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176 lines
6.7 KiB
C++
176 lines
6.7 KiB
C++
#pragma once
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#include <DB/Core/NamesAndTypes.h>
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#include <DB/Storages/MergeTree/RangesInDataPart.h>
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#include <mutex>
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namespace DB
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{
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/// A batch of work for MergeTreeThreadBlockInputStream
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struct MergeTreeReadTask
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{
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/// data part which should be read while performing this task
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MergeTreeData::DataPartPtr data_part;
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/** Ranges to read from `data_part`.
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* Specified in reverse order for MergeTreeThreadBlockInputStream's convenience of calling .pop_back(). */
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MarkRanges mark_ranges;
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/// for virtual `part_index` virtual column
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std::size_t part_index_in_query;
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/// ordered list of column names used in this query, allows returning blocks with consistent ordering
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const Names & ordered_names;
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/// used to determine whether column should be filtered during PREWHERE or WHERE
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const NameSet & column_name_set;
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/// column names to read during WHERE
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const NamesAndTypesList & columns;
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/// column names to read during PREWHERE
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const NamesAndTypesList & pre_columns;
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/// should PREWHERE column be returned to requesting side?
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const bool remove_prewhere_column;
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/// resulting block may require reordering in accordance with `ordered_names`
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const bool should_reorder;
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MergeTreeReadTask(
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const MergeTreeData::DataPartPtr & data_part, const MarkRanges & ranges, const std::size_t part_index_in_query,
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const Names & ordered_names, const NameSet & column_name_set, const NamesAndTypesList & columns,
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const NamesAndTypesList & pre_columns, const bool remove_prewhere_column, const bool should_reorder)
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: data_part{data_part}, mark_ranges{ranges}, part_index_in_query{part_index_in_query},
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ordered_names{ordered_names}, column_name_set{column_name_set}, columns{columns}, pre_columns{pre_columns},
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remove_prewhere_column{remove_prewhere_column}, should_reorder{should_reorder}
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{}
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};
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using MergeTreeReadTaskPtr = std::unique_ptr<MergeTreeReadTask>;
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/** Provides read tasks for MergeTreeThreadBlockInputStream`s in fine-grained batches, allowing for more
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* uniform distribution of work amongst multiple threads. All parts and their ranges are divided into `threads`
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* workloads with at most `sum_marks / threads` marks. Then, threads are performing reads from these workloads
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* in "sequential" manner, requesting work in small batches. As soon as some thread has exhausted
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* it's workload, it either is signaled that no more work is available (`do_not_steal_tasks == false`) or
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* continues taking small batches from other threads' workloads (`do_not_steal_tasks == true`).
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*/
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class MergeTreeReadPool : private boost::noncopyable
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{
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public:
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/** Pull could dynamically lower (backoff) number of threads, if read operation are too slow.
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* Settings for that backoff.
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*/
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struct BackoffSettings
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{
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/// Pay attention only to reads, that took at least this amount of time. If set to 0 - means backoff is disabled.
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size_t min_read_latency_ms = 1000;
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/// Count events, when read throughput is less than specified bytes per second.
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size_t max_throughput = 1048576;
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/// Do not pay attention to event, if not enough time passed since previous event.
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size_t min_interval_between_events_ms = 1000;
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/// Number of events to do backoff - to lower number of threads in pool.
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size_t min_events = 2;
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/// Constants above is just an example.
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BackoffSettings(const Settings & settings)
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: min_read_latency_ms(settings.read_backoff_min_latency_ms.totalMilliseconds()),
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max_throughput(settings.read_backoff_max_throughput),
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min_interval_between_events_ms(settings.read_backoff_min_interval_between_events_ms.totalMilliseconds()),
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min_events(settings.read_backoff_min_events)
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{
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}
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BackoffSettings() : min_read_latency_ms(0) {}
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};
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BackoffSettings backoff_settings;
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private:
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/** State to track numbers of slow reads.
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*/
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struct BackoffState
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{
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size_t current_threads;
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Stopwatch time_since_prev_event {CLOCK_MONOTONIC_COARSE};
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size_t num_events = 0;
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BackoffState(size_t threads) : current_threads(threads) {}
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};
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BackoffState backoff_state;
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public:
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MergeTreeReadPool(
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const std::size_t threads, const std::size_t sum_marks, const std::size_t min_marks_for_concurrent_read,
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RangesInDataParts parts, MergeTreeData & data, const ExpressionActionsPtr & prewhere_actions,
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const String & prewhere_column_name, const bool check_columns, const Names & column_names,
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const BackoffSettings & backoff_settings,
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const bool do_not_steal_tasks = false);
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MergeTreeReadTaskPtr getTask(const std::size_t min_marks_to_read, const std::size_t thread);
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/** Each worker could call this method and pass information about read performance.
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* If read performance is too low, pool could decide to lower number of threads: do not assign more tasks to several threads.
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* This allows to overcome excessive load to disk subsystem, when reads are not from page cache.
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*/
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void profileFeedback(const ReadBufferFromFileBase::ProfileInfo info);
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private:
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std::vector<std::size_t> fillPerPartInfo(
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RangesInDataParts & parts, const ExpressionActionsPtr & prewhere_actions, const String & prewhere_column_name,
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const bool check_columns);
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void fillPerThreadInfo(
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const std::size_t threads, const std::size_t sum_marks, std::vector<std::size_t> per_part_sum_marks,
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RangesInDataParts & parts, const std::size_t min_marks_for_concurrent_read);
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/** Если некоторых запрошенных столбцов нет в куске,
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* то выясняем, какие столбцы может быть необходимо дополнительно прочитать,
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* чтобы можно было вычислить DEFAULT выражение для этих столбцов.
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* Добавляет их в columns.
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*/
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NameSet injectRequiredColumns(const MergeTreeData::DataPartPtr & part, Names & columns) const;
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std::vector<std::unique_ptr<Poco::ScopedReadRWLock>> per_part_columns_lock;
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MergeTreeData & data;
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Names column_names;
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bool do_not_steal_tasks;
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std::vector<NameSet> per_part_column_name_set;
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std::vector<NamesAndTypesList> per_part_columns;
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std::vector<NamesAndTypesList> per_part_pre_columns;
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/// @todo actually all of these values are either true or false for the whole query, thus no vector required
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std::vector<char> per_part_remove_prewhere_column;
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std::vector<char> per_part_should_reorder;
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struct Part
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{
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MergeTreeData::DataPartPtr data_part;
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std::size_t part_index_in_query;
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};
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std::vector<Part> parts;
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struct ThreadTask
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{
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struct PartIndexAndRange
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{
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std::size_t part_idx;
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MarkRanges ranges;
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};
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std::vector<PartIndexAndRange> parts_and_ranges;
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std::vector<std::size_t> sum_marks_in_parts;
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};
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std::vector<ThreadTask> threads_tasks;
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std::set<std::size_t> remaining_thread_tasks;
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mutable std::mutex mutex;
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Logger * log = &Logger::get("MergeTreeReadPool");
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};
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using MergeTreeReadPoolPtr = std::shared_ptr<MergeTreeReadPool>;
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}
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