mirror of
https://github.com/ClickHouse/ClickHouse.git
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97f2a2213e
* Move some code outside dbms/src folder * Fix paths
516 lines
18 KiB
C++
516 lines
18 KiB
C++
#include <Interpreters/ProcessList.h>
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#include <Core/Settings.h>
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#include <Interpreters/Context.h>
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#include <Interpreters/DatabaseAndTableWithAlias.h>
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#include <Parsers/ASTSelectWithUnionQuery.h>
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#include <Parsers/ASTSelectQuery.h>
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#include <Parsers/ASTKillQueryQuery.h>
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#include <Common/typeid_cast.h>
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#include <Common/Exception.h>
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#include <Common/CurrentThread.h>
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#include <IO/WriteHelpers.h>
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#include <DataStreams/IBlockInputStream.h>
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#include <common/logger_useful.h>
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#include <chrono>
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namespace CurrentMetrics
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{
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extern const Metric MemoryTracking;
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}
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namespace DB
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{
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namespace ErrorCodes
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{
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extern const int TOO_MANY_SIMULTANEOUS_QUERIES;
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extern const int QUERY_WITH_SAME_ID_IS_ALREADY_RUNNING;
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extern const int LOGICAL_ERROR;
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}
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/// Should we execute the query even if max_concurrent_queries limit is exhausted
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static bool isUnlimitedQuery(const IAST * ast)
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{
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if (!ast)
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return false;
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/// It is KILL QUERY
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if (ast->as<ASTKillQueryQuery>())
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return true;
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/// It is SELECT FROM system.processes
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/// NOTE: This is very rough check.
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/// False negative: USE system; SELECT * FROM processes;
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/// False positive: SELECT * FROM system.processes CROSS JOIN (SELECT ...)
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if (const auto * ast_selects = ast->as<ASTSelectWithUnionQuery>())
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{
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if (!ast_selects->list_of_selects || ast_selects->list_of_selects->children.empty())
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return false;
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const auto * ast_select = ast_selects->list_of_selects->children[0]->as<ASTSelectQuery>();
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if (!ast_select)
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return false;
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if (auto database_and_table = getDatabaseAndTable(*ast_select, 0))
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return database_and_table->database == "system" && database_and_table->table == "processes";
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return false;
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}
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return false;
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}
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ProcessList::ProcessList(size_t max_size_)
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: max_size(max_size_)
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{
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total_memory_tracker.setMetric(CurrentMetrics::MemoryTracking);
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}
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ProcessList::EntryPtr ProcessList::insert(const String & query_, const IAST * ast, Context & query_context)
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{
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EntryPtr res;
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const ClientInfo & client_info = query_context.getClientInfo();
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const Settings & settings = query_context.getSettingsRef();
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if (client_info.current_query_id.empty())
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throw Exception("Query id cannot be empty", ErrorCodes::LOGICAL_ERROR);
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bool is_unlimited_query = isUnlimitedQuery(ast);
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{
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std::unique_lock lock(mutex);
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const auto queue_max_wait_ms = settings.queue_max_wait_ms.totalMilliseconds();
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if (!is_unlimited_query && max_size && processes.size() >= max_size)
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{
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if (queue_max_wait_ms)
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LOG_WARNING(&Logger::get("ProcessList"), "Too many simultaneous queries, will wait " << queue_max_wait_ms << " ms.");
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if (!queue_max_wait_ms || !have_space.wait_for(lock, std::chrono::milliseconds(queue_max_wait_ms), [&]{ return processes.size() < max_size; }))
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throw Exception("Too many simultaneous queries. Maximum: " + toString(max_size), ErrorCodes::TOO_MANY_SIMULTANEOUS_QUERIES);
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}
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/** Why we use current user?
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* Because initial one is passed by client and credentials for it is not verified,
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* and using initial_user for limits will be insecure.
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*
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* Why we use current_query_id?
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* Because we want to allow distributed queries that will run multiple secondary queries on same server,
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* like SELECT count() FROM remote('127.0.0.{1,2}', system.numbers)
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* so they must have different query_ids.
