mirror of https://github.com/facebook/rocksdb.git
603 lines
24 KiB
C++
603 lines
24 KiB
C++
// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
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// This source code is licensed under both the GPLv2 (found in the
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// COPYING file in the root directory) and Apache 2.0 License
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// (found in the LICENSE.Apache file in the root directory).
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//
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// Copyright (c) 2011 The LevelDB Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file. See the AUTHORS file for names of contributors.
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#pragma once
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#include "db/version_set.h"
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#include "memory/arena.h"
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#include "options/cf_options.h"
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#include "rocksdb/sst_partitioner.h"
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#include "util/autovector.h"
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namespace ROCKSDB_NAMESPACE {
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// The file contains class Compaction, as well as some helper functions
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// and data structures used by the class.
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// Utility for comparing sstable boundary keys. Returns -1 if either a or b is
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// null which provides the property that a==null indicates a key that is less
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// than any key and b==null indicates a key that is greater than any key. Note
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// that the comparison is performed primarily on the user-key portion of the
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// key. If the user-keys compare equal, an additional test is made to sort
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// range tombstone sentinel keys before other keys with the same user-key. The
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// result is that 2 user-keys will compare equal if they differ purely on
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// their sequence number and value, but the range tombstone sentinel for that
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// user-key will compare not equal. This is necessary because the range
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// tombstone sentinel key is set as the largest key for an sstable even though
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// that key never appears in the database. We don't want adjacent sstables to
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// be considered overlapping if they are separated by the range tombstone
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// sentinel.
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int sstableKeyCompare(const Comparator* user_cmp, const Slice&, const Slice&);
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inline int sstableKeyCompare(const Comparator* user_cmp, const Slice& a,
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const InternalKey& b) {
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return sstableKeyCompare(user_cmp, a, b.Encode());
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}
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inline int sstableKeyCompare(const Comparator* user_cmp, const InternalKey& a,
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const Slice& b) {
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return sstableKeyCompare(user_cmp, a.Encode(), b);
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}
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inline int sstableKeyCompare(const Comparator* user_cmp, const InternalKey& a,
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const InternalKey& b) {
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return sstableKeyCompare(user_cmp, a.Encode(), b.Encode());
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}
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int sstableKeyCompare(const Comparator* user_cmp, const InternalKey* a,
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const InternalKey& b);
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int sstableKeyCompare(const Comparator* user_cmp, const InternalKey& a,
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const InternalKey* b);
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// An AtomicCompactionUnitBoundary represents a range of keys [smallest,
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// largest] that exactly spans one ore more neighbouring SSTs on the same
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// level. Every pair of SSTs in this range "overlap" (i.e., the largest
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// user key of one file is the smallest user key of the next file). These
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// boundaries are propagated down to RangeDelAggregator during compaction
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// to provide safe truncation boundaries for range tombstones.
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struct AtomicCompactionUnitBoundary {
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const InternalKey* smallest = nullptr;
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const InternalKey* largest = nullptr;
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};
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// The structure that manages compaction input files associated
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// with the same physical level.
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struct CompactionInputFiles {
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int level;
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std::vector<FileMetaData*> files;
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std::vector<AtomicCompactionUnitBoundary> atomic_compaction_unit_boundaries;
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inline bool empty() const { return files.empty(); }
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inline size_t size() const { return files.size(); }
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inline void clear() { files.clear(); }
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inline FileMetaData* operator[](size_t i) const { return files[i]; }
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};
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class Version;
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class ColumnFamilyData;
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class VersionStorageInfo;
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class CompactionFilter;
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// A Compaction encapsulates metadata about a compaction.
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class Compaction {
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public:
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Compaction(VersionStorageInfo* input_version,
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const ImmutableOptions& immutable_options,
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const MutableCFOptions& mutable_cf_options,
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const MutableDBOptions& mutable_db_options,
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std::vector<CompactionInputFiles> inputs, int output_level,
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uint64_t target_file_size, uint64_t max_compaction_bytes,
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uint32_t output_path_id, CompressionType compression,
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CompressionOptions compression_opts,
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Temperature output_temperature, uint32_t max_subcompactions,
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std::vector<FileMetaData*> grandparents,
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bool manual_compaction = false, const std::string& trim_ts = "",
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double score = -1, bool deletion_compaction = false,
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bool l0_files_might_overlap = true,
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CompactionReason compaction_reason = CompactionReason::kUnknown,
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BlobGarbageCollectionPolicy blob_garbage_collection_policy =
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BlobGarbageCollectionPolicy::kUseDefault,
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double blob_garbage_collection_age_cutoff = -1);
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// The type of the penultimate level output range
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enum class PenultimateOutputRangeType : int {
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kNotSupported, // it cannot output to the penultimate level
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kFullRange, // any data could be output to the penultimate level
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kNonLastRange, // only the keys within non_last_level compaction inputs can
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// be outputted to the penultimate level
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kDisabled, // no data can be outputted to the penultimate level
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};
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// No copying allowed
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Compaction(const Compaction&) = delete;
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void operator=(const Compaction&) = delete;
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~Compaction();
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// Returns the level associated to the specified compaction input level.
