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options.go
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options.go
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// Copyright 2011 The LevelDB-Go and Pebble Authors. All rights reserved. Use
// of this source code is governed by a BSD-style license that can be found in
// the LICENSE file.
package pebble
import (
"bytes"
"fmt"
"io"
"runtime"
"strconv"
"strings"
"time"
"github.com/cockroachdb/errors"
"github.com/cockroachdb/pebble/internal/base"
"github.com/cockroachdb/pebble/internal/cache"
"github.com/cockroachdb/pebble/internal/humanize"
"github.com/cockroachdb/pebble/internal/manifest"
"github.com/cockroachdb/pebble/objstorage/shared"
"github.com/cockroachdb/pebble/sstable"
"github.com/cockroachdb/pebble/vfs"
)
const (
cacheDefaultSize = 8 << 20 // 8 MB
defaultLevelMultiplier = 10
)
// Compression exports the base.Compression type.
type Compression = sstable.Compression
// Exported Compression constants.
const (
DefaultCompression = sstable.DefaultCompression
NoCompression = sstable.NoCompression
SnappyCompression = sstable.SnappyCompression
ZstdCompression = sstable.ZstdCompression
)
// FilterType exports the base.FilterType type.
type FilterType = base.FilterType
// Exported TableFilter constants.
const (
TableFilter = base.TableFilter
)
// FilterWriter exports the base.FilterWriter type.
type FilterWriter = base.FilterWriter
// FilterPolicy exports the base.FilterPolicy type.
type FilterPolicy = base.FilterPolicy
// TablePropertyCollector exports the sstable.TablePropertyCollector type.
type TablePropertyCollector = sstable.TablePropertyCollector
// BlockPropertyCollector exports the sstable.BlockPropertyCollector type.
type BlockPropertyCollector = sstable.BlockPropertyCollector
// BlockPropertyFilter exports the sstable.BlockPropertyFilter type.
type BlockPropertyFilter = base.BlockPropertyFilter
// ShortAttributeExtractor exports the base.ShortAttributeExtractor type.
type ShortAttributeExtractor = base.ShortAttributeExtractor
// UserKeyPrefixBound exports the sstable.UserKeyPrefixBound type.
type UserKeyPrefixBound = sstable.UserKeyPrefixBound
// IterKeyType configures which types of keys an iterator should surface.
type IterKeyType int8
const (
// IterKeyTypePointsOnly configures an iterator to iterate over point keys
// only.
IterKeyTypePointsOnly IterKeyType = iota
// IterKeyTypeRangesOnly configures an iterator to iterate over range keys
// only.
IterKeyTypeRangesOnly
// IterKeyTypePointsAndRanges configures an iterator iterate over both point
// keys and range keys simultaneously.
IterKeyTypePointsAndRanges
)
// String implements fmt.Stringer.
func (t IterKeyType) String() string {
switch t {
case IterKeyTypePointsOnly:
return "points-only"
case IterKeyTypeRangesOnly:
return "ranges-only"
case IterKeyTypePointsAndRanges:
return "points-and-ranges"
default:
panic(fmt.Sprintf("unknown key type %d", t))
}
}
// IterOptions hold the optional per-query parameters for NewIter.
//
// Like Options, a nil *IterOptions is valid and means to use the default
// values.
type IterOptions struct {
// LowerBound specifies the smallest key (inclusive) that the iterator will
// return during iteration. If the iterator is seeked or iterated past this
// boundary the iterator will return Valid()==false. Setting LowerBound
// effectively truncates the key space visible to the iterator.
LowerBound []byte
// UpperBound specifies the largest key (exclusive) that the iterator will
// return during iteration. If the iterator is seeked or iterated past this
// boundary the iterator will return Valid()==false. Setting UpperBound
// effectively truncates the key space visible to the iterator.
UpperBound []byte
// TableFilter can be used to filter the tables that are scanned during
// iteration based on the user properties. Return true to scan the table and
// false to skip scanning. This function must be thread-safe since the same
// function can be used by multiple iterators, if the iterator is cloned.
TableFilter func(userProps map[string]string) bool
// PointKeyFilters can be used to avoid scanning tables and blocks in tables
// when iterating over point keys. It is requires that this slice is sorted in
// increasing order of the BlockPropertyFilter.ShortID. This slice represents
// an intersection across all filters, i.e., all filters must indicate that the
// block is relevant.
PointKeyFilters []BlockPropertyFilter
// RangeKeyFilters can be usefd to avoid scanning tables and blocks in tables
// when iterating over range keys. The same requirements that apply to
// PointKeyFilters apply here too.