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*/
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{
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auto user_process_list = user_to_queries.find(client_info.current_user);
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if (user_process_list != user_to_queries.end())
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{
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if (!is_unlimited_query && settings.max_concurrent_queries_for_user
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&& user_process_list->second.queries.size() >= settings.max_concurrent_queries_for_user)
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throw Exception("Too many simultaneous queries for user " + client_info.current_user
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+ ". Current: " + toString(user_process_list->second.queries.size())
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+ ", maximum: " + settings.max_concurrent_queries_for_user.toString(),
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ErrorCodes::TOO_MANY_SIMULTANEOUS_QUERIES);
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auto running_query = user_process_list->second.queries.find(client_info.current_query_id);
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if (running_query != user_process_list->second.queries.end())
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{
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if (!settings.replace_running_query)
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throw Exception("Query with id = " + client_info.current_query_id + " is already running.",
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ErrorCodes::QUERY_WITH_SAME_ID_IS_ALREADY_RUNNING);
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/// Ask queries to cancel. They will check this flag.
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running_query->second->is_killed.store(true, std::memory_order_relaxed);
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const auto replace_running_query_max_wait_ms = settings.replace_running_query_max_wait_ms.totalMilliseconds();
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if (!replace_running_query_max_wait_ms || !have_space.wait_for(lock, std::chrono::milliseconds(replace_running_query_max_wait_ms),
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[&]
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{
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running_query = user_process_list->second.queries.find(client_info.current_query_id);
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if (running_query == user_process_list->second.queries.end())
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return true;
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running_query->second->is_killed.store(true, std::memory_order_relaxed);
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return false;
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}))
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{
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throw Exception("Query with id = " + client_info.current_query_id + " is already running and can't be stopped",
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ErrorCodes::QUERY_WITH_SAME_ID_IS_ALREADY_RUNNING);
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}
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}
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}
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}
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/// Check other users running query with our query_id
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for (const auto & user_process_list : user_to_queries)
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{
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if (user_process_list.first == client_info.current_user)
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continue;
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if (auto running_query = user_process_list.second.queries.find(client_info.current_query_id); running_query != user_process_list.second.queries.end())
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throw Exception("Query with id = " + client_info.current_query_id + " is already running by user " + user_process_list.first,
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ErrorCodes::QUERY_WITH_SAME_ID_IS_ALREADY_RUNNING);
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}
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auto process_it = processes.emplace(processes.end(),
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query_, client_info, settings.max_memory_usage, settings.memory_tracker_fault_probability, priorities.insert(settings.priority));
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res = std::make_shared<Entry>(*this, process_it);
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process_it->query_context = &query_context;
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if (!client_info.current_query_id.empty())
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{
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ProcessListForUser & user_process_list = user_to_queries[client_info.current_user];
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user_process_list.queries.emplace(client_info.current_query_id, &res->get());
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process_it->setUserProcessList(&user_process_list);
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/// Limits are only raised (to be more relaxed) or set to something instead of zero,
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/// because settings for different queries will interfere each other:
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/// setting from one query effectively sets values for all other queries.
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/// Track memory usage for all simultaneously running queries.
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/// You should specify this value in configuration for default profile,
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/// not for specific users, sessions or queries,
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/// because this setting is effectively global.
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total_memory_tracker.setOrRaiseHardLimit(settings.max_memory_usage_for_all_queries);
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total_memory_tracker.setDescription("(total)");
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/// Track memory usage for all simultaneously running queries from single user.
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user_process_list.user_memory_tracker.setParent(&total_memory_tracker);
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user_process_list.user_memory_tracker.setOrRaiseHardLimit(settings.max_memory_usage_for_user);
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user_process_list.user_memory_tracker.setDescription("(for user)");
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/// Actualize thread group info
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if (auto thread_group = CurrentThread::getGroup())
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{
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std::lock_guard lock_thread_group(thread_group->mutex);
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thread_group->performance_counters.setParent(&user_process_list.user_performance_counters);
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thread_group->memory_tracker.setParent(&user_process_list.user_memory_tracker);
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thread_group->query = process_it->query;
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/// Set query-level memory trackers
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thread_group->memory_tracker.setOrRaiseHardLimit(process_it->max_memory_usage);
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if (query_context.hasTraceCollector())
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{
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/// Set up memory profiling
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thread_group->memory_tracker.setOrRaiseProfilerLimit(settings.memory_profiler_step);
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thread_group->memory_tracker.setProfilerStep(settings.memory_profiler_step);
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}
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thread_group->memory_tracker.setDescription("(for query)");
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if (process_it->memory_tracker_fault_probability)
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thread_group->memory_tracker.setFaultProbability(process_it->memory_tracker_fault_probability);
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/// NOTE: Do not set the limit for thread-level memory tracker since it could show unreal values
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/// since allocation and deallocation could happen in different threads
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process_it->thread_group = std::move(thread_group);
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}
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if (!user_process_list.user_throttler)
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{
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if (settings.max_network_bandwidth_for_user)
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user_process_list.user_throttler = std::make_shared<Throttler>(settings.max_network_bandwidth_for_user, total_network_throttler);
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else if (settings.max_network_bandwidth_for_all_users)
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user_process_list.user_throttler = total_network_throttler;
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}
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}
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if (!total_network_throttler && settings.max_network_bandwidth_for_all_users)
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{
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total_network_throttler = std::make_shared<Throttler>(settings.max_network_bandwidth_for_all_users);
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}
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}
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return res;
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}
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ProcessListEntry::~ProcessListEntry()
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{
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/// Destroy all streams to avoid long lock of ProcessList
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it->releaseQueryStreams();
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std::lock_guard lock(parent.mutex);
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String user = it->getClientInfo().current_user;
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String query_id = it->getClientInfo().current_query_id;
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const QueryStatus * process_list_element_ptr = &*it;
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/// This removes the memory_tracker of one request.