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// If compaction_input_level is not specified, then input_level is set to 0.
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int level(size_t compaction_input_level = 0) const {
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return inputs_[compaction_input_level].level;
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}
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int start_level() const { return start_level_; }
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// Outputs will go to this level
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int output_level() const { return output_level_; }
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// Returns the number of input levels in this compaction.
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size_t num_input_levels() const { return inputs_.size(); }
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// Return the object that holds the edits to the descriptor done
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// by this compaction.
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VersionEdit* edit() { return &edit_; }
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// Returns the number of input files associated to the specified
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// compaction input level.
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// The function will return 0 if when "compaction_input_level" < 0
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// or "compaction_input_level" >= "num_input_levels()".
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size_t num_input_files(size_t compaction_input_level) const {
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if (compaction_input_level < inputs_.size()) {
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return inputs_[compaction_input_level].size();
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}
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return 0;
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}
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// Returns input version of the compaction
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Version* input_version() const { return input_version_; }
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// Returns the ColumnFamilyData associated with the compaction.
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ColumnFamilyData* column_family_data() const { return cfd_; }
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// Returns the file meta data of the 'i'th input file at the
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// specified compaction input level.
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// REQUIREMENT: "compaction_input_level" must be >= 0 and
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// < "input_levels()"
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FileMetaData* input(size_t compaction_input_level, size_t i) const {
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assert(compaction_input_level < inputs_.size());
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return inputs_[compaction_input_level][i];
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}
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const std::vector<AtomicCompactionUnitBoundary>* boundaries(
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size_t compaction_input_level) const {
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assert(compaction_input_level < inputs_.size());
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return &inputs_[compaction_input_level].atomic_compaction_unit_boundaries;
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}
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// Returns the list of file meta data of the specified compaction
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// input level.
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// REQUIREMENT: "compaction_input_level" must be >= 0 and
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// < "input_levels()"
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const std::vector<FileMetaData*>* inputs(
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size_t compaction_input_level) const {
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assert(compaction_input_level < inputs_.size());
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return &inputs_[compaction_input_level].files;
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}
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const std::vector<CompactionInputFiles>* inputs() { return &inputs_; }
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// Returns the LevelFilesBrief of the specified compaction input level.
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const LevelFilesBrief* input_levels(size_t compaction_input_level) const {
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return &input_levels_[compaction_input_level];
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}
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// Maximum size of files to build during this compaction.
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uint64_t max_output_file_size() const { return max_output_file_size_; }
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// Target output file size for this compaction
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uint64_t target_output_file_size() const { return target_output_file_size_; }
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// What compression for output
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CompressionType output_compression() const { return output_compression_; }
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// What compression options for output
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const CompressionOptions& output_compression_opts() const {
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return output_compression_opts_;
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}
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// Whether need to write output file to second DB path.
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uint32_t output_path_id() const { return output_path_id_; }
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// Is this a trivial compaction that can be implemented by just
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// moving a single input file to the next level (no merging or splitting)
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bool IsTrivialMove() const;
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// The split user key in the output level if this compaction is required to
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// split the output files according to the existing cursor in the output
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// level under round-robin compaction policy. Empty indicates no required
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// splitting key
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const InternalKey* GetOutputSplitKey() const { return output_split_key_; }
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// If true, then the compaction can be done by simply deleting input files.
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bool deletion_compaction() const { return deletion_compaction_; }
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// Add all inputs to this compaction as delete operations to *edit.
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void AddInputDeletions(VersionEdit* edit);
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// Returns true if the available information we have guarantees that
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// the input "user_key" does not exist in any level beyond `output_level()`.
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bool KeyNotExistsBeyondOutputLevel(const Slice& user_key,
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std::vector<size_t>* level_ptrs) const;
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// Returns true if the user key range [begin_key, end_key) does not exist
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// in any level beyond `output_level()`.
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// Used for checking range tombstones, so we assume begin_key < end_key.
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// begin_key and end_key should include timestamp if enabled.