RangeKeyFilters []BlockPropertyFilter
// KeyTypes configures which types of keys to iterate over: point keys,
// range keys, or both.
KeyTypes IterKeyType
// RangeKeyMasking can be used to enable automatic masking of point keys by
// range keys. Range key masking is only supported during combined range key
// and point key iteration mode (IterKeyTypePointsAndRanges).
RangeKeyMasking RangeKeyMasking
// OnlyReadGuaranteedDurable is an advanced option that is only supported by
// the Reader implemented by DB. When set to true, only the guaranteed to be
// durable state is visible in the iterator.
// - This definition is made under the assumption that the FS implementation
// is providing a durability guarantee when data is synced.
// - The visible state represents a consistent point in the history of the
// DB.
// - The implementation is free to choose a conservative definition of what
// is guaranteed durable. For simplicity, the current implementation
// ignores memtables. A more sophisticated implementation could track the
// highest seqnum that is synced to the WAL and published and use that as
// the visible seqnum for an iterator. Note that the latter approach is
// not strictly better than the former since we can have DBs that are (a)
// synced more rarely than memtable flushes, (b) have no WAL. (a) is
// likely to be true in a future CockroachDB context where the DB
// containing the state machine may be rarely synced.
// NB: this current implementation relies on the fact that memtables are
// flushed in seqnum order, and any ingested sstables that happen to have a
// lower seqnum than a non-flushed memtable don't have any overlapping keys.
// This is the fundamental level invariant used in other code too, like when
// merging iterators.
//
// Semantically, using this option provides the caller a "snapshot" as of
// the time the most recent memtable was flushed. An alternate interface
// would be to add a NewSnapshot variant. Creating a snapshot is heavier
// weight than creating an iterator, so we have opted to support this
// iterator option.
OnlyReadGuaranteedDurable bool
// UseL6Filters allows the caller to opt into reading filter blocks for L6
// sstables. Helpful if a lot of SeekPrefixGEs are expected in quick
// succession, that are also likely to not yield a single key. Filter blocks in
// L6 can be relatively large, often larger than data blocks, so the benefit of
// loading them in the cache is minimized if the probability of the key
// existing is not low or if we just expect a one-time Seek (where loading the
// data block directly is better).
UseL6Filters bool
// Internal options.
logger Logger
// Level corresponding to this file. Only passed in if constructed by a
// levelIter.
level manifest.Level
// disableLazyCombinedIteration is an internal testing option.
disableLazyCombinedIteration bool
// NB: If adding new Options, you must account for them in iterator
// construction and Iterator.SetOptions.
}
// GetLowerBound returns the LowerBound or nil if the receiver is nil.
func (o *IterOptions) GetLowerBound() []byte {
if o == nil {
return nil
}
return o.LowerBound
}
// GetUpperBound returns the UpperBound or nil if the receiver is nil.
func (o *IterOptions) GetUpperBound() []byte {
if o == nil {
return nil
}
return o.UpperBound
}
func (o *IterOptions) pointKeys() bool {
if o == nil {
return true
}
return o.KeyTypes == IterKeyTypePointsOnly || o.KeyTypes == IterKeyTypePointsAndRanges
}
func (o *IterOptions) rangeKeys() bool {
if o == nil {
return false
}
return o.KeyTypes == IterKeyTypeRangesOnly || o.KeyTypes == IterKeyTypePointsAndRanges
}
func (o *IterOptions) getLogger() Logger {
if o == nil || o.logger == nil {
return DefaultLogger
}
return o.logger
}
// RangeKeyMasking configures automatic hiding of point keys by range keys. A
// non-nil Suffix enables range-key masking. When enabled, range keys with
// suffixes ≥ Suffix behave as masks. All point keys that are contained within a
// masking range key's bounds and have suffixes greater than the range key's
// suffix are automatically skipped.
//
// Specifically, when configured with a RangeKeyMasking.Suffix _s_, and there
// exists a range key with suffix _r_ covering a point key with suffix _p_, and
//
// _s_ ≤ _r_ < _p_
//
// then the point key is elided.
//
// Range-key masking may only be used when iterating over both point keys and
// range keys with IterKeyTypePointsAndRanges.
type RangeKeyMasking struct {
// Suffix configures which range keys may mask point keys. Only range keys
// that are defined at suffixes greater than or equal to Suffix will mask
// point keys.
