
16
            tablet_stream->add_num_segments(tablet.num_segments());
398
16
        } else {
399
            // for compatibility reasons (sink from old version BE)
400
0
            tablet_stream->disable_num_segments_check();
401
0
        }
402
16
    }
403
404
28
    for (auto& [_, tablet_stream] : _tablet_streams_map) {
405
14
        tablet_stream->pre_close();
406
14
    }
407
408
28
    for (auto& [_, tablet_stream] : _tablet_streams_map) {
409
14
        auto st = tablet_stream->close();
410
14
        if (st.ok()) {
411
8
            success_tablet_ids->push_back(tablet_stream->id());
412
8
        } else {
413
6
            LOG(INFO) << "close tablet stream " << *tablet_stream << ", status=" << st;
414
6
            failed_tablets->emplace_back(tablet_stream->id(), st);
415
6
        }
416
14
    }
417
28
}
418
419
// TODO: Profile is temporary disabled, because:
420
// 1. It's not being processed by the upstream for now
421
// 2. There are some problems in _profile->to_thrift()
422
LoadStream::LoadStream(PUniqueId load_id, LoadStreamMgr* load_stream_mgr, bool enable_profile)
423
14
        : _load_id(load_id), _enable_profile(false), _load_stream_mgr(load_stream_mgr) {
424
14
    g_load_stream_cnt << 1;
425
14
    _profile = std::make_unique<RuntimeProfile>("LoadStream");
426
14
    _append_data_timer = ADD_TIMER(_profile, "AppendDataTime");
427
14
    _close_wait_timer = ADD_TIMER(_profile, "CloseWaitTime");
428
14
    TUniqueId load_tid = ((UniqueId)load_id).to_thrift();
429
#ifndef BE_TEST
430
    std::shared_ptr<QueryContext> query_context =
431
            ExecEnv::GetInstance()->fragment_mgr()->get_or_erase_query_ctx_with_lock(load_tid);
432
    if (query_context != nullptr) {
433
        _query_thread_context = {load_tid, query_context->query_mem_tracker,
434
                                 query_context->workload_group()};
435
    } else {
436
        _query_thread_context = {load_tid, MemTrackerLimiter::create_shared(
437
                                                   MemTrackerLimiter::Type::LOAD,
438
                                                   fmt::format("(FromLoadStream)Load#Id={}",
439
                                                               ((UniqueId)load_id).to_string()))};
440
    }
441
#else
442
14
    _query_thread_context = {load_tid, MemTrackerLimiter::create_shared(
443
14
                                               MemTrackerLimiter::Type::LOAD,
444
14
                                               fmt::format("(FromLoadStream)Load#Id={}",
445
14
                                                           ((UniqueId)load_id).to_string()))};
446
14
#endif
447
14
}
448
449
14
LoadStream::~LoadStream() {
450
14
    g_load_stream_cnt << -1;
451
14
    LOG(INFO) << "load stream is deconstructed " << *this;
452
14
}
453
454
14
Status LoadStream::init(const POpenLoadStreamRequest* request) {
455
14
    _txn_id = request->txn_id();
456
14
    _total_streams = request->total_streams();
457
14
    _is_incremental = (_total_streams == 0);
458
459
14
    _schema = std::make_shared<OlapTableSchemaParam>();
460
14
    RETURN_IF_ERROR(_schema->init(request->schema()));
461
28
    for (auto& index : request->schema().indexes()) {
462
28
        _index_streams_map[index.id()] = std::make_shared<IndexStream>(
463
28
                _load_id, index.id(), _txn_id, _schema, _load_stream_mgr, _profile.get());
464
28
    }
465
14
    LOG(INFO) << "succeed to init load stream " << *this;
466
14
    return Status::OK();
467
14
}
468
469
void LoadStream::close(int64_t src_id, const std::vector<PTabletID>& tablets_to_commit,
470
16
                       std::vector<int64_t>* success_tablet_ids, FailedTablets* failed_tablets) {
471
16
    std::lock_guard<bthread::Mutex> lock_guard(_lock);
472
16
    SCOPED_TIMER(_close_wait_timer);
473
474
    // we do nothing until recv CLOSE_LOAD from all stream to ensure all data are handled before ack
475
16
    _open_streams[src_id]--;
476
16
    if (_open_streams[src_id] == 0) {
477
16
        _open_streams.erase(src_id);
478
16
    }
479
16
    _close_load_cnt++;
480
16
    LOG(INFO) << "received CLOSE_LOAD from sender " << src_id << ", remaining "
481
16
              << _total_streams - _close_load_cnt << " senders, " << *this;
482
483
16
    _tablets_to_commit.insert(_tablets_to_commit.end(), tablets_to_commit.begin(),
484
16
                              tablets_to_commit.end());
485
486
16
    if (_close_load_cnt < _total_streams) {
487
        // do not return commit info if there is remaining streams.