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bool KeyRangeNotExistsBeyondOutputLevel(
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const Slice& begin_key, const Slice& end_key,
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std::vector<size_t>* level_ptrs) const;
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// Clear all files to indicate that they are not being compacted
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// Delete this compaction from the list of running compactions.
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//
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// Requirement: DB mutex held
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void ReleaseCompactionFiles(const Status& status);
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// Returns the summary of the compaction in "output" with maximum "len"
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// in bytes. The caller is responsible for the memory management of
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// "output".
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void Summary(char* output, int len);
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// Return the score that was used to pick this compaction run.
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double score() const { return score_; }
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// Is this compaction creating a file in the bottom most level?
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bool bottommost_level() const { return bottommost_level_; }
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// Is the compaction compact to the last level
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bool is_last_level() const {
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return output_level_ == immutable_options_.num_levels - 1;
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}
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// Does this compaction include all sst files?
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bool is_full_compaction() const { return is_full_compaction_; }
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// Was this compaction triggered manually by the client?
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bool is_manual_compaction() const { return is_manual_compaction_; }
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std::string trim_ts() const { return trim_ts_; }
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// Used when allow_trivial_move option is set in
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// Universal compaction. If all the input files are
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// non overlapping, then is_trivial_move_ variable
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// will be set true, else false
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void set_is_trivial_move(bool trivial_move) {
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is_trivial_move_ = trivial_move;
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}
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// Used when allow_trivial_move option is set in
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// Universal compaction. Returns true, if the input files
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// are non-overlapping and can be trivially moved.
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bool is_trivial_move() const { return is_trivial_move_; }
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// How many total levels are there?
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int number_levels() const { return number_levels_; }
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// Return the ImmutableOptions that should be used throughout the compaction
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// procedure
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const ImmutableOptions* immutable_options() const {
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return &immutable_options_;
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}
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// Return the MutableCFOptions that should be used throughout the compaction
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// procedure
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const MutableCFOptions* mutable_cf_options() const {
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return &mutable_cf_options_;
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}
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// Returns the size in bytes that the output file should be preallocated to.
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// In level compaction, that is max_file_size_. In universal compaction, that
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// is the sum of all input file sizes.
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uint64_t OutputFilePreallocationSize() const;
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void FinalizeInputInfo(Version* input_version);
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struct InputLevelSummaryBuffer {
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char buffer[128];
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};
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const char* InputLevelSummary(InputLevelSummaryBuffer* scratch) const;
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uint64_t CalculateTotalInputSize() const;
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// In case of compaction error, reset the nextIndex that is used
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// to pick up the next file to be compacted from files_by_size_
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void ResetNextCompactionIndex();
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// Create a CompactionFilter from compaction_filter_factory
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std::unique_ptr<CompactionFilter> CreateCompactionFilter() const;
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// Create a SstPartitioner from sst_partitioner_factory
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std::unique_ptr<SstPartitioner> CreateSstPartitioner() const;
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// Is the input level corresponding to output_level_ empty?
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bool IsOutputLevelEmpty() const;
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// Should this compaction be broken up into smaller ones run in parallel?
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bool ShouldFormSubcompactions() const;
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// Returns true iff at least one input file references a blob file.
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//
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// PRE: input version has been set.
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bool DoesInputReferenceBlobFiles() const;
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// test function to validate the functionality of IsBottommostLevel()
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// function -- determines if compaction with inputs and storage is bottommost
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static bool TEST_IsBottommostLevel(
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int output_level, VersionStorageInfo* vstorage,
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const std::vector<CompactionInputFiles>& inputs);
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// TODO(hx235): eventually we should consider `InitInputTableProperties()`'s
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// status and fail the compaction if needed
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//
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// May open and read table files for table property.
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// Should not be called while holding mutex_.
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const TablePropertiesCollection& GetOrInitInputTableProperties() {
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InitInputTableProperties().PermitUncheckedError();
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return input_table_properties_;
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}
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const TablePropertiesCollection& GetInputTableProperties() const {
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return input_table_properties_;
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}
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// TODO(hx235): consider making this function symmetric to
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// InitInputTableProperties()
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void SetOutputTableProperties(
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const std::string& file_name,
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const std::shared_ptr<const TableProperties>& tp) {
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output_table_properties_[file_name] = tp;
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}
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const TablePropertiesCollection& GetOutputTableProperties() const {
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return output_table_properties_;
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}
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Slice GetSmallestUserKey() const { return smallest_user_key_; }
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Slice GetLargestUserKey() const { return largest_user_key_; }
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PenultimateOutputRangeType GetPenultimateOutputRangeType() const {
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return penultimate_output_range_type_;
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}
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// Return true if the compaction supports per_key_placement
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bool SupportsPerKeyPlacement() const;
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// Get per_key_placement penultimate output level, which is `last_level - 1`
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// if per_key_placement feature is supported. Otherwise, return -1.
