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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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#ifndef STORAGE_LEVELDB_INCLUDE_OPTIONS_H_
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#define STORAGE_LEVELDB_INCLUDE_OPTIONS_H_
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#include <stddef.h>
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#include <string>
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#include <memory>
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#include <vector>
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#include <stdint.h>
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#include "leveldb/slice.h"
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namespace leveldb {
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class Cache;
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class Comparator;
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class Env;
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class FilterPolicy;
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class Logger;
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class Snapshot;
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class Statistics;
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using std::shared_ptr;
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// DB contents are stored in a set of blocks, each of which holds a
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// sequence of key,value pairs. Each block may be compressed before
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// being stored in a file. The following enum describes which
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// compression method (if any) is used to compress a block.
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enum CompressionType {
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// NOTE: do not change the values of existing entries, as these are
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// part of the persistent format on disk.
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kNoCompression = 0x0,
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kSnappyCompression = 0x1,
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kZlibCompression = 0x2,
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kBZip2Compression = 0x3
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};
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// Compression options for different compression algorithms like Zlib
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struct CompressionOptions {
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int window_bits;
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int level;
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int strategy;
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CompressionOptions():window_bits(-14),
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level(-1),
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strategy(0){}
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CompressionOptions(int wbits, int lev, int strategy):window_bits(wbits),
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level(lev),
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strategy(strategy){}
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};
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// Options to control the behavior of a database (passed to DB::Open)
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struct Options {
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// -------------------
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// Parameters that affect behavior
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// Comparator used to define the order of keys in the table.
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// Default: a comparator that uses lexicographic byte-wise ordering
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//
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// REQUIRES: The client must ensure that the comparator supplied
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// here has the same name and orders keys *exactly* the same as the
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// comparator provided to previous open calls on the same DB.
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const Comparator* comparator;
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// If true, the database will be created if it is missing.
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// Default: false
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bool create_if_missing;
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// If true, an error is raised if the database already exists.
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// Default: false
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bool error_if_exists;
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// If true, the implementation will do aggressive checking of the
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// data it is processing and will stop early if it detects any
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// errors. This may have unforeseen ramifications: for example, a
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// corruption of one DB entry may cause a large number of entries to
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// become unreadable or for the entire DB to become unopenable.
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// Default: false
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bool paranoid_checks;
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// Use the specified object to interact with the environment,
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// e.g. to read/write files, schedule background work, etc.
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// Default: Env::Default()
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Env* env;
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// Any internal progress/error information generated by the db will
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// be written to info_log if it is non-nullptr, or to a file stored
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// in the same directory as the DB contents if info_log is nullptr.
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// Default: nullptr
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shared_ptr<Logger> info_log;
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// -------------------
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// Parameters that affect performance
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// Amount of data to build up in memory (backed by an unsorted log
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// on disk) before converting to a sorted on-disk file.
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//
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// Larger values increase performance, especially during bulk loads.
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// Up to max_write_buffer_number write buffers may be held in memory
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// at the same time,
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// so you may wish to adjust this parameter to control memory usage.
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// Also, a larger write buffer will result in a longer recovery time
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// the next time the database is opened.
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//
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// Default: 4MB
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size_t write_buffer_size;
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// The maximum number of write buffers that are built up in memory.
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// The default is 2, so that when 1 write buffer is being flushed to
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// storage, new writes can continue to the other write buffer.
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// Default: 2
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int max_write_buffer_number;
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// Number of open files that can be used by the DB. You may need to
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// increase this if your database has a large working set (budget
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// one open file per 2MB of working set).
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//
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// Default: 1000
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int max_open_files;
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// Control over blocks (user data is stored in a set of blocks, and
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// a block is the unit of reading from disk).
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// If non-NULL use the specified cache for blocks.
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// If NULL, leveldb will automatically create and use an 8MB internal cache.
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// Default: nullptr
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shared_ptr<Cache> block_cache;
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// Approximate size of user data packed per block. Note that the
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// block size specified here corresponds to uncompressed data. The
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// actual size of the unit read from disk may be smaller if
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// compression is enabled. This parameter can be changed dynamically.
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//
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// Default: 4K
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size_t block_size;
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// Number of keys between restart points for delta encoding of keys.
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// This parameter can be changed dynamically. Most clients should
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// leave this parameter alone.
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//
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// Default: 16
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int block_restart_interval;
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// Compress blocks using the specified compression algorithm. This
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// parameter can be changed dynamically.
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//
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// Default: kSnappyCompression, which gives lightweight but fast
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// compression.