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parent.processes.erase(it);
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auto user_process_list_it = parent.user_to_queries.find(user);
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if (user_process_list_it == parent.user_to_queries.end())
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{
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LOG_ERROR(&Logger::get("ProcessList"), "Logical error: cannot find user in ProcessList");
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std::terminate();
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}
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ProcessListForUser & user_process_list = user_process_list_it->second;
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bool found = false;
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if (auto running_query = user_process_list.queries.find(query_id); running_query != user_process_list.queries.end())
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{
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if (running_query->second == process_list_element_ptr)
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{
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user_process_list.queries.erase(running_query->first);
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found = true;
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}
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}
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if (!found)
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{
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LOG_ERROR(&Logger::get("ProcessList"), "Logical error: cannot find query by query_id and pointer to ProcessListElement in ProcessListForUser");
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std::terminate();
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}
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parent.have_space.notify_all();
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/// If there are no more queries for the user, then we will reset memory tracker and network throttler.
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if (user_process_list.queries.empty())
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user_process_list.resetTrackers();
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/// This removes memory_tracker for all requests. At this time, no other memory_trackers live.
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if (parent.processes.empty())
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{
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/// Reset MemoryTracker, similarly (see above).
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parent.total_memory_tracker.logPeakMemoryUsage();
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parent.total_memory_tracker.reset();
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parent.total_network_throttler.reset();
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}
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}
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QueryStatus::QueryStatus(
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const String & query_,
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const ClientInfo & client_info_,
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size_t max_memory_usage_,
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double memory_tracker_fault_probability_,
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QueryPriorities::Handle && priority_handle_)
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:
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query(query_),
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client_info(client_info_),
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priority_handle(std::move(priority_handle_)),
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num_queries_increment{CurrentMetrics::Query},
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max_memory_usage(max_memory_usage_),
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memory_tracker_fault_probability(memory_tracker_fault_probability_)
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{
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}
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QueryStatus::~QueryStatus() = default;
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void QueryStatus::setQueryStreams(const BlockIO & io)
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{
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std::lock_guard lock(query_streams_mutex);
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query_stream_in = io.in;
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query_stream_out = io.out;
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query_streams_status = QueryStreamsStatus::Initialized;
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}
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void QueryStatus::releaseQueryStreams()
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{
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BlockInputStreamPtr in;
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BlockOutputStreamPtr out;
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{
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std::lock_guard lock(query_streams_mutex);
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query_streams_status = QueryStreamsStatus::Released;
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in = std::move(query_stream_in);
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out = std::move(query_stream_out);
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}
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/// Destroy streams outside the mutex lock
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}
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bool QueryStatus::streamsAreReleased()
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{
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std::lock_guard lock(query_streams_mutex);
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return query_streams_status == QueryStreamsStatus::Released;
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}
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bool QueryStatus::tryGetQueryStreams(BlockInputStreamPtr & in, BlockOutputStreamPtr & out) const
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{
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std::lock_guard lock(query_streams_mutex);
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if (query_streams_status != QueryStreamsStatus::Initialized)
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return false;
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in = query_stream_in;
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out = query_stream_out;
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return true;
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}
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CancellationCode QueryStatus::cancelQuery(bool kill)
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{
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/// Streams are destroyed, and ProcessListElement will be deleted from ProcessList soon. We need wait a little bit
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if (streamsAreReleased())
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return CancellationCode::CancelSent;
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BlockInputStreamPtr input_stream;
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BlockOutputStreamPtr output_stream;
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if (tryGetQueryStreams(input_stream, output_stream))
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{
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if (input_stream)
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{
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input_stream->cancel(kill);
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return CancellationCode::CancelSent;
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}
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return CancellationCode::CancelCannotBeSent;