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int GetPenultimateLevel() const;
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// Return true if the given range is overlap with penultimate level output
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// range.
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// Both smallest_key and largest_key include timestamps if user-defined
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// timestamp is enabled.
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bool OverlapPenultimateLevelOutputRange(const Slice& smallest_key,
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const Slice& largest_key) const;
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// Return true if the key is within penultimate level output range for
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// per_key_placement feature, which is safe to place the key to the
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// penultimate level. different compaction strategy has different rules.
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// If per_key_placement is not supported, always return false.
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// key includes timestamp if user-defined timestamp is enabled.
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bool WithinPenultimateLevelOutputRange(const ParsedInternalKey& ikey) const;
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CompactionReason compaction_reason() const { return compaction_reason_; }
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const std::vector<FileMetaData*>& grandparents() const {
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return grandparents_;
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}
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uint64_t max_compaction_bytes() const { return max_compaction_bytes_; }
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Temperature output_temperature() const { return output_temperature_; }
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uint32_t max_subcompactions() const { return max_subcompactions_; }
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bool enable_blob_garbage_collection() const {
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return enable_blob_garbage_collection_;
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}
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double blob_garbage_collection_age_cutoff() const {
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return blob_garbage_collection_age_cutoff_;
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}
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// start and end are sub compact range. Null if no boundary.
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// This is used to filter out some input files' ancester's time range.
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uint64_t MinInputFileOldestAncesterTime(const InternalKey* start,
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const InternalKey* end) const;
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// Return the minimum epoch number among
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// input files' associated with this compaction
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uint64_t MinInputFileEpochNumber() const;
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// Called by DBImpl::NotifyOnCompactionCompleted to make sure number of
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// compaction begin and compaction completion callbacks match.
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void SetNotifyOnCompactionCompleted() {
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notify_on_compaction_completion_ = true;
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}
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bool ShouldNotifyOnCompactionCompleted() const {
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return notify_on_compaction_completion_;
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}
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static constexpr int kInvalidLevel = -1;
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// Evaluate penultimate output level. If the compaction supports
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// per_key_placement feature, it returns the penultimate level number.
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// Otherwise, it's set to kInvalidLevel (-1), which means
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// output_to_penultimate_level is not supported.
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// Note: even the penultimate level output is supported (PenultimateLevel !=
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// kInvalidLevel), some key range maybe unsafe to be outputted to the
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// penultimate level. The safe key range is populated by
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// `PopulatePenultimateLevelOutputRange()`.
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// Which could potentially disable all penultimate level output.
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static int EvaluatePenultimateLevel(const VersionStorageInfo* vstorage,
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const ImmutableOptions& immutable_options,
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const int start_level,
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const int output_level);
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// mark (or clear) all files that are being compacted
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void MarkFilesBeingCompacted(bool being_compacted) const;
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private:
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Status InitInputTableProperties();
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// get the smallest and largest key present in files to be compacted
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static void GetBoundaryKeys(VersionStorageInfo* vstorage,
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const std::vector<CompactionInputFiles>& inputs,
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Slice* smallest_key, Slice* largest_key,
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int exclude_level = -1);
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// get the smallest and largest internal key present in files to be compacted
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static void GetBoundaryInternalKeys(
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VersionStorageInfo* vstorage,
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const std::vector<CompactionInputFiles>& inputs,
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InternalKey* smallest_key, InternalKey* largest_key,
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int exclude_level = -1);
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// populate penultimate level output range, which will be used to determine if
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// a key is safe to output to the penultimate level (details see
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// `Compaction::WithinPenultimateLevelOutputRange()`.
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void PopulatePenultimateLevelOutputRange();
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// Get the atomic file boundaries for all files in the compaction. Necessary
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// in order to avoid the scenario described in
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// https://github.com/facebook/rocksdb/pull/4432#discussion_r221072219 and
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// plumb down appropriate key boundaries to RangeDelAggregator during
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// compaction.
