Coverage Report

Created: 2024-11-21 20:24

/root/doris/be/src/runtime/load_channel.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_channel.h"
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#include <gen_cpp/internal_service.pb.h>
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#include <glog/logging.h>
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#include "cloud/cloud_tablets_channel.h"
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#include "cloud/config.h"
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#include "common/logging.h"
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#include "olap/storage_engine.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/memory/mem_tracker.h"
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#include "runtime/tablets_channel.h"
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#include "runtime/thread_context.h"
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#include "runtime/workload_group/workload_group_manager.h"
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namespace doris {
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bvar::Adder<int64_t> g_loadchannel_cnt("loadchannel_cnt");
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LoadChannel::LoadChannel(const UniqueId& load_id, int64_t timeout_s, bool is_high_priority,
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                         std::string sender_ip, int64_t backend_id, bool enable_profile,
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                         int64_t wg_id)
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        : _load_id(load_id),
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          _timeout_s(timeout_s),
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          _is_high_priority(is_high_priority),
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          _sender_ip(std::move(sender_ip)),
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          _backend_id(backend_id),
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          _enable_profile(enable_profile) {
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    std::shared_ptr<QueryContext> query_context =
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            ExecEnv::GetInstance()->fragment_mgr()->get_or_erase_query_ctx_with_lock(
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                    _load_id.to_thrift());
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    std::shared_ptr<MemTrackerLimiter> mem_tracker = nullptr;
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    WorkloadGroupPtr wg_ptr = nullptr;
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    if (query_context != nullptr) {
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        mem_tracker = query_context->query_mem_tracker;
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        wg_ptr = query_context->workload_group();
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    } else {
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        // when memtable on sink is not enabled, load can not find queryctx
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        mem_tracker = MemTrackerLimiter::create_shared(
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                MemTrackerLimiter::Type::LOAD,
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                fmt::format("(FromLoadChannel)Load#Id={}", _load_id.to_string()));
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        if (wg_id > 0) {
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            WorkloadGroupPtr workload_group_ptr =
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                    ExecEnv::GetInstance()->workload_group_mgr()->get_task_group_by_id(wg_id);
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            if (workload_group_ptr) {
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                wg_ptr = workload_group_ptr;
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                wg_ptr->add_mem_tracker_limiter(mem_tracker);
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            }
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        }
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    }
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    _query_thread_context = {_load_id.to_thrift(), mem_tracker, wg_ptr};
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    g_loadchannel_cnt << 1;
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    // _last_updated_time should be set before being inserted to
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    // _load_channels in load_channel_mgr, or it may be erased
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    // immediately by gc thread.
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    _last_updated_time.store(time(nullptr));
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    _init_profile();
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}
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LoadChannel::~LoadChannel() {
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    g_loadchannel_cnt << -1;
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    std::stringstream rows_str;
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    for (const auto& entry : _tablets_channels_rows) {
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        rows_str << ", index id: " << entry.first << ", total_received_rows: " << entry.second.first
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                 << ", num_rows_filtered: " << entry.second.second;
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    }
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    LOG(INFO) << "load channel removed"
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              << " load_id=" << _load_id << ", is high priority=" << _is_high_priority
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              << ", sender_ip=" << _sender_ip << rows_str.str();
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}
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void LoadChannel::_init_profile() {
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    _profile = std::make_unique<RuntimeProfile>("LoadChannels");
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    _mgr_add_batch_timer = ADD_TIMER(_profile, "LoadChannelMgrAddBatchTime");
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    _handle_mem_limit_timer = ADD_TIMER(_profile, "HandleMemLimitTime");
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    _self_profile =
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            _profile->create_child(fmt::format("LoadChannel load_id={} (host={}, backend_id={})",
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                                               _load_id.to_string(), _sender_ip, _backend_id),
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                                   true, true);
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    _add_batch_number_counter = ADD_COUNTER(_self_profile, "NumberBatchAdded", TUnit::UNIT);
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    _peak_memory_usage_counter = ADD_COUNTER(_self_profile, "PeakMemoryUsage", TUnit::BYTES);
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    _add_batch_timer = ADD_TIMER(_self_profile, "AddBatchTime");
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    _handle_eos_timer = ADD_CHILD_TIMER(_self_profile, "HandleEosTime", "AddBatchTime");
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    _add_batch_times = ADD_COUNTER(_self_profile, "AddBatchTimes", TUnit::UNIT);
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}