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//
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// Typical speeds of kSnappyCompression on an Intel(R) Core(TM)2 2.4GHz:
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// ~200-500MB/s compression
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// ~400-800MB/s decompression
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// Note that these speeds are significantly faster than most
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// persistent storage speeds, and therefore it is typically never
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// worth switching to kNoCompression. Even if the input data is
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// incompressible, the kSnappyCompression implementation will
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// efficiently detect that and will switch to uncompressed mode.
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CompressionType compression;
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// Different levels can have different compression policies. There
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// are cases where most lower levels would like to quick compression
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// algorithm while the higher levels (which have more data) use
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// compression algorithms that have better compression but could
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// be slower. This array, if non nullptr, should have an entry for
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// each level of the database. This array, if non nullptr, overides the
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// value specified in the previous field 'compression'. The caller is
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// reponsible for allocating memory and initializing the values in it
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// before invoking Open(). The caller is responsible for freeing this
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// array and it could be freed anytime after the return from Open().
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// This could have been a std::vector but that makes the equivalent
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// java/C api hard to construct.
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std::vector<CompressionType> compression_per_level;
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//different options for compression algorithms
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CompressionOptions compression_opts;
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// If non-nullptr, use the specified filter policy to reduce disk reads.
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// Many applications will benefit from passing the result of
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// NewBloomFilterPolicy() here.
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//
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// Default: nullptr
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const FilterPolicy* filter_policy;
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// Number of levels for this database
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int num_levels;
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// Number of files to trigger level-0 compaction. A value <0 means that
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// level-0 compaction will not be triggered by number of files at all.
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int level0_file_num_compaction_trigger;
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// Soft limit on number of level-0 files. We slow down writes at this point.
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// A value <0 means that no writing slow down will be triggered by number
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// of files in level-0.
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int level0_slowdown_writes_trigger;
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// Maximum number of level-0 files. We stop writes at this point.
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int level0_stop_writes_trigger;
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// Maximum level to which a new compacted memtable is pushed if it
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// does not create overlap. We try to push to level 2 to avoid the
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// relatively expensive level 0=>1 compactions and to avoid some
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// expensive manifest file operations. We do not push all the way to
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// the largest level since that can generate a lot of wasted disk
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// space if the same key space is being repeatedly overwritten.
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int max_mem_compaction_level;
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// Target file size for compaction.
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// target_file_size_base is per-file size for level-1.
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// Target file size for level L can be calculated by
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// target_file_size_base * (target_file_size_multiplier ^ (L-1))
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// For example, if target_file_size_base is 2MB and
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// target_file_size_multiplier is 10, then each file on level-1 will
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// be 2MB, and each file on level 2 will be 20MB,
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// and each file on level-3 will be 200MB.
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// by default target_file_size_base is 2MB.
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int target_file_size_base;
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// by default target_file_size_multiplier is 1, which means
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// by default files in different levels will have similar size.
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int target_file_size_multiplier;
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// Control maximum total data size for a level.
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// max_bytes_for_level_base is the max total for level-1.
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// Maximum number of bytes for level L can be calculated as
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// (max_bytes_for_level_base) * (max_bytes_for_level_multiplier ^ (L-1))
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// For example, if max_bytes_for_level_base is 20MB, and if
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// max_bytes_for_level_multiplier is 10, total data size for level-1
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// will be 20MB, total file size for level-2 will be 200MB,
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// and total file size for level-3 will be 2GB.
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// by default 'max_bytes_for_level_base' is 10MB.
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uint64_t max_bytes_for_level_base;
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// by default 'max_bytes_for_level_base' is 10.
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int max_bytes_for_level_multiplier;
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// Maximum number of bytes in all compacted files. We avoid expanding
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// the lower level file set of a compaction if it would make the
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// total compaction cover more than
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// (expanded_compaction_factor * targetFileSizeLevel()) many bytes.
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int expanded_compaction_factor;
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// Maximum number of bytes in all source files to be compacted in a
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// single compaction run. We avoid picking too many files in the
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// source level so that we do not exceed the total source bytes
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// for compaction to exceed
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// (source_compaction_factor * targetFileSizeLevel()) many bytes.
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// Default:1, i.e. pick maxfilesize amount of data as the source of
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// a compaction.
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int source_compaction_factor;
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// Control maximum bytes of overlaps in grandparent (i.e., level+2) before we
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// stop building a single file in a level->level+1 compaction.
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int max_grandparent_overlap_factor;
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// If non-null, then we should collect metrics about database operations
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// Statistics objects should not be shared between DB instances as
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// it does not use any locks to prevent concurrent updates.