Suffix []byte
// Filter is an optional field that may be used to improve performance of
// range-key masking through a block-property filter defined over key
// suffixes. If non-nil, Filter is called by Pebble to construct a
// block-property filter mask at iterator creation. The filter is used to
// skip whole point-key blocks containing point keys with suffixes greater
// than a covering range-key's suffix.
//
// To use this functionality, the caller must create and configure (through
// Options.BlockPropertyCollectors) a block-property collector that records
// the maxmimum suffix contained within a block. The caller then must write
// and provide a BlockPropertyFilterMask implementation on that same
// property. See the BlockPropertyFilterMask type for more information.
Filter func() BlockPropertyFilterMask
}
// BlockPropertyFilterMask extends the BlockPropertyFilter interface for use
// with range-key masking. Unlike an ordinary block property filter, a
// BlockPropertyFilterMask's filtering criteria is allowed to change when Pebble
// invokes its SetSuffix method.
//
// When a Pebble iterator steps into a range key's bounds and the range key has
// a suffix greater than or equal to RangeKeyMasking.Suffix, the range key acts
// as a mask. The masking range key hides all point keys that fall within the
// range key's bounds and have suffixes > the range key's suffix. Without a
// filter mask configured, Pebble performs this hiding by stepping through point
// keys and comparing suffixes. If large numbers of point keys are masked, this
// requires Pebble to load, iterate through and discard a large number of
// sstable blocks containing masked point keys.
//
// If a block-property collector and a filter mask are configured, Pebble may
// skip loading some point-key blocks altogether. If a block's keys are known to
// all fall within the bounds of the masking range key and the block was
// annotated by a block-property collector with the maximal suffix, Pebble can
// ask the filter mask to compare the property to the current masking range
// key's suffix. If the mask reports no intersection, the block may be skipped.
//
// If unsuffixed and suffixed keys are written to the database, care must be
// taken to avoid unintentionally masking un-suffixed keys located in the same
// block as suffixed keys. One solution is to interpret unsuffixed keys as
// containing the maximal suffix value, ensuring that blocks containing
// unsuffixed keys are always loaded.
type BlockPropertyFilterMask interface {
BlockPropertyFilter
// SetSuffix configures the mask with the suffix of a range key. The filter
// should return false from Intersects whenever it's provided with a
// property encoding a block's minimum suffix that's greater (according to
// Compare) than the provided suffix.
SetSuffix(suffix []byte) error
}
// WriteOptions hold the optional per-query parameters for Set and Delete
// operations.
//
// Like Options, a nil *WriteOptions is valid and means to use the default
// values.
type WriteOptions struct {
// Sync is whether to sync writes through the OS buffer cache and down onto
// the actual disk, if applicable. Setting Sync is required for durability of
// individual write operations but can result in slower writes.
//
// If false, and the process or machine crashes, then a recent write may be
// lost. This is due to the recently written data being buffered inside the
// process running Pebble. This differs from the semantics of a write system
// call in which the data is buffered in the OS buffer cache and would thus
// survive a process crash.
//
// The default value is true.
Sync bool
}
// Sync specifies the default write options for writes which synchronize to
// disk.
var Sync = &WriteOptions{Sync: true}
// NoSync specifies the default write options for writes which do not
// synchronize to disk.
var NoSync = &WriteOptions{Sync: false}
// GetSync returns the Sync value or true if the receiver is nil.
func (o *WriteOptions) GetSync() bool {
return o == nil || o.Sync
}
// LevelOptions holds the optional per-level parameters.
type LevelOptions struct {
// BlockRestartInterval is the number of keys between restart points
// for delta encoding of keys.
//
// The default value is 16.
BlockRestartInterval int
// BlockSize is the target uncompressed size in bytes of each table block.
//
// The default value is 4096.
BlockSize int
// BlockSizeThreshold finishes a block if the block size is larger than the
// specified percentage of the target block size and adding the next entry
// would cause the block to be larger than the target block size.
//
// The default value is 90
BlockSizeThreshold int
// Compression defines the per-block compression to use.
//
// The default value (DefaultCompression) uses snappy compression.
Compression Compression
// FilterPolicy defines a filter algorithm (such as a Bloom filter) that can
// reduce disk reads for Get calls.
//
// One such implementation is bloom.FilterPolicy(10) from the pebble/bloom
// package.
//
// The default value means to use no filter.
FilterPolicy FilterPolicy
// FilterType defines whether an existing filter policy is applied at a
// block-level or table-level. Block-level filters use less memory to create,
// but are slower to access as a check for the key in the index must first be
// performed to locate the filter block. A table-level filter will require
// memory proportional to the number of keys in an sstable to create, but
// avoids the index lookup when determining if a key is present. Table-level
// filters should be preferred except under constrained memory situations.
