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compaction_strategy.hh
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compaction_strategy.hh
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/*
* Copyright (C) 2015 ScyllaDB
*/
/*
* This file is part of Scylla.
*
* Scylla is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Scylla is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Scylla. If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
#include <seastar/core/future.hh>
#include <seastar/util/noncopyable_function.hh>
#include <seastar/core/file.hh>
#include "schema_fwd.hh"
#include "sstables/shared_sstable.hh"
#include "exceptions/exceptions.hh"
#include "sstables/compaction_backlog_manager.hh"
#include "compaction_strategy_type.hh"
class table;
using column_family = table;
class flat_mutation_reader;
struct mutation_source_metadata;
namespace sstables {
class compaction_strategy_impl;
class sstable;
class sstable_set;
struct compaction_descriptor;
struct resharding_descriptor;
using reader_consumer = noncopyable_function<future<> (flat_mutation_reader)>;
class compaction_strategy {
::shared_ptr<compaction_strategy_impl> _compaction_strategy_impl;
public:
compaction_strategy(::shared_ptr<compaction_strategy_impl> impl);
compaction_strategy();
~compaction_strategy();
compaction_strategy(const compaction_strategy&);
compaction_strategy(compaction_strategy&&);
compaction_strategy& operator=(compaction_strategy&&);
// Return a list of sstables to be compacted after applying the strategy.
compaction_descriptor get_sstables_for_compaction(column_family& cfs, std::vector<shared_sstable> candidates);
compaction_descriptor get_major_compaction_job(column_family& cf, std::vector<shared_sstable> candidates);
// Some strategies may look at the compacted and resulting sstables to
// get some useful information for subsequent compactions.
void notify_completion(const std::vector<shared_sstable>& removed, const std::vector<shared_sstable>& added);
// Return if parallel compaction is allowed by strategy.
bool parallel_compaction() const;
// Return if optimization to rule out sstables based on clustering key filter should be applied.
bool use_clustering_key_filter() const;
// Return true if compaction strategy doesn't care if a sstable belonging to partial sstable run is compacted.
bool can_compact_partial_runs() const;
// An estimation of number of compaction for strategy to be satisfied.
int64_t estimated_pending_compactions(column_family& cf) const;
static sstring name(compaction_strategy_type type) {
switch (type) {
case compaction_strategy_type::null:
return "NullCompactionStrategy";
case compaction_strategy_type::major:
return "MajorCompactionStrategy";
case compaction_strategy_type::size_tiered:
return "SizeTieredCompactionStrategy";
case compaction_strategy_type::leveled:
return "LeveledCompactionStrategy";
case compaction_strategy_type::date_tiered:
return "DateTieredCompactionStrategy";
case compaction_strategy_type::time_window:
return "TimeWindowCompactionStrategy";
default:
throw std::runtime_error("Invalid Compaction Strategy");
}
}
static compaction_strategy_type type(const sstring& name) {
auto pos = name.find("org.apache.cassandra.db.compaction.");
sstring short_name = (pos == sstring::npos) ? name : name.substr(pos + 35);
if (short_name == "NullCompactionStrategy") {
return compaction_strategy_type::null;
} else if (short_name == "MajorCompactionStrategy") {
return compaction_strategy_type::major;
} else if (short_name == "SizeTieredCompactionStrategy") {
return compaction_strategy_type::size_tiered;
} else if (short_name == "LeveledCompactionStrategy") {
return compaction_strategy_type::leveled;
} else if (short_name == "DateTieredCompactionStrategy") {
return compaction_strategy_type::date_tiered;
} else if (short_name == "TimeWindowCompactionStrategy") {
return compaction_strategy_type::time_window;
} else {
throw exceptions::configuration_exception(format("Unable to find compaction strategy class '{}'", name));
}
}
compaction_strategy_type type() const;
sstring name() const {
return name(type());
}
sstable_set make_sstable_set(schema_ptr schema) const;
compaction_backlog_tracker& get_backlog_tracker();
uint64_t adjust_partition_estimate(const mutation_source_metadata& ms_meta, uint64_t partition_estimate);
reader_consumer make_interposer_consumer(const mutation_source_metadata& ms_meta, reader_consumer end_consumer);
// Returns whether or not interposer consumer is used by a given strategy.
bool use_interposer_consumer() const;
// Informs the caller (usually the compaction manager) about what would it take for this set of
// SSTables closer to becoming in-strategy. If this returns an empty compaction descriptor, this
// means that the sstable set is already in-strategy.
//
// The caller can specify one of two modes: strict or relaxed. In relaxed mode the tolerance for
// what is considered offstrategy is higher. It can be used, for instance, for when the system
// is restarting and previous compactions were likely in-flight. In strict mode, we are less
// tolerant to invariant breakages.
//
// The caller should also pass a maximum number of SSTables which is the maximum amount of
// SSTables that can be added into a single job.
compaction_descriptor get_reshaping_job(std::vector<shared_sstable> input, schema_ptr schema, const ::io_priority_class& iop, reshape_mode mode);
};
// Creates a compaction_strategy object from one of the strategies available.
compaction_strategy make_compaction_strategy(compaction_strategy_type strategy, const std::map<sstring, sstring>& options);
}