Options creation **************** Options objects =============== .. IMPORTANT:: The default values mentioned here, describe the values of the C++ library only. This wrapper does not set any default value itself. So as soon as the rocksdb developers change a default value this document could be outdated. So if you really depend on a default value, double check it with the according version of the C++ library. | Most recent default values should be here | https://github.com/facebook/rocksdb/blob/master/include/rocksdb/options.h | https://github.com/facebook/rocksdb/blob/master/util/options.cc .. py:class:: rocksdb.ColumnFamilyOptions .. py:method:: __init__(**kwargs) All options mentioned below can also be passed as keyword-arguments in the constructor. For example:: import rocksdb opts = rocksdb.ColumnFamilyOptions(disable_auto_compactions=True) # is the same as opts = rocksdb.ColumnFamilyOptions() opts.disable_auto_compactions = True .. py:attribute:: write_buffer_size Amount of data to build up in memory (backed by an unsorted log on disk) before converting to a sorted on-disk file. Larger values increase performance, especially during bulk loads. Up to :py:attr:`max_write_buffer_number` write buffers may be held in memory at the same time, so you may wish to adjust this parameter to control memory usage. Also, a larger write buffer will result in a longer recovery time the next time the database is opened. Note that write_buffer_size is enforced per column family. See py:attr:`db_write_buffer_size` for sharing memory across column families. | *Type:* ``int`` | *Default:* ``67108864`` .. py:attribute:: max_write_buffer_number The maximum number of write buffers that are built up in memory. The default is 2, so that when 1 write buffer is being flushed to storage, new writes can continue to the other write buffer. | *Type:* ``int`` | *Default:* ``2`` .. py:attribute:: min_write_buffer_number_to_merge The minimum number of write buffers that will be merged together before writing to storage. If set to 1, then all write buffers are fushed to L0 as individual files and this increases read amplification because a get request has to check in all of these files. Also, an in-memory merge may result in writing lesser data to storage if there are duplicate records in each of these individual write buffers. | *Type:* ``int`` | *Default:* ``1`` .. py:attribute:: compression_opts A dictionary specifying different options for compression algorithms. When setting, only the values present in the dictionary are applied. | *Type:* ``dict`` window_bits (``int``, default: -14) FIXME level (``int``, default: kDefaultCompressionLevel) FIXME strategy (``int``, default: 0) FIXME max_dict_bytes (``int``, default: 0) Maximum size of dictionaries used to prime the compression library. Enabling dictionary can improve compression ratios when there are repetitions across data blocks. The dictionary is created by sampling the SST file data. If `zstd_max_train_bytes` is nonzero, the samples are passed through zstd's dictionary generator. Otherwise, the random samples are used directly as the dictionary. When compression dictionary is disabled, we compress and write each block before buffering data for the next one. When compression dictionary is enabled, we buffer all SST file data in-memory so we can sample it, as data can only be compressed and written after the dictionary has been finalized. So users of this feature may see increased memory usage. zstd_max_train_bytes (``int``, default: 0) Maximum size of training data passed to zstd's dictionary trainer. Using zstd's dictionary trainer can achieve even better compression ratio improvements than using `max_dict_bytes` alone. The training data will be used to generate a dictionary of max_dict_bytes. parallel_threads (``int``, default: 1) Number of threads for parallel compression. Parallel compression is enabled only if threads > 1. THE FEATURE IS STILL EXPERIMENTAL This option is valid only when BlockBasedTable is used. When parallel compression is enabled, SST size file sizes might be more inflated compared to the target size, because more data of unknown compressed size is in flight when compression is parallelized. To be reasonably accurate, this inflation is also estimated by using historical compression ratio and current bytes inflight. enabled (``bool``, default: False) When the compression options are set by the user, it will be set to "True". For bottommost_compression_opts, to enable it, user must set ``enabled=True``. Otherwise, bottommost compression will use :py:attr:`compression_opts` as default compression options. For :py:attr:`compression_opts`, if ``enabled=False``, it is still used as compression options for compression process. .. py:attribute:: bottommost_compression_opts Different options for compression algorithms used by :py:attr:`bottommost_compression` if it is enabled. To enable it, please see the definition of :py:attr:`compression_opts`. .. py:attribute:: compression Compress blocks using the specified compression algorithm. This parameter can be changed dynamically. If you do not set :py:attr`compression_opts`.