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Status LoadChannel::open(const PTabletWriterOpenRequest& params) {
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    if (config::is_cloud_mode() && params.txn_expiration() <= 0) {
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        return Status::InternalError(
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                "The txn expiration of PTabletWriterOpenRequest is invalid, value={}",
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                params.txn_expiration());
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    }
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    SCOPED_ATTACH_TASK(_query_thread_context);
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    int64_t index_id = params.index_id();
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    std::shared_ptr<BaseTabletsChannel> channel;
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    {
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        std::lock_guard<std::mutex> l(_lock);
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        auto it = _tablets_channels.find(index_id);
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        if (it != _tablets_channels.end()) {
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            channel = it->second;
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        } else {
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            // just for VLOG
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            if (_txn_id == 0) [[unlikely]] {
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                _txn_id = params.txn_id();
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            }
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            // create a new tablets channel
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            TabletsChannelKey key(params.id(), index_id);
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            BaseStorageEngine& engine = ExecEnv::GetInstance()->storage_engine();
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            if (config::is_cloud_mode()) {
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                channel = std::make_shared<CloudTabletsChannel>(engine.to_cloud(), key, _load_id,
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                                                                _is_high_priority, _self_profile);
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            } else {
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                channel = std::make_shared<TabletsChannel>(engine.to_local(), key, _load_id,
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                                                           _is_high_priority, _self_profile);
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            }
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            {
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                std::lock_guard<std::mutex> l(_tablets_channels_lock);
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                _tablets_channels.insert({index_id, channel});
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            }
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        }
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    }
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    if (params.is_incremental()) {
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        // incremental open would ensure not to open tablet repeatedly
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        RETURN_IF_ERROR(channel->incremental_open(params));
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    } else {
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        RETURN_IF_ERROR(channel->open(params));
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    }
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    _opened = true;
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    _last_updated_time.store(time(nullptr));
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    return Status::OK();
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}
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Status LoadChannel::_get_tablets_channel(std::shared_ptr<BaseTabletsChannel>& channel,
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                                         bool& is_finished, const int64_t index_id) {
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    std::lock_guard<std::mutex> l(_lock);
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    auto it = _tablets_channels.find(index_id);
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    if (it == _tablets_channels.end()) {
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        if (_finished_channel_ids.find(index_id) != _finished_channel_ids.end()) {
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            // this channel is already finished, just return OK
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            is_finished = true;
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            return Status::OK();
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        }
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        std::stringstream ss;
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        ss << "load channel " << _load_id << " add batch with unknown index id: " << index_id;
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        return Status::InternalError(ss.str());
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    }
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    is_finished = false;
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    channel = it->second;
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    return Status::OK();
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}
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Status LoadChannel::add_batch(const PTabletWriterAddBlockRequest& request,
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                              PTabletWriterAddBlockResult* response) {
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    SCOPED_TIMER(_add_batch_timer);
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    COUNTER_UPDATE(_add_batch_times, 1);
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    SCOPED_ATTACH_TASK(_query_thread_context);
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    int64_t index_id = request.index_id();
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    // 1. get tablets channel
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    std::shared_ptr<BaseTabletsChannel> channel;
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    bool is_finished = false;
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    Status st = _get_tablets_channel(channel, is_finished, index_id);
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    if (!st.ok() || is_finished) {
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        return st;
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    }
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    // 2. add block to tablets channel
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    if (request.has_block()) {
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        RETURN_IF_ERROR(channel->add_batch(request, response));
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        _add_batch_number_counter->update(1);
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    }
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    // 3. handle eos
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    // if channel is incremental, maybe hang on close until all close request arrived.
