2a9bfa3e3f
Then caller can decide whether to copy or move candidate set into the function. cleanup_sstables_compaction_task can move candidates as it's no longer needed once it retrieves all descriptors. Signed-off-by: Raphael S. Carvalho <raphaelsc@scylladb.com>
80 lines
3.2 KiB
C++
80 lines
3.2 KiB
C++
/*
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* Copyright (C) 2017-present ScyllaDB
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*/
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/*
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* SPDX-License-Identifier: AGPL-3.0-or-later
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*/
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#pragma once
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#include "cql3/statements/property_definitions.hh"
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#include "compaction_backlog_manager.hh"
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#include "compaction_strategy.hh"
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#include "db_clock.hh"
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namespace compaction {
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class table_state;
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class strategy_control;
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}
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namespace sstables {
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compaction_backlog_tracker& get_unimplemented_backlog_tracker();
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class sstable_set_impl;
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class compaction_descriptor;
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class resharding_descriptor;
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class compaction_strategy_impl {
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static constexpr float DEFAULT_TOMBSTONE_THRESHOLD = 0.2f;
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// minimum interval needed to perform tombstone removal compaction in seconds, default 86400 or 1 day.
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static constexpr std::chrono::seconds DEFAULT_TOMBSTONE_COMPACTION_INTERVAL() { return std::chrono::seconds(86400); }
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protected:
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const sstring TOMBSTONE_THRESHOLD_OPTION = "tombstone_threshold";
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const sstring TOMBSTONE_COMPACTION_INTERVAL_OPTION = "tombstone_compaction_interval";
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bool _use_clustering_key_filter = false;
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bool _disable_tombstone_compaction = false;
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float _tombstone_threshold = DEFAULT_TOMBSTONE_THRESHOLD;
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db_clock::duration _tombstone_compaction_interval = DEFAULT_TOMBSTONE_COMPACTION_INTERVAL();
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public:
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static std::optional<sstring> get_value(const std::map<sstring, sstring>& options, const sstring& name);
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protected:
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compaction_strategy_impl() = default;
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explicit compaction_strategy_impl(const std::map<sstring, sstring>& options);
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public:
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virtual ~compaction_strategy_impl() {}
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virtual compaction_descriptor get_sstables_for_compaction(table_state& table_s, strategy_control& control, std::vector<sstables::shared_sstable> candidates) = 0;
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virtual compaction_descriptor get_major_compaction_job(table_state& table_s, std::vector<sstables::shared_sstable> candidates);
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virtual std::vector<compaction_descriptor> get_cleanup_compaction_jobs(table_state& table_s, std::vector<shared_sstable> candidates) const;
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virtual void notify_completion(const std::vector<shared_sstable>& removed, const std::vector<shared_sstable>& added) { }
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virtual compaction_strategy_type type() const = 0;
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virtual bool parallel_compaction() const {
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return true;
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}
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virtual int64_t estimated_pending_compactions(table_state& table_s) const = 0;
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virtual std::unique_ptr<sstable_set_impl> make_sstable_set(schema_ptr schema) const;
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bool use_clustering_key_filter() const {
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return _use_clustering_key_filter;
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}
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// Check if a given sstable is entitled for tombstone compaction based on its
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// droppable tombstone histogram and gc_before.
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bool worth_dropping_tombstones(const shared_sstable& sst, gc_clock::time_point compaction_time);
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virtual compaction_backlog_tracker& get_backlog_tracker() = 0;
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virtual uint64_t adjust_partition_estimate(const mutation_source_metadata& ms_meta, uint64_t partition_estimate);
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virtual reader_consumer_v2 make_interposer_consumer(const mutation_source_metadata& ms_meta, reader_consumer_v2 end_consumer);
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virtual bool use_interposer_consumer() const {
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return false;
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}
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virtual compaction_descriptor get_reshaping_job(std::vector<shared_sstable> input, schema_ptr schema, const ::io_priority_class& iop, reshape_mode mode);
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};
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}
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