``level``, or set it to `kDefaultCompressionLevel`, we will attempt to pick the default corresponding to `compression` as follows: * CompressionType.zstd_compression: 3 * CompressionType.zlib_compression: ``Z_DEFAULT_COMPRESSION`` (currently -1) * CompressionType.lz4hc_compression: 0 * For all others, we do not specify a compression level | *Type:* Member of :py:class:`rocksdb.CompressionType` | *Default:* :py:attr:`rocksdb.CompressionType.snappy_compression` .. py:attribute:: bottommost_compression Compression algorithm that will be used for the bottommost level that contain files. | *Type:* Member of :py:class:`rocksdb.CompressionType` | *Default:* :py:attr:`rocksdb.CompressionType.no_compression` .. py:attribute:: compaction_pri If level compaction_style = kCompactionStyleLevel, for each level, which files are prioritized to be picked to compact. | *Type:* Member of :py:class:`rocksdb.CompactionPri` | *Default:* :py:attr:`rocksdb.CompactionPri.kByCompensatedSize` .. py:attribute:: max_compaction_bytes We try to limit number of bytes in one compaction to be lower than this threshold. But it's not guaranteed. Value 0 will be sanitized. | *Type:* ``int`` | *Default:* ``target_file_size_base * 25`` .. py:attribute:: num_levels Number of levels for this database | *Type:* ``int`` | *Default:* ``7`` .. py:attribute:: level0_file_num_compaction_trigger Number of files to trigger level-0 compaction. A value <0 means that level-0 compaction will not be triggered by number of files at all. | *Type:* ``int`` | *Default:* ``4`` .. py:attribute:: level0_slowdown_writes_trigger Soft limit on number of level-0 files. We start slowing down writes at this point. A value <0 means that no writing slow down will be triggered by number of files in level-0. | *Type:* ``int`` | *Default:* ``20`` .. py:attribute:: level0_stop_writes_trigger Maximum number of level-0 files. We stop writes at this point. | *Type:* ``int`` | *Default:* ``24`` .. py:attribute:: max_mem_compaction_level Maximum level to which a new compacted memtable is pushed if it does not create overlap. We try to push to level 2 to avoid the relatively expensive level 0=>1 compactions and to avoid some expensive manifest file operations. We do not push all the way to the largest level since that can generate a lot of wasted disk space if the same key space is being repeatedly overwritten. | *Type:* ``int`` | *Default:* ``2`` .. py:attribute:: target_file_size_base | Target file size for compaction. | target_file_size_base is per-file size for level-1. | Target file size for level L can be calculated by | target_file_size_base * (target_file_size_multiplier ^ (L-1)). For example, if target_file_size_base is 2MB and target_file_size_multiplier is 10, then each file on level-1 will be 2MB, and each file on level 2 will be 20MB, and each file on level-3 will be 200MB. | *Type:* ``int`` | *Default:* ``2097152`` .. py:attribute:: target_file_size_multiplier | by default target_file_size_multiplier is 1, which means | by default files in different levels will have similar size. | *Type:* ``int`` | *Default:* ``1`` .. py:attribute:: max_bytes_for_level_base Control maximum total data size for a level. *max_bytes_for_level_base* is the max total for level-1. Maximum number of bytes for level L can be calculated as (*max_bytes_for_level_base*) * (*max_bytes_for_level_multiplier* ^ (L-1)) For example, if *max_bytes_for_level_base* is 20MB, and if *max_bytes_for_level_multiplier* is 10, total data size for level-1 will be 20MB, total file size for level-2 will be 200MB, and total file size for level-3 will be 2GB. | *Type:* ``int`` | *Default:* ``10485760`` .. py:attribute:: max_bytes_for_level_multiplier See :py:attr:`max_bytes_for_level_base` | *Type:* ``int`` | *Default:* ``10`` .. py:attribute:: max_bytes_for_level_multiplier_additional Different max-size multipliers for different levels. These are multiplied by max_bytes_for_level_multiplier to arrive at the max-size of each level. | *Type:* ``[int]`` | *Default:* ``[1, 1, 1, 1, 1, 1, 1]`` .. py:attribute:: arena_block_size size of one block in arena memory allocation. If <= 0, a proper value is automatically calculated (usually 1/10 of writer_buffer_size). | *Type:* ``int`` | *Default:* ``0`` .. py:attribute:: disable_auto_compactions Disable automatic compactions. Manual compactions can still be issued on this database. | *Type:* ``bool`` | *Default:* ``False`` .. py:attribute:: compaction_style The compaction style. Could be set to ``"level"`` to use level-style compaction. For