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5691a1d8a4
Summary: Issue scenario: (1) We have 3 files in L1 and we issue a compaction that will compact them into 1 file in L2 (2) While compaction (1) is running, we flush a file into L0 and trigger another compaction that decide to move this file to L1 and then move it again to L2 (this file don't overlap with any other files) (3) compaction (1) finishes and install the file it generated in L2, but this file overlap with the file we generated in (2) so we break the LSM consistency Looks like this issue can be triggered by using non-exclusive manual compaction or AddFile() Test Plan: unit tests Reviewers: sdong Reviewed By: sdong Subscribers: hermanlee4, jkedgar, andrewkr, dhruba, yoshinorim Differential Revision: https://reviews.facebook.net/D64947
321 lines
12 KiB
C++
321 lines
12 KiB
C++
// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
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// This source code is licensed under the BSD-style license found in the
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// LICENSE file in the root directory of this source tree. An additional grant
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// of patent rights can be found in the PATENTS file in the same 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 "util/arena.h"
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#include "util/autovector.h"
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#include "util/cf_options.h"
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namespace rocksdb {
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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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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 information 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 ImmutableCFOptions& immutable_cf_options,
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const MutableCFOptions& mutable_cf_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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std::vector<FileMetaData*> grandparents,
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bool manual_compaction = false, double score = -1,
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bool deletion_compaction = false,
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CompactionReason compaction_reason = CompactionReason::kUnknown);
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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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// 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(size_t compaction_input_level) {
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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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// What compression for output
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CompressionType output_compression() const { return output_compression_; }
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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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// 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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// 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(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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// 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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// 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 ImmutableCFOptions that should be used throughout the compaction
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// procedure
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const ImmutableCFOptions* immutable_cf_options() const {
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return &immutable_cf_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 SetInputVersion(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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// 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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// 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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TablePropertiesCollection GetOutputTableProperties() const {
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return output_table_properties_;
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}
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void SetOutputTableProperties(TablePropertiesCollection tp) {
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output_table_properties_ = std::move(tp);
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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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CompactionReason compaction_reason() { 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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private:
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// mark (or clear) all files that are being compacted
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void MarkFilesBeingCompacted(bool mark_as_compacted);
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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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// 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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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 max_output_file_size_;
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uint64_t max_compaction_bytes_;
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const ImmutableCFOptions immutable_cf_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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// If true, then the comaction can be done by simply deleting input files.
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const bool deletion_compaction_;
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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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// 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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// table properties of output files
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TablePropertiesCollection output_table_properties_;
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// smallest user keys in compaction
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Slice smallest_user_key_;
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// largest user keys in compaction
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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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};
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// Utility function
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extern uint64_t TotalFileSize(const std::vector<FileMetaData*>& files);
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} // namespace rocksdb
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