488
2
        return;
489
2
    }
490
491
28
    for (auto& [_, index_stream] : _index_streams_map) {
492
28
        index_stream->close(_tablets_to_commit, success_tablet_ids, failed_tablets);
493
28
    }
494
14
    LOG(INFO) << "close load " << *this << ", success_tablet_num=" << success_tablet_ids->size()
495
14
              << ", failed_tablet_num=" << failed_tablets->size();
496
14
}
497
498
void LoadStream::_report_result(StreamId stream, const Status& status,
499
                                const std::vector<int64_t>& success_tablet_ids,
500
36
                                const FailedTablets& failed_tablets, bool eos) {
501
36
    LOG(INFO) << "report result " << *this << ", success tablet num " << success_tablet_ids.size()
502
36
              << ", failed tablet num " << failed_tablets.size();
503
36
    butil::IOBuf buf;
504
36
    PLoadStreamResponse response;
505
36
    response.set_eos(eos);
506
36
    status.to_protobuf(response.mutable_status());
507
36
    for (auto& id : success_tablet_ids) {
508
8
        response.add_success_tablet_ids(id);
509
8
    }
510
36
    for (auto& [id, st] : failed_tablets) {
511
10
        auto pb = response.add_failed_tablets();
512
10
        pb->set_id(id);
513
10
        st.to_protobuf(pb->mutable_status());
514
10
    }
515
516
36
    if (_enable_profile && _close_load_cnt == _total_streams) {
517
0
        TRuntimeProfileTree tprofile;
518
0
        ThriftSerializer ser(false, 4096);
519
0
        uint8_t* buf = nullptr;
520
0
        uint32_t len = 0;
521
0
        std::unique_lock<bthread::Mutex> l(_lock);
522
523
0
        _profile->to_thrift(&tprofile);
524
0
        auto st = ser.serialize(&tprofile, &len, &buf);
525
0
        if (st.ok()) {
526
0
            response.set_load_stream_profile(buf, len);
527
0
        } else {
528
0
            LOG(WARNING) << "TRuntimeProfileTree serialize failed, errmsg=" << st << ", " << *this;
529
0
        }
530
0
    }
531
532
36
    buf.append(response.SerializeAsString());
533
36
    auto wst = _write_stream(stream, buf);
534
36
    if (!wst.ok()) {
535
0
        LOG(WARNING) << " report result failed with " << wst << ", " << *this;
536
0
    }
537
36
}
538
539
0
void LoadStream::_report_schema(StreamId stream, const PStreamHeader& hdr) {
540
0
    butil::IOBuf buf;
541
0
    PLoadStreamResponse response;
542
0
    Status st = Status::OK();
543
0
    for (const auto& req : hdr.tablets()) {
544
0
        BaseTabletSPtr tablet;
545
0
        if (auto res = ExecEnv::get_tablet(req.tablet_id()); res.has_value()) {
546
0
            tablet = std::move(res).value();
547
0
        } else {
548
0
            st = std::move(res).error();
549
0
            break;
550
0
        }
551
0
        auto* resp = response.add_tablet_schemas();
552
0
        resp->set_index_id(req.index_id());
553
0
        resp->set_enable_unique_key_merge_on_write(tablet->enable_unique_key_merge_on_write());
554
0
        tablet->tablet_schema()->to_schema_pb(resp->mutable_tablet_schema());
555
0
    }
556
0
    st.to_protobuf(response.mutable_status());
557
558
0
    buf.append(response.SerializeAsString());
559
0
    auto wst = _write_stream(stream, buf);
560
0
    if (!wst.ok()) {
561
0
        LOG(WARNING) << " report result failed with " << wst << ", " << *this;
562
0
    }
563
0
}
564
565
36
Status LoadStream::_write_stream(StreamId stream, butil::IOBuf& buf) {
566
36
    for (;;) {