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Statistics* statistics;
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// If true, then the contents of data files are not synced
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// to stable storage. Their contents remain in the OS buffers till the
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// OS decides to flush them. This option is good for bulk-loading
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// of data. Once the bulk-loading is complete, please issue a
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// sync to the OS to flush all dirty buffesrs to stable storage.
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// Default: false
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bool disableDataSync;
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// If true, then every store to stable storage will issue a fsync.
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// If false, then every store to stable storage will issue a fdatasync.
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// This parameter should be set to true while storing data to
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// filesystem like ext3 which can lose files after a reboot.
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// Default: false
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bool use_fsync;
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// This number controls how often a new scribe log about
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// db deploy stats is written out.
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// -1 indicates no logging at all.
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// Default value is 1800 (half an hour).
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int db_stats_log_interval;
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// This specifies the log dir.
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// If it is empty, the log files will be in the same dir as data.
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// If it is non empty, the log files will be in the specified dir,
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// and the db data dir's absolute path will be used as the log file
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// name's prefix.
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std::string db_log_dir;
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// Disable compaction triggered by seek.
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// With bloomfilter and fast storage, a miss on one level
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// is very cheap if the file handle is cached in table cache
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// (which is true if max_open_files is large).
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bool disable_seek_compaction;
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// The periodicity when obsolete files get deleted. The default
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// value is 0 which means that obsolete files get removed after
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// every compaction run.
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uint64_t delete_obsolete_files_period_micros;
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// Maximum number of concurrent background compactions.
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// Default: 1
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int max_background_compactions;
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// Specify the maximal size of the info log file. If the log file
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// is larger than `max_log_file_size`, a new info log file will
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// be created.
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// If max_log_file_size == 0, all logs will be written to one
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// log file.
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size_t max_log_file_size;
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// Time for the info log file to roll (in seconds).
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// If specified with non-zero value, log file will be rolled
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// if it has been active longer than `log_file_time_to_roll`.
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// Default: 0 (disabled)
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size_t log_file_time_to_roll;
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// Maximal info log files to be kept.
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// Default: 1000
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size_t keep_log_file_num;
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// Puts are delayed when any level has a compaction score that
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// exceeds rate_limit. This is ignored when <= 1.0.
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double rate_limit;
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// Max time a put will be stalled when rate_limit is enforced
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unsigned int rate_limit_delay_milliseconds;
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// manifest file is rolled over on reaching this limit.
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// The older manifest file be deleted.
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// The default value is MAX_INT so that roll-over does not take place.
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uint64_t max_manifest_file_size;
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// Disable block cache. If this is set to false,
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// then no block cache should be used, and the block_cache should
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// point to a nullptr object.
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bool no_block_cache;
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// Number of shards used for table cache.
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int table_cache_numshardbits;
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// Create an Options object with default values for all fields.
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Options();
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void Dump(Logger* log) const;
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// Set appropriate parameters for bulk loading.
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// The reason that this is a function that returns "this" instead of a
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// constructor is to enable chaining of multiple similar calls in the future.
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//
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// All data will be in level 0 without any automatic compaction.
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// It's recommended to manually call CompactRange(NULL, NULL) before reading
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// from the database, because otherwise the read can be very slow.
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Options* PrepareForBulkLoad();
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// This method allows an application to modify/delete a key-value at
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// the time of compaction. The compaction process invokes this
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// method for every kv that is being compacted. A return value
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// of false indicates that the kv should be preserved in the
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|
// output of this compaction run and a return value of true
|
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|
|
// indicates that this key-value should be removed from the
|
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|
|
// output of the compaction. The application can inspect
|
|
|
|
// the existing value of the key, modify it if needed and
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|
// return back the new value for this key. The application
|
|
|
|
// should allocate memory for the Slice object that is used to
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|
|
// return the new value and the leveldb framework will
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|
|
// free up that memory.