FilterType FilterType
// IndexBlockSize is the target uncompressed size in bytes of each index
// block. When the index block size is larger than this target, two-level
// indexes are automatically enabled. Setting this option to a large value
// (such as math.MaxInt32) disables the automatic creation of two-level
// indexes.
//
// The default value is the value of BlockSize.
IndexBlockSize int
// The target file size for the level.
TargetFileSize int64
}
// EnsureDefaults ensures that the default values for all of the options have
// been initialized. It is valid to call EnsureDefaults on a nil receiver. A
// non-nil result will always be returned.
func (o *LevelOptions) EnsureDefaults() *LevelOptions {
if o == nil {
o = &LevelOptions{}
}
if o.BlockRestartInterval <= 0 {
o.BlockRestartInterval = base.DefaultBlockRestartInterval
}
if o.BlockSize <= 0 {
o.BlockSize = base.DefaultBlockSize
} else if o.BlockSize > sstable.MaximumBlockSize {
panic(errors.Errorf("BlockSize %d exceeds MaximumBlockSize", o.BlockSize))
}
if o.BlockSizeThreshold <= 0 {
o.BlockSizeThreshold = base.DefaultBlockSizeThreshold
}
if o.Compression <= DefaultCompression || o.Compression >= sstable.NCompression {
o.Compression = SnappyCompression
}
if o.IndexBlockSize <= 0 {
o.IndexBlockSize = o.BlockSize
}
if o.TargetFileSize <= 0 {
o.TargetFileSize = 2 << 20 // 2 MB
}
return o
}
// Options holds the optional parameters for configuring pebble. These options
// apply to the DB at large; per-query options are defined by the IterOptions
// and WriteOptions types.
type Options struct {
// Sync sstables periodically in order to smooth out writes to disk. This
// option does not provide any persistency guarantee, but is used to avoid
// latency spikes if the OS automatically decides to write out a large chunk
// of dirty filesystem buffers. This option only controls SSTable syncs; WAL
// syncs are controlled by WALBytesPerSync.
//
// The default value is 512KB.
BytesPerSync int
// Cache is used to cache uncompressed blocks from sstables.
//
// The default cache size is 8 MB.
Cache *cache.Cache
// Cleaner cleans obsolete files.
//
// The default cleaner uses the DeleteCleaner.
Cleaner Cleaner
// Comparer defines a total ordering over the space of []byte keys: a 'less
// than' relationship. The same comparison algorithm must be used for reads
// and writes over the lifetime of the DB.
//
// The default value uses the same ordering as bytes.Compare.
Comparer *Comparer
// DebugCheck is invoked, if non-nil, whenever a new version is being
// installed. Typically, this is set to pebble.DebugCheckLevels in tests
// or tools only, to check invariants over all the data in the database.
DebugCheck func(*DB) error
// Disable the write-ahead log (WAL). Disabling the write-ahead log prohibits
// crash recovery, but can improve performance if crash recovery is not
// needed (e.g. when only temporary state is being stored in the database).
//
// TODO(peter): untested
DisableWAL bool
// ErrorIfExists causes an error on Open if the database already exists.
// The error can be checked with errors.Is(err, ErrDBAlreadyExists).
//
// The default value is false.
ErrorIfExists bool
// ErrorIfNotExists causes an error on Open if the database does not already
// exist. The error can be checked with errors.Is(err, ErrDBDoesNotExist).
//
// The default value is false which will cause a database to be created if it
// does not already exist.
ErrorIfNotExists bool
// ErrorIfNotPristine causes an error on Open if the database already exists
// and any operations have been performed on the database. The error can be
// checked with errors.Is(err, ErrDBNotPristine).
//
// Note that a database that contained keys that were all subsequently deleted
// may or may not trigger the error. Currently, we check if there are any live
// SSTs or log records to replay.
ErrorIfNotPristine bool
// EventListener provides hooks to listening to significant DB events such as
// flushes, compactions, and table deletion.
EventListener *EventListener
// Experimental contains experimental options which are off by default.
// These options are temporary and will eventually either be deleted, moved
// out of the experimental group, or made the non-adjustable default. These
// options may change at any time, so do not rely on them.
Experimental struct {
// The threshold of L0 read-amplification at which compaction concurrency
// is enabled (if CompactionDebtConcurrency was not already exceeded).
// Every multiple of this value enables another concurrent
// compaction up to MaxConcurrentCompactions.