567
36
        int ret = 0;
568
36
        DBUG_EXECUTE_IF("LoadStream._write_stream.EAGAIN", { ret = EAGAIN; });
569
36
        if (ret == 0) {
570
36
            ret = brpc::StreamWrite(stream, buf);
571
36
        }
572
36
        switch (ret) {
573
36
        case 0:
574
36
            return Status::OK();
575
0
        case EAGAIN: {
576
0
            const timespec time = butil::seconds_from_now(config::load_stream_eagain_wait_seconds);
577
0
            int wait_ret = brpc::StreamWait(stream, &time);
578
0
            if (wait_ret != 0) {
579
0
                return Status::InternalError("StreamWait failed, err={}", wait_ret);
580
0
            }
581
0
            break;
582
0
        }
583
0
        default:
584
0
            return Status::InternalError("StreamWrite failed, err={}", ret);
585
36
        }
586
36
    }
587
0
    return Status::OK();
588
36
}
589
590
62
void LoadStream::_parse_header(butil::IOBuf* const message, PStreamHeader& hdr) {
591
62
    butil::IOBufAsZeroCopyInputStream wrapper(*message);
592
62
    hdr.ParseFromZeroCopyStream(&wrapper);
593
62
    VLOG_DEBUG << "header parse result: " << hdr.DebugString();
594
62
}
595
596
28
Status LoadStream::_append_data(const PStreamHeader& header, butil::IOBuf* data) {
597
28
    SCOPED_TIMER(_append_data_timer);
598
28
    IndexStreamSharedPtr index_stream;
599
600
28
    int64_t index_id = header.index_id();
601
28
    DBUG_EXECUTE_IF("TabletStream._append_data.unknown_indexid",
602
28
                    { index_id = UNKNOWN_ID_FOR_TEST; });
603
28
    auto it = _index_streams_map.find(index_id);
604
28
    if (it == _index_streams_map.end()) {
605
1
        return Status::Error<ErrorCode::INVALID_ARGUMENT>("unknown index_id {}", index_id);
606
27
    } else {
607
27
        index_stream = it->second;
608
27
    }
609
610
27
    return index_stream->append_data(header, data);
611
28
}
612
613
49
int LoadStream::on_received_messages(StreamId id, butil::IOBuf* const messages[], size_t size) {
614
49
    VLOG_DEBUG << "on_received_messages " << id << " " << size;
615
111
    for (size_t i = 0; i < size; ++i) {
616
124
        while (messages[i]->size() > 0) {
617
            // step 1: parse header
618
62
            size_t hdr_len = 0;
619
62
            messages[i]->cutn((void*)&hdr_len, sizeof(size_t));
620
62
            butil::IOBuf hdr_buf;
621
62
            PStreamHeader hdr;
622
62
            messages[i]->cutn(&hdr_buf, hdr_len);
623
62
            _parse_header(&hdr_buf, hdr);
624
625
            // step 2: cut data
626
62
            size_t data_len = 0;
627
62
            messages[i]->cutn((void*)&data_len, sizeof(size_t));
628
62
            butil::IOBuf data_buf;
629
62
            PStreamHeader data;
630
62
            messages[i]->cutn(&data_buf, data_len);
631
632
            // step 3: dispatch
633
62
            _dispatch(id, hdr, &data_buf);
634
62
        }
635
62
    }
636
49
    return 0;
637
49
}
638
639
62
void LoadStream::_dispatch(StreamId id, const PStreamHeader& hdr, butil::IOBuf* data) {
640
62
    VLOG_DEBUG << PStreamHeader_Opcode_Name(hdr.opcode()) << " from " << hdr.src_id()
641
0
               << " with tablet " << hdr.tablet_id();
642
62
    SCOPED_ATTACH_TASK(_query_thread_context);
643
    // CLOSE_LOAD message should not be fault injected,
644
    // otherwise the message will be ignored and causing close wait timeout
645
62