universal-style compaction use ``"universal"``. For FIFO compaction use ``"fifo"``. If no compaction style use ``"none"``. | *Type:* ``string`` | *Default:* ``level`` .. py:attribute:: compaction_options_universal Options to use for universal-style compaction. They make only sense if :py:attr:`rocksdb.Options.compaction_style` is set to ``"universal"``. It is a dict with the following keys. * ``size_ratio``: Percentage flexibilty while comparing file size. If the candidate file(s) size is 1% smaller than the next file's size, then include next file into this candidate set. Default: ``1`` * ``min_merge_width``: The minimum number of files in a single compaction run. Default: ``2`` * ``max_merge_width``: The maximum number of files in a single compaction run. Default: ``UINT_MAX`` * ``max_size_amplification_percent``: The size amplification is defined as the amount (in percentage) of additional storage needed to store a single byte of data in the database. For example, a size amplification of 2% means that a database that contains 100 bytes of user-data may occupy upto 102 bytes of physical storage. By this definition, a fully compacted database has a size amplification of 0%. Rocksdb uses the following heuristic to calculate size amplification: it assumes that all files excluding the earliest file contribute to the size amplification. Default: ``200``, which means that a 100 byte database could require upto 300 bytes of storage. * ``compression_size_percent``: If this option is set to be -1 (the default value), all the output files will follow compression type specified. If this option is not negative, we will try to make sure compressed size is just above this value. In normal cases, at least this percentage of data will be compressed. When we are compacting to a new file, here is the criteria whether it needs to be compressed: assuming here are the list of files sorted by generation time: ``A1...An B1...Bm C1...Ct`` where ``A1`` is the newest and ``Ct`` is the oldest, and we are going to compact ``B1...Bm``, we calculate the total size of all the files as total_size, as well as the total size of ``C1...Ct`` as ``total_C``, the compaction output file will be compressed if ``total_C / total_size < this percentage``. Default: -1 * ``stop_style``: The algorithm used to stop picking files into a single compaction. Can be either ``"similar_size"`` or ``"total_size"``. * ``similar_size``: Pick files of similar size. * ``total_size``: Total size of picked files is greater than next file. Default: ``"total_size"`` For setting options, just assign a dict with the fields to set. It is allowed to omit keys in this dict. Missing keys are just not set to the underlying options object. This example just changes the stop_style and leaves the other options untouched. :: opts = rocksdb.Options() opts.compaction_options_universal = {'stop_style': 'similar_size'} .. py:attribute:: max_sequential_skip_in_iterations An iteration->Next() sequentially skips over keys with the same user-key unless this option is set. This number specifies the number of keys (with the same userkey) that will be sequentially skipped before a reseek is issued. | *Type:* ``int`` | *Default:* ``8`` .. py:attribute:: inplace_update_support Allows thread-safe inplace updates. Requires Updates if * key exists in current memtable * new sizeof(new_value) <= sizeof(old_value) * old_value for that key is a put i.e. kTypeValue | *Type:* ``bool`` | *Default:* ``False`` .. py:attribute:: inplace_update_num_locks | Number of locks used for inplace update. | Default: 10000, if :py:attr:`inplace_update_support` = True, else 0. | *Type:* ``int`` | *Default:* ``10000`` .. py:attribute:: table_factory Factory for the files forming the persisten data storage. Sometimes they are also named SST-Files. Right now you can assign instances of the following classes. * :py:class:`rocksdb.BlockBasedTableFactory` * :py:class:`rocksdb.PlainTableFactory` * :py:class:`rocksdb.TotalOrderPlainTableFactory` *Default:* :py:class:`rocksdb.BlockBasedTableFactory` .. py:attribute:: memtable_factory This is a factory that provides MemTableRep objects. Right now you can assing instances of the following classes. * :py:class:`rocksdb.VectorMemtableFactory` * :py:class:`rocksdb.SkipListMemtableFactory` * :py:class:`rocksdb.HashSkipListMemtableFactory` * :py:class:`rocksdb.HashLinkListMemtableFactory` *Default:* :py:class:`rocksdb.SkipListMemtableFactory` .. py:attribute:: comparator Comparator used to define the order of keys in the table. A python comparator must implement the :py:class:`rocksdb.interfaces.Comparator` interface. *Requires*: The client must ensure that the comparator supplied here has the same name and orders keys *exactly* the same as the comparator provided to previous open calls on the same