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|
// The compaction_filter_args, if specified here, are passed
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|
// back to the invocation of the CompactionFilter.
|
|
|
|
void* compaction_filter_args;
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|
|
bool (*CompactionFilter)(void* compaction_filter_args,
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|
|
int level, const Slice& key,
|
|
|
|
const Slice& existing_value, Slice** new_value);
|
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|
|
// Disable automatic compactions. Manual compactions can still
|
|
|
|
// be issued on this database.
|
|
|
|
bool disable_auto_compactions;
|
|
|
|
|
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|
|
// The number of seconds a WAL(write ahead log) should be kept after it has
|
|
|
|
// been marked as Not Live. If the value is set. The WAL files are moved to
|
|
|
|
// the archive direcotory and deleted after the given TTL.
|
|
|
|
// If set to 0, WAL files are deleted as soon as they are not required by
|
|
|
|
// the database.
|
|
|
|
// If set to std::numeric_limits<uint64_t>::max() the WAL files will never be
|
|
|
|
// deleted.
|
|
|
|
// Default : 0
|
|
|
|
uint64_t WAL_ttl_seconds;
|
|
|
|
|
|
|
|
// Number of bytes to preallocate (via fallocate) the manifest
|
|
|
|
// files. Default is 4mb, which is reasonable to reduce random IO
|
|
|
|
// as well as prevent overallocation for mounts that preallocate
|
|
|
|
// large amounts of data (such as xfs's allocsize option).
|
|
|
|
size_t manifest_preallocation_size;
|
|
|
|
|
|
|
|
// Purge duplicate/deleted keys when a memtable is flushed to storage.
|
|
|
|
// Default: true
|
|
|
|
bool purge_redundant_kvs_while_flush;
|
|
|
|
};
|
|
|
|
|
|
|
|
// Options that control read operations
|
|
|
|
struct ReadOptions {
|
|
|
|
// If true, all data read from underlying storage will be
|
|
|
|
// verified against corresponding checksums.
|
|
|
|
// Default: false
|
|
|
|
bool verify_checksums;
|
|
|
|
|
|
|
|
// Should the data read for this iteration be cached in memory?
|
|
|
|
// Callers may wish to set this field to false for bulk scans.
|
|
|
|
// Default: true
|
|
|
|
bool fill_cache;
|
|
|
|
|
|
|
|
// If "snapshot" is non-nullptr, read as of the supplied snapshot
|
|
|
|
// (which must belong to the DB that is being read and which must
|
|
|
|
// not have been released). If "snapshot" is nullptr, use an impliicit
|
|
|
|
// snapshot of the state at the beginning of this read operation.
|
|
|
|
// Default: nullptr
|
|
|
|
const Snapshot* snapshot;
|
|
|
|
|
|
|
|
ReadOptions()
|
|
|
|
: verify_checksums(false),
|
|
|
|
fill_cache(true),
|
|
|
|
snapshot(nullptr) {
|
|
|
|
}
|
|
|
|
ReadOptions(bool cksum, bool cache) :
|
|
|
|
verify_checksums(cksum), fill_cache(cache),
|
|
|
|
snapshot(nullptr) {
|
|
|
|
}
|
|
|
|
};
|
|
|
|
|
|
|
|
// Options that control write operations
|
|
|
|
struct WriteOptions {
|
|
|
|
// If true, the write will be flushed from the operating system
|
|
|
|
// buffer cache (by calling WritableFile::Sync()) before the write
|
|
|
|
// is considered complete. If this flag is true, writes will be
|
|
|
|
// slower.
|
|
|
|
//
|
|
|
|
// If this flag is false, and the machine crashes, some recent
|
|
|
|
// writes may be lost. Note that if it is just the process that
|
|
|
|
// crashes (i.e., the machine does not reboot), no writes will be
|
|
|
|
// lost even if sync==false.
|
|
|
|
//
|
|
|
|
// In other words, a DB write with sync==false has similar
|
|
|
|
// crash semantics as the "write()" system call. A DB write
|
|
|
|
// with sync==true has similar crash semantics to a "write()"
|
|
|
|
// system call followed by "fsync()".
|
|
|
|
//
|
|
|
|
// Default: false
|
|
|
|
bool sync;
|
|
|
|
|
|
|
|
// If true, writes will not first go to the write ahead log,
|
|
|
|
// and the write may got lost after a crash.
|
|
|
|
bool disableWAL;
|
|
|
|
|
|
|
|
WriteOptions()
|
|
|
|
: sync(false),
|
|
|
|
disableWAL(false) {
|
|
|
|
}
|
|
|
|
};
|
|
|
|
|
|
|
|
// Options that control flush operations
|
|
|
|
struct FlushOptions {
|
|
|
|
// If true, the flush will wait until the flush is done.
|
|
|
|
// Default: true
|
|
|
|
bool wait;
|
|
|
|
|
|
|
|
FlushOptions()
|
|
|
|
: wait(true) {
|
|
|
|
}
|
|
|
|
};
|
|
|
|
|
|
|
|
} // namespace leveldb
|
|
|
|
|
|
|
|
#endif // STORAGE_LEVELDB_INCLUDE_OPTIONS_H_
|