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    if (request.has_eos() && request.eos()) {
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        st = _handle_eos(channel.get(), request, response);
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        _report_profile(response);
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        if (!st.ok()) {
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            return st;
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        }
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    } else if (_add_batch_number_counter->value() % 100 == 1) {
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        _report_profile(response);
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    }
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    _last_updated_time.store(time(nullptr));
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    return st;
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}
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Status LoadChannel::_handle_eos(BaseTabletsChannel* channel,
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                                const PTabletWriterAddBlockRequest& request,
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                                PTabletWriterAddBlockResult* response) {
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    _self_profile->add_info_string("EosHost", fmt::format("{}", request.backend_id()));
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    bool finished = false;
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    auto index_id = request.index_id();
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    RETURN_IF_ERROR(channel->close(this, request, response, &finished));
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    // for init node, we close waiting(hang on) all close request and let them return together.
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    if (request.has_hang_wait() && request.hang_wait()) {
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        DCHECK(!channel->is_incremental_channel());
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        VLOG_DEBUG << fmt::format("txn {}: reciever index {} close waiting by sender {}", _txn_id,
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                                  request.index_id(), request.sender_id());
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        int count = 0;
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        while (!channel->is_finished()) {
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            bthread_usleep(1000);
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            count++;
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        }
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        // now maybe finished or cancelled.
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        VLOG_TRACE << "reciever close wait finished!" << request.sender_id();
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        if (count >= 1000 * _timeout_s) { // maybe config::streaming_load_rpc_max_alive_time_sec
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            return Status::InternalError("Tablets channel didn't wait all close");
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        }
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    }
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    if (finished) {
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        std::lock_guard<std::mutex> l(_lock);
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        {
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            std::lock_guard<std::mutex> l(_tablets_channels_lock);
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            _tablets_channels_rows.insert(std::make_pair(
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                    index_id,
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                    std::make_pair(channel->total_received_rows(), channel->num_rows_filtered())));
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            _tablets_channels.erase(index_id);
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        }
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        LOG(INFO) << "txn " << _txn_id << " closed tablets_channel " << index_id;
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        _finished_channel_ids.emplace(index_id);
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    }
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    return Status::OK();
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}
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void LoadChannel::_report_profile(PTabletWriterAddBlockResult* response) {
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    if (!_enable_profile) {
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        return;
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    }
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    // TabletSink and LoadChannel in BE are M: N relationship,
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    // Every once in a while LoadChannel will randomly return its own runtime profile to a TabletSink,
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    // so usually all LoadChannel runtime profiles are saved on each TabletSink,
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    // and the timeliness of the same LoadChannel profile saved on different TabletSinks is different,
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    // and each TabletSink will periodically send fe reports all the LoadChannel profiles saved by itself,
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    // and ensures to update the latest LoadChannel profile according to the timestamp.
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    _self_profile->set_timestamp(_last_updated_time);
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    {
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        std::lock_guard<std::mutex> l(_tablets_channels_lock);
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        for (auto& it : _tablets_channels) {
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            it.second->refresh_profile();
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        }
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    }
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    TRuntimeProfileTree tprofile;
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    ThriftSerializer ser(false, 4096);
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    uint8_t* buf = nullptr;
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    uint32_t len = 0;
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    std::lock_guard<SpinLock> l(_profile_serialize_lock);
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    _profile->to_thrift(&tprofile);
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    auto st = ser.serialize(&tprofile, &len, &buf);
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    if (st.ok()) {
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        response->set_load_channel_profile(std::string((const char*)buf, len));
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    } else {
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        LOG(WARNING) << "load channel TRuntimeProfileTree serialize failed, errmsg=" << st;
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    }
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}
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bool LoadChannel::is_finished() {
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    if (!_opened) {
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        return false;
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    }
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    std::lock_guard<std::mutex> l(_lock);
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    return _tablets_channels.empty();
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}
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Status LoadChannel::cancel() {
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    std::lock_guard<std::mutex> l(_lock);
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    for (auto& it : _tablets_channels) {
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        static_cast<void>(it.second->cancel());
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    }
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    return Status::OK();
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}
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} // namespace doris