DB. *Default:* :py:class:`rocksdb.BytewiseComparator` .. py:attribute:: merge_operator The client must provide a merge operator if Merge operation needs to be accessed. Calling Merge on a DB without a merge operator would result in :py:exc:`rocksdb.errors.NotSupported`. The client must ensure that the merge operator supplied here has the same name and *exactly* the same semantics as the merge operator provided to previous open calls on the same DB. The only exception is reserved for upgrade, where a DB previously without a merge operator is introduced to Merge operation for the first time. It's necessary to specify a merge operator when openning the DB in this case. A python merge operator must implement the :py:class:`rocksdb.interfaces.MergeOperator` or :py:class:`rocksdb.interfaces.AssociativeMergeOperator` interface. *Default:* ``None`` .. py:attribute:: prefix_extractor If not ``None``, use the specified function to determine the prefixes for keys. These prefixes will be placed in the filter. Depending on the workload, this can reduce the number of read-IOP cost for scans when a prefix is passed to the calls generating an iterator (:py:meth:`rocksdb.DB.iterkeys` ...). A python prefix_extractor must implement the :py:class:`rocksdb.interfaces.SliceTransform` interface For prefix filtering to work properly, "prefix_extractor" and "comparator" must be such that the following properties hold: 1. ``key.starts_with(prefix(key))`` 2. ``compare(prefix(key), key) <= 0`` 3. ``If compare(k1, k2) <= 0, then compare(prefix(k1), prefix(k2)) <= 0`` 4. ``prefix(prefix(key)) == prefix(key)`` *Default:* ``None`` .. py:attribute:: optimize_filters_for_hits This flag specifies that the implementation should optimize the filters mainly for cases where keys are found rather than also optimize for keys missed. This would be used in cases where the application knows that there are very few misses or the performance in the case of misses is not important. For now, this flag allows us to not store filters for the last level i.e the largest level which contains data of the LSM store. For keys which are hits, the filters in this level are not useful because we will search for the data anyway. NOTE: the filters in other levels are still useful even for key hit because they tell us whether to look in that level or go to the higher level. | *Type:* ``bool`` | *Default:* ``False`` .. py:attribute:: paranoid_file_checks After writing every SST file, reopen it and read all the keys. Checks the hash of all of the keys and values written versus the keys in the file and signals a corruption if they do not match | *Type:* ``bool`` | *Default:* ``False`` .. py:class:: rocksdb.Options .. py:method:: __init__(**kwargs) Inherits all attributes from :py:class:`ColumnFamilyOptions`. All options mentioned below can also be passed as keyword-arguments in the constructor. For example:: import rocksdb opts = rocksdb.Options(create_if_missing=True) # is the same as opts = rocksdb.Options() opts.create_if_missing = True .. py:attribute:: create_if_missing If ``True``, the database will be created if it is missing. | *Type:* ``bool`` | *Default:* ``False`` .. py:attribute:: create_missing_column_families If ``True``, missing column families will be automatically created. | *Type:* ``bool`` | *Default:* ``False`` .. py:attribute:: error_if_exists If ``True``, an error is raised if the database already exists. | *Type:* ``bool`` | *Default:* ``False`` .. py:attribute:: paranoid_checks If ``True``, the implementation will do aggressive checking of the data it is processing and will stop early if it detects any errors. This may have unforeseen ramifications: for example, a corruption of one DB entry may cause a large number of entries to become unreadable or for the entire DB to become unopenable. If any of the writes to the database fails (Put, Delete, Merge, Write), the database will switch to read-only mode and fail all other Write operations. | *Type:* ``bool`` | *Default:* ``True`` .. py:attribute:: max_open_files Number of open files that can be used by the DB. You may need to increase this if your database has a large working set. Value -1 means files opened are always kept open. You can estimate number of files based on target_file_size_base and target_file_size_multiplier for level-based compaction. For universal-style compaction, you can usually set it to -1. | *Type:* ``int`` | *Default:* ``5000`` .. py:attribute:: use_fsync If true, then every store to stable storage will issue a fsync. If false, then every store to stable storage will issue a fdatasync. This parameter should be set to true while storing data to filesystem like ext3 that can lose files after a reboot. | *Type:* ``bool`` | *Default:* ``False`` .. py:attribute:: db_log_dir This specifies the info LOG dir. If it is empty, the log files will be in the same dir as data. If it is