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}
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/// Query is not even started
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is_killed.store(true);
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return CancellationCode::CancelSent;
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}
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void QueryStatus::setUserProcessList(ProcessListForUser * user_process_list_)
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{
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user_process_list = user_process_list_;
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}
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ThrottlerPtr QueryStatus::getUserNetworkThrottler()
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{
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if (!user_process_list)
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return {};
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return user_process_list->user_throttler;
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}
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QueryStatus * ProcessList::tryGetProcessListElement(const String & current_query_id, const String & current_user)
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{
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auto user_it = user_to_queries.find(current_user);
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if (user_it != user_to_queries.end())
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{
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const auto & user_queries = user_it->second.queries;
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auto query_it = user_queries.find(current_query_id);
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if (query_it != user_queries.end())
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return query_it->second;
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}
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return nullptr;
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}
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CancellationCode ProcessList::sendCancelToQuery(const String & current_query_id, const String & current_user, bool kill)
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{
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std::lock_guard lock(mutex);
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QueryStatus * elem = tryGetProcessListElement(current_query_id, current_user);
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if (!elem)
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return CancellationCode::NotFound;
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return elem->cancelQuery(kill);
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}
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void ProcessList::killAllQueries()
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{
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std::lock_guard lock(mutex);
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for (auto & process : processes)
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process.cancelQuery(true);
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}
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QueryStatusInfo QueryStatus::getInfo(bool get_thread_list, bool get_profile_events, bool get_settings) const
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{
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QueryStatusInfo res;
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res.query = query;
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res.client_info = client_info;
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res.elapsed_seconds = watch.elapsedSeconds();
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res.is_cancelled = is_killed.load(std::memory_order_relaxed);
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res.read_rows = progress_in.read_rows;
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res.read_bytes = progress_in.read_bytes;
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res.total_rows = progress_in.total_rows_to_read;
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/// TODO: Use written_rows and written_bytes when real time progress is implemented
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res.written_rows = progress_out.read_rows;
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res.written_bytes = progress_out.read_bytes;
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if (thread_group)
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{
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res.memory_usage = thread_group->memory_tracker.get();
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res.peak_memory_usage = thread_group->memory_tracker.getPeak();
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if (get_thread_list)
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{
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std::lock_guard lock(thread_group->mutex);
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res.thread_ids = thread_group->thread_ids;
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}
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if (get_profile_events)
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res.profile_counters = std::make_shared<ProfileEvents::Counters>(thread_group->performance_counters.getPartiallyAtomicSnapshot());
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}
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if (get_settings && query_context)
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res.query_settings = std::make_shared<Settings>(query_context->getSettingsRef());
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return res;
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}
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ProcessList::Info ProcessList::getInfo(bool get_thread_list, bool get_profile_events, bool get_settings) const
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{
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Info per_query_infos;
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std::lock_guard lock(mutex);
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per_query_infos.reserve(processes.size());
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for (const auto & process : processes)
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per_query_infos.emplace_back(process.getInfo(get_thread_list, get_profile_events, get_settings));
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return per_query_infos;
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}
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ProcessListForUser::ProcessListForUser() = default;
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ProcessListForUserInfo ProcessListForUser::getInfo(bool get_profile_events) const
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{
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ProcessListForUserInfo res;
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res.memory_usage = user_memory_tracker.get();
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res.peak_memory_usage = user_memory_tracker.getPeak();
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if (get_profile_events)
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res.profile_counters = std::make_shared<ProfileEvents::Counters>(user_performance_counters.getPartiallyAtomicSnapshot());
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return res;
|
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}
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ProcessList::UserInfo ProcessList::getUserInfo(bool get_profile_events) const
|
|
{
|
|
UserInfo per_user_infos;
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|
|
|
std::lock_guard lock(mutex);
|
|
|
|
per_user_infos.reserve(user_to_queries.size());
|
|
|
|
for (const auto & [user, user_queries] : user_to_queries)
|
|
per_user_infos.emplace(user, user_queries.getInfo(get_profile_events));
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|
|
|
return per_user_infos;
|
|
}
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|
|
|
}
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