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static std::vector<CompactionInputFiles> PopulateWithAtomicBoundaries(
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VersionStorageInfo* vstorage, std::vector<CompactionInputFiles> inputs);
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// helper function to determine if compaction with inputs and storage is
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// bottommost
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static bool IsBottommostLevel(
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int output_level, VersionStorageInfo* vstorage,
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const std::vector<CompactionInputFiles>& inputs);
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static bool IsFullCompaction(VersionStorageInfo* vstorage,
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const std::vector<CompactionInputFiles>& inputs);
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VersionStorageInfo* input_vstorage_;
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const int start_level_; // the lowest level to be compacted
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const int output_level_; // levels to which output files are stored
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uint64_t target_output_file_size_;
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uint64_t max_output_file_size_;
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uint64_t max_compaction_bytes_;
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uint32_t max_subcompactions_;
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const ImmutableOptions immutable_options_;
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const MutableCFOptions mutable_cf_options_;
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Version* input_version_;
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VersionEdit edit_;
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const int number_levels_;
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ColumnFamilyData* cfd_;
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Arena arena_; // Arena used to allocate space for file_levels_
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const uint32_t output_path_id_;
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CompressionType output_compression_;
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CompressionOptions output_compression_opts_;
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Temperature output_temperature_;
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// If true, then the compaction can be done by simply deleting input files.
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const bool deletion_compaction_;
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// should it split the output file using the compact cursor?
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const InternalKey* output_split_key_;
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// L0 files in LSM-tree might be overlapping. But the compaction picking
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// logic might pick a subset of the files that aren't overlapping. if
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// that is the case, set the value to false. Otherwise, set it true.
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bool l0_files_might_overlap_;
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// Compaction input files organized by level. Constant after construction
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const std::vector<CompactionInputFiles> inputs_;
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// A copy of inputs_, organized more closely in memory
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autovector<LevelFilesBrief, 2> input_levels_;
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// State used to check for number of overlapping grandparent files
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// (grandparent == "output_level_ + 1")
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std::vector<FileMetaData*> grandparents_;
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const double score_; // score that was used to pick this compaction.
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// Is this compaction creating a file in the bottom most level?
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const bool bottommost_level_;
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// Does this compaction include all sst files?
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const bool is_full_compaction_;
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// Is this compaction requested by the client?
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const bool is_manual_compaction_;
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// The data with timestamp > trim_ts_ will be removed
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const std::string trim_ts_;
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// True if we can do trivial move in Universal multi level
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// compaction
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bool is_trivial_move_;
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// Does input compression match the output compression?
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bool InputCompressionMatchesOutput() const;
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TablePropertiesCollection input_table_properties_;
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TablePropertiesCollection output_table_properties_;
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// smallest user keys in compaction
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// includes timestamp if user-defined timestamp is enabled.
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Slice smallest_user_key_;
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// largest user keys in compaction
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// includes timestamp if user-defined timestamp is enabled.
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Slice largest_user_key_;
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// Reason for compaction
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CompactionReason compaction_reason_;
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// Notify on compaction completion only if listener was notified on compaction
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// begin.
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bool notify_on_compaction_completion_;
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// Enable/disable GC collection for blobs during compaction.
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bool enable_blob_garbage_collection_;
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// Blob garbage collection age cutoff.
|
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double blob_garbage_collection_age_cutoff_;
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// only set when per_key_placement feature is enabled, -1 (kInvalidLevel)
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// means not supported.
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const int penultimate_level_;
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// Key range for penultimate level output
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// includes timestamp if user-defined timestamp is enabled.
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// penultimate_output_range_type_ shows the range type
|
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InternalKey penultimate_level_smallest_;
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InternalKey penultimate_level_largest_;
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PenultimateOutputRangeType penultimate_output_range_type_ =
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PenultimateOutputRangeType::kNotSupported;
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};
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#ifndef NDEBUG
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// Helper struct only for tests, which contains the data to decide if a key
|
|
// should be output to the penultimate level.
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|
// TODO: remove this when the public feature knob is available
|
|
struct PerKeyPlacementContext {
|
|
const int level;
|
|
const Slice key;
|
|
const Slice value;
|
|
const SequenceNumber seq_num;
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|
|
bool& output_to_penultimate_level;
|
|
|
|
PerKeyPlacementContext(int _level, Slice _key, Slice _value,
|
|
SequenceNumber _seq_num,
|
|
bool& _output_to_penultimate_level)
|
|
: level(_level),
|
|
key(_key),
|
|
value(_value),
|
|
seq_num(_seq_num),
|
|
output_to_penultimate_level(_output_to_penultimate_level) {}
|
|
};
|
|
#endif /* !NDEBUG */
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// Return sum of sizes of all files in `files`.
|
|
uint64_t TotalFileSize(const std::vector<FileMetaData*>& files);
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} // namespace ROCKSDB_NAMESPACE
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