non empty, the log files will be in the specified dir, and the db data dir's absolute path will be used as the log file name's prefix. | *Type:* ``unicode`` | *Default:* ``""`` .. py:attribute:: wal_dir This specifies the absolute dir path for write-ahead logs (WAL). If it is empty, the log files will be in the same dir as data, dbname is used as the data dir by default. If it is non empty, the log files will be in kept the specified dir. When destroying the db, all log files in wal_dir and the dir itself is deleted | *Type:* ``unicode`` | *Default:* ``""`` .. py:attribute:: delete_obsolete_files_period_micros The periodicity when obsolete files get deleted. The default value is 6 hours. The files that get out of scope by compaction process will still get automatically delete on every compaction, regardless of this setting | *Type:* ``int`` | *Default:* ``21600000000`` .. py:attribute:: max_background_compactions Maximum number of concurrent background jobs, submitted to the default LOW priority thread pool | *Type:* ``int`` | *Default:* ``1`` .. py:attribute:: stats_history_buffer_size if not zero, periodically take stats snapshots and store in memory, the memory size for stats snapshots is capped at stats_history_buffer_size | *Type:* ``int`` | *Default:* ``1048576`` .. py:attribute:: max_background_jobs Maximum number of concurrent background jobs (compactions and flushes). | *Type:* ``int`` | *Default:* ``2`` .. py:attribute:: max_background_flushes Maximum number of concurrent background memtable flush jobs, submitted to the HIGH priority thread pool. By default, all background jobs (major compaction and memtable flush) go to the LOW priority pool. If this option is set to a positive number, memtable flush jobs will be submitted to the HIGH priority pool. It is important when the same Env is shared by multiple db instances. Without a separate pool, long running major compaction jobs could potentially block memtable flush jobs of other db instances, leading to unnecessary Put stalls. | *Type:* ``int`` | *Default:* ``1`` .. py:attribute:: max_log_file_size Specify the maximal size of the info log file. If the log file is larger than `max_log_file_size`, a new info log file will be created. If max_log_file_size == 0, all logs will be written to one log file. | *Type:* ``int`` | *Default:* ``0`` .. py:attribute:: log_file_time_to_roll Time for the info log file to roll (in seconds). If specified with non-zero value, log file will be rolled if it has been active longer than `log_file_time_to_roll`. A value of ``0`` means disabled. | *Type:* ``int`` | *Default:* ``0`` .. py:attribute:: keep_log_file_num Maximal info log files to be kept. | *Type:* ``int`` | *Default:* ``1000`` .. py:attribute:: max_manifest_file_size manifest file is rolled over on reaching this limit. The older manifest file be deleted. The default value is MAX_INT so that roll-over does not take place. | *Type:* ``int`` | *Default:* ``(2**64) - 1`` .. py:attribute:: table_cache_numshardbits Number of shards used for table cache. | *Type:* ``int`` | *Default:* ``4`` .. py:attribute:: wal_ttl_seconds, wal_size_limit_mb The following two fields affect how archived logs will be deleted. 1. If both set to 0, logs will be deleted asap and will not get into the archive. 2. If wal_ttl_seconds is 0 and wal_size_limit_mb is not 0, WAL files will be checked every 10 min and if total size is greater then wal_size_limit_mb, they will be deleted starting with the earliest until size_limit is met. All empty files will be deleted. 3. If wal_ttl_seconds is not 0 and wal_size_limit_mb is 0, then WAL files will be checked every wal_ttl_secondsi / 2 and those that are older than wal_ttl_seconds will be deleted. 4. If both are not 0, WAL files will be checked every 10 min and both checks will be performed with ttl being first. | *Type:* ``int`` | *Default:* ``0`` .. py:attribute:: manifest_preallocation_size 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). | *Type:* ``int`` | *Default:* ``4194304`` .. py:attribute:: enable_write_thread_adaptive_yield If ``True``, threads synchronizing with the write batch group leader will wait for up to :py:attr:`write_thread_max_yield_usec` before blocking on a mutex. This can substantially improve throughput for concurrent workloads, regardless of whether allow_concurrent_memtable_write is enabled. | *Type:* ``bool`` | *Default:* ``True`` .. py:attribute:: allow_concurrent_memtable_write If ``True``, allow multi-writers to update mem tables in parallel. Only some memtable_factory-s support concurrent writes; currently it is implemented only for SkipListFactory. Concurrent memtable writes are not compatible with :py:attr:`inplace_update_support` or filter_deletes. It is strongly recommended to set :py:attr:`enable_write_thread_adaptive_yield` if you are going to use this