    if (hdr.opcode() != PStreamHeader::CLOSE_LOAD) {
646
30
        DBUG_EXECUTE_IF("LoadStream._dispatch.unknown_loadid", {
647
30
            PUniqueId& load_id = const_cast<PUniqueId&>(hdr.load_id());
648
30
            load_id.set_hi(UNKNOWN_ID_FOR_TEST);
649
30
            load_id.set_lo(UNKNOWN_ID_FOR_TEST);
650
30
        });
651
30
        DBUG_EXECUTE_IF("LoadStream._dispatch.unknown_srcid", {
652
30
            PStreamHeader& t_hdr = const_cast<PStreamHeader&>(hdr);
653
30
            t_hdr.set_src_id(UNKNOWN_ID_FOR_TEST);
654
30
        });
655
30
    }
656
62
    if (UniqueId(hdr.load_id()) != UniqueId(_load_id)) {
657
1
        Status st = Status::Error<ErrorCode::INVALID_ARGUMENT>(
658
1
                "invalid load id {}, expected {}", print_id(hdr.load_id()), print_id(_load_id));
659
1
        _report_failure(id, st, hdr);
660
1
        return;
661
1
    }
662
663
61
    {
664
61
        std::lock_guard lock_guard(_lock);
665
61
        if (!_open_streams.contains(hdr.src_id())) {
666
17
            Status st = Status::Error<ErrorCode::INVALID_ARGUMENT>("no open stream from source {}",
667
17
                                                                   hdr.src_id());
668
17
            _report_failure(id, st, hdr);
669
17
            return;
670
17
        }
671
61
    }
672
673
44
    switch (hdr.opcode()) {
674
0
    case PStreamHeader::ADD_SEGMENT: // ADD_SEGMENT will be dispatched inside TabletStream
675
28
    case PStreamHeader::APPEND_DATA: {
676
28
        auto st = _append_data(hdr, data);
677
28
        if (!st.ok()) {
678
2
            _report_failure(id, st, hdr);
679
2
        }
680
28
    } break;
681
16
    case PStreamHeader::CLOSE_LOAD: {
682
16
        std::vector<int64_t> success_tablet_ids;
683
16
        FailedTablets failed_tablets;
684
16
        std::vector<PTabletID> tablets_to_commit(hdr.tablets().begin(), hdr.tablets().end());
685
16
        close(hdr.src_id(), tablets_to_commit, &success_tablet_ids, &failed_tablets);
686
16
        _report_result(id, Status::OK(), success_tablet_ids, failed_tablets, true);
687
16
        brpc::StreamClose(id);
688
16
    } break;
689
0
    case PStreamHeader::GET_SCHEMA: {
690
0
        _report_schema(id, hdr);
691
0
    } break;
692
0
    default:
693
0
        LOG(WARNING) << "unexpected stream message " << hdr.opcode() << ", " << *this;
694
0
        DCHECK(false);
695
44
    }
696
44
}
697
698
0
void LoadStream::on_idle_timeout(StreamId id) {
699
0
    LOG(WARNING) << "closing load stream on idle timeout, " << *this;
700
0
    brpc::StreamClose(id);
701
0
}
702
703
16
void LoadStream::on_closed(StreamId id) {
704
    // `this` may be freed by other threads after increasing `_close_rpc_cnt`,
705
    // format string first to prevent use-after-free
706
16
    std::stringstream ss;
707
16
    ss << *this;
708
16
    auto remaining_streams = _total_streams - _close_rpc_cnt.fetch_add(1) - 1;
709
16
    LOG(INFO) << "stream " << id << " on_closed, remaining streams = " << remaining_streams << ", "
710
16
              << ss.str();
711
16
    if (remaining_streams == 0) {
712
14
        _load_stream_mgr->clear_load(_load_id);
713
14
    }
714
16
}
715
716
110
inline std::ostream& operator<<(std::ostream& ostr, const LoadStream& load_stream) {
717
110
    ostr << "load_id=" << print_id(load_stream._load_id) << ", txn_id=" << load_stream._txn_id;
718
110
    return ostr;
719
110
}
720
721
} // namespace doris