feature. | *Type:* ``bool`` | *Default:* ``True`` .. py:attribute:: allow_mmap_reads Allow the OS to mmap file for reading sst tables | *Type:* ``bool`` | *Default:* ``True`` .. py:attribute:: allow_mmap_writes Allow the OS to mmap file for writing | *Type:* ``bool`` | *Default:* ``False`` .. py:attribute:: is_fd_close_on_exec Disable child process inherit open files | *Type:* ``bool`` | *Default:* ``True`` .. py:attribute:: stats_dump_period_sec If not zero, dump rocksdb.stats to LOG every stats_dump_period_sec | *Type:* ``int`` | *Default:* ``3600`` .. py:attribute:: advise_random_on_open If set true, will hint the underlying file system that the file access pattern is random, when a sst file is opened. | *Type:* ``bool`` | *Default:* ``True`` .. py:attribute:: use_adaptive_mutex Use adaptive mutex, which spins in the user space before resorting to kernel. This could reduce context switch when the mutex is not heavily contended. However, if the mutex is hot, we could end up wasting spin time. | *Type:* ``bool`` | *Default:* ``False`` .. py:attribute:: bytes_per_sync Allows OS to incrementally sync files to disk while they are being written, asynchronously, in the background. Issue one request for every bytes_per_sync written. 0 turns it off. | *Type:* ``int`` | *Default:* ``0`` .. py:attribute:: row_cache A global cache for table-level rows. If ``None`` this cache is not used. Otherwise it must be an instance of :py:class:`rocksdb.LRUCache` *Default:* ``None`` .. py:method:: IncreaseParallelism(total_threads=16) By default, RocksDB uses only one background thread for flush and compaction. Calling this function will set it up such that total of `total_threads` is used. A good value for `total_threads` is the number of cores. You almost definitely want to call this function if your system is bottlenecked by RocksDB. CompactionPri ============= .. py:class:: rocksdb.CompactionPri Defines the support compression types .. py:attribute:: kByCompensatedSize .. py:attribute:: kOldestLargestSeqFirst .. py:attribute:: kOldestSmallestSeqFirst .. py:attribute:: kMinOverlappingRatio CompressionTypes ================ .. py:class:: rocksdb.CompressionType Defines the support compression types .. py:attribute:: no_compression .. py:attribute:: snappy_compression .. py:attribute:: zlib_compression .. py:attribute:: bzip2_compression .. py:attribute:: lz4_compression .. py:attribute:: lz4hc_compression .. py:attribute:: xpress_compression .. py:attribute:: zstd_compression .. py:attribute:: zstdnotfinal_compression .. py:attribute:: disable_compression BytewiseComparator ================== .. py:class:: rocksdb.BytewiseComparator Wraps the rocksdb Bytewise Comparator, it uses lexicographic byte-wise ordering BloomFilterPolicy ================= .. py:class:: rocksdb.BloomFilterPolicy Wraps the rocksdb BloomFilter Policy .. py:method:: __init__(bits_per_key) :param int bits_per_key: Specifies the approximately number of bits per key. A good value for bits_per_key is 10, which yields a filter with ~ 1% false positive rate. LRUCache ======== .. py:class:: rocksdb.LRUCache Wraps the rocksdb LRUCache .. py:method:: __init__(capacity, shard_bits=None) Create a new cache with a fixed size capacity (in bytes). The cache is sharded to 2^numShardBits shards, by hash of the key. The total capacity is divided and evenly assigned to each shard. .. _table_factories_label: TableFactories ============== Currently RocksDB supports two types of tables: plain table and block-based table. Instances of this classes can assigned to :py:attr:`rocksdb.Options.table_factory` * *Block-based table:* This is the default table type that RocksDB inherited from LevelDB. It was designed for storing data in hard disk or flash device. * *Plain table:* It is one of RocksDB's SST file format optimized for low query latency on pure-memory or really low-latency media. Tutorial of rocksdb table formats is available here: https://github.com/facebook/rocksdb/wiki/A-Tutorial-of-RocksDB-SST-formats .. py:class:: rocksdb.BlockBasedTableFactory Wraps BlockBasedTableFactory of RocksDB. .. py:method:: __init__(index_type='binary_search', hash_index_allow_collision=True, checksum='crc32', block_cache, block_cache_compressed, filter_policy=None, no_block_cache=False, block_size=None, block_size_deviation=None, block_restart_interval=None, whole_key_filtering=None, enable_index_compression=None, cache_index_and_filter_blocks=None, format_version=None) :param string index_type: * ``binary_search`` a space efficient index block that is optimized for binary-search-based index. * ``hash_search`` the hash index. If enabled, will do hash lookup when `Options.prefix_extractor` is provided. :param bool hash_index_allow_collision: Influence the behavior when ``hash_search`` is used. If ``False``, stores a precise prefix to block range mapping. If ``True``, does not store prefix and allows prefix hash collision (less memory consumption) :param string checksum: Use the specified checksum type. Newly created table files will be protected with this checksum type. Old table files will still be readable, even though they have different checksum type. Can be either ``crc32`` or ``xxhash``. :param block_cache: Control over blocks (user data is stored in a set of blocks, and a block is the unit of reading from disk). If ``None``, rocksdb will automatically create and use an 8MB internal cache. If not ``None`` use the specified cache for blocks. In that case it must be an instance of :py:class:`rocksdb.LRUCache` :param block_cache_compressed: If ``None``, rocksdb will not use a compressed block cache. If not ``None`` use the specified cache for compressed blocks. In that case it must be an instance of :py:class:`rocksdb.LRUCache` :param filter_policy: If not ``None`` use the specified filter policy to reduce disk reads. A python filter policy must implement the :py:class:`rocksdb.interfaces.FilterPolicy` interface. Recommended is a instance of :py:class:`rocksdb.BloomFilterPolicy` :param bool no_block_cache: Disable block cache. If this is set to true, then no block cache should be used, and the block_cache should point to ``None`` :param int block_size: If set to ``None`` the rocksdb default of ``4096`` is used. Approximate size of user data packed per block. Note that the block size specified here corresponds to uncompressed data. The actual size of the unit read from disk may be smaller if compression is enabled. This parameter can be changed dynamically. :param int block_size_deviation: If set to ``None`` the rocksdb default of ``10`` is used. This is used to close a block before it reaches the configured 'block_size'. If the percentage of free space in the current block is less than this specified number and adding a new record to the block will exceed the configured block size, then this block will be closed and the new record will be written to the next block. :param int block_restart_interval: If set to ``None`` the rocksdb default of ``16`` is used. Number of keys between restart points for delta encoding of keys. This parameter can be changed dynamically. Most clients should leave this parameter alone. :param bool whole_key_filtering: If set to ``None`` the rocksdb default of ``True`` is used. If ``True``, place whole keys in the filter (not just prefixes). This must generally be true for gets to be efficient. :param bool enable_index_compression: If set to ``None`` the rocksdb default of ``True`` is used. Store index blocks on disk in compressed format. Setting this option to ``False`` will avoid the overhead of decompression if index blocks are evicted and read back. :param boot cache_index_and_filter_blocks: If set to ``None`` the rocksdb default of ``False`` is used. Indicates if we'd put index/filter blocks to the block cache. If ``False``, each "table reader" object will pre-load index/filter block during table initialization. :param int format_version: If set to ``None`` the rocksdb default of ``4`` is used. There are currently 6 versions: 0 This version is currently written out by all RocksDB's versions by default. Can be read by really old RocksDB's. Doesn't support changing checksum (default is CRC32). 1 Can be read by RocksDB's versions since 3.0. Supports non-default checksum, like xxHash. It is written by RocksDB when BlockBasedTableOptions::checksum is something other than kCRC32c. (version 0 is silently upconverted) 2 Can be read by RocksDB's versions since 3.10. Changes the way we encode compressed blocks with LZ4, BZip2 and Zlib compression. If you don't plan to run RocksDB before version 3.10, you should probably use this. 3 Can be read by RocksDB's versions since 5.15. Changes the way we encode the keys in index blocks. If you don't plan to run RocksDB before version 5.15, you should probably use this. This option only affects newly written tables. When reading existing tables, the information about version is read from the footer. 4 Can be read by RocksDB's versions since 5.16. Changes the way we encode the values in index blocks. If you don't plan to run RocksDB before version 5.16 and you are using index_block_restart_interval > 1, you should probably use this as it would reduce the index size. This option only affects newly written tables. When reading existing tables, the information about version is read from the footer. 5 Can be read by RocksDB's versions since 6.6.0. Full and partitioned filters use a generally faster and more accurate Bloom filter implementation, with a different schema. .. py:class:: rocksdb.PlainTableFactory Plain Table with prefix-only seek. It wraps rocksdb PlainTableFactory. For this factory, you need to set :py:attr:`rocksdb.Options.prefix_extractor` properly to make it work. Look-up will start with prefix hash lookup for key prefix. Inside the hash bucket found, a binary search is executed for hash conflicts. Finally, a linear search is used. .. py:method:: __init__(user_key_len=0, bloom_bits_per_key=10, hash_table_ratio=0.75, index_sparseness=10, huge_page_tlb_size=0, encoding_type='plain', full_scan_mode=False, store_index_in_file=False) :param int user_key_len: Plain table has optimization for fix-sized keys, which can be specified via user_key_len. Alternatively, you can pass `0` if your keys have variable lengths. :param int bloom_bits_per_key: The number of bits used for bloom filer per prefix. You may disable it by passing `0`. :param float hash_table_ratio: The desired utilization of the hash table used for prefix hashing. hash_table_ratio = number of prefixes / #buckets in the hash table. :param int index_sparseness: Inside each prefix, need to build one index record for how many keys for binary search inside each hash bucket. For encoding type ``prefix``, the value will be used when writing to determine an interval to rewrite the full key. It will also be used as a suggestion and satisfied when possible. :param int huge_page_tlb_size: If <=0, allocate hash indexes and blooms from malloc. Otherwise from huge page TLB. The user needs to reserve huge pages for it to be allocated, like: ``sysctl -w vm.nr_hugepages=20`` See linux doc Documentation/vm/hugetlbpage.txt :param string encoding_type: How to encode the keys. The value will determine how to encode keys when writing to a new SST file. This value will be stored inside the SST file which will be used when reading from the file, which makes it possible for users to choose different encoding type when reopening a DB. Files with different encoding types can co-exist in the same DB and can be read. * ``plain``: Always write full keys without any special encoding. * ``prefix``: Find opportunity to write the same prefix once for multiple rows. In some cases, when a key follows a previous key with the same prefix, instead of writing out the full key, it just writes out the size of the shared prefix, as well as other bytes, to save some bytes. When using this option, the user is required to use the same prefix extractor to make sure the same prefix will be extracted from the same key. The Name() value of the prefix extractor will be stored in the file. When reopening the file, the name of the options.prefix_extractor given will be bitwise compared to the prefix extractors stored in the file. An error will be returned if the two don't match. :param bool full_scan_mode: Mode for reading the whole file one record by one without using the index. :param bool store_index_in_file: Compute plain table index and bloom filter during file building and store it in file. When reading file, index will be mmaped instead of recomputation. .. _memtable_factories_label: MemtableFactories ================= RocksDB has different classes to represent the in-memory buffer for the current operations. You have to assing instances of the following classes to :py:attr:`rocksdb.Options.memtable_factory`. This page has a comparison the most popular ones. https://github.com/facebook/rocksdb/wiki/Hash-based-memtable-implementations .. py:class:: rocksdb.VectorMemtableFactory This creates MemTableReps that are backed by an std::vector. On iteration, the vector is sorted. This is useful for workloads where iteration is very rare and writes are generally not issued after reads begin. .. py:method:: __init__(count=0) :param int count: Passed to the constructor of the underlying std::vector of each VectorRep. On initialization, the underlying array will be at least count bytes reserved for usage. .. py:class:: rocksdb.SkipListMemtableFactory This uses a skip list to store keys. .. py:method:: __init__() .. py:class:: rocksdb.HashSkipListMemtableFactory This class contains a fixed array of buckets, each pointing to a skiplist (null if the bucket is empty). .. note:: :py:attr:`rocksdb.Options.prefix_extractor` must be set, otherwise rocksdb fails back to skip-list. .. py:method:: __init__(bucket_count = 1000000, skiplist_height = 4, skiplist_branching_factor = 4) :param int bucket_count: number of fixed array buckets :param int skiplist_height: the max height of the skiplist :param int skiplist_branching_factor: probabilistic size ratio between adjacent link lists in the skiplist .. py:class:: rocksdb.HashLinkListMemtableFactory The factory is to create memtables with a hashed linked list. It contains a fixed array of buckets, each pointing to a sorted single linked list (null if the bucket is empty). .. note:: :py:attr:`rocksdb.Options.prefix_extractor` must be set, otherwise rocksdb fails back to skip-list. .. py:method:: __init__(bucket_count=50000) :param int bucket: number of fixed array buckets