L0CompactionConcurrency int
// CompactionDebtConcurrency controls the threshold of compaction debt
// at which additional compaction concurrency slots are added. For every
// multiple of this value in compaction debt bytes, an additional
// concurrent compaction is added. This works "on top" of
// L0CompactionConcurrency, so the higher of the count of compaction
// concurrency slots as determined by the two options is chosen.
CompactionDebtConcurrency int
// MinDeletionRate is the minimum number of bytes per second that would
// be deleted. Deletion pacing is used to slow down deletions when
// compactions finish up or readers close, and newly-obsolete files need
// cleaning up. Deleting lots of files at once can cause disk latency to
// go up on some SSDs, which this functionality guards against. This is a
// minimum as the maximum is theoretically unlimited; pacing is disabled
// when there are too many obsolete files relative to live bytes, or
// there isn't enough disk space available. Setting this to 0 disables
// deletion pacing, which is also the default.
MinDeletionRate int
// ReadCompactionRate controls the frequency of read triggered
// compactions by adjusting `AllowedSeeks` in manifest.FileMetadata:
//
// AllowedSeeks = FileSize / ReadCompactionRate
//
// From LevelDB:
// ```
// We arrange to automatically compact this file after
// a certain number of seeks. Let's assume:
// (1) One seek costs 10ms
// (2) Writing or reading 1MB costs 10ms (100MB/s)
// (3) A compaction of 1MB does 25MB of IO:
// 1MB read from this level
// 10-12MB read from next level (boundaries may be misaligned)
// 10-12MB written to next level
// This implies that 25 seeks cost the same as the compaction
// of 1MB of data. I.e., one seek costs approximately the
// same as the compaction of 40KB of data. We are a little
// conservative and allow approximately one seek for every 16KB
// of data before triggering a compaction.
// ```
ReadCompactionRate int64
// ReadSamplingMultiplier is a multiplier for the readSamplingPeriod in
// iterator.maybeSampleRead() to control the frequency of read sampling
// to trigger a read triggered compaction. A value of -1 prevents sampling
// and disables read triggered compactions. The default is 1 << 4. which
// gets multiplied with a constant of 1 << 16 to yield 1 << 20 (1MB).
ReadSamplingMultiplier int64
// TableCacheShards is the number of shards per table cache.
// Reducing the value can reduce the number of idle goroutines per DB
// instance which can be useful in scenarios with a lot of DB instances
// and a large number of CPUs, but doing so can lead to higher contention
// in the table cache and reduced performance.
//
// The default value is the number of logical CPUs, which can be
// limited by runtime.GOMAXPROCS.
TableCacheShards int
// KeyValidationFunc is a function to validate a user key in an SSTable.
//
// Currently, this function is used to validate the smallest and largest
// keys in an SSTable undergoing compaction. In this case, returning an
// error from the validation function will result in a panic at runtime,
// given that there is rarely any way of recovering from malformed keys
// present in compacted files. By default, validation is not performed.
//
// Additional use-cases may be added in the future.
//
// NOTE: callers should take care to not mutate the key being validated.
KeyValidationFunc func(userKey []byte) error
// ValidateOnIngest schedules validation of sstables after they have
// been ingested.
//
// By default, this value is false.
ValidateOnIngest bool
// LevelMultiplier configures the size multiplier used to determine the
// desired size of each level of the LSM. Defaults to 10.
LevelMultiplier int
// MultiLevelCompactionHueristic determines whether to add an additional
// level to a conventional two level compaction. If nil, a multilevel
// compaction will never get triggered.
MultiLevelCompactionHueristic MultiLevelHeuristic
// MaxWriterConcurrency is used to indicate the maximum number of
// compression workers the compression queue is allowed to use. If
// MaxWriterConcurrency > 0, then the Writer will use parallelism, to
// compress and write blocks to disk. Otherwise, the writer will
// compress and write blocks to disk synchronously.
MaxWriterConcurrency int
// ForceWriterParallelism is used to force parallelism in the sstable
// Writer for the metamorphic tests. Even with the MaxWriterConcurrency
// option set, we only enable parallelism in the sstable Writer if there
// is enough CPU available, and this option bypasses that.
ForceWriterParallelism bool
// CPUWorkPermissionGranter should be set if Pebble should be given the
// ability to optionally schedule additional CPU. See the documentation
// for CPUWorkPermissionGranter for more details.
CPUWorkPermissionGranter CPUWorkPermissionGranter
// PointTombstoneWeight is a float in the range [0, +inf) used to weight the
// point tombstone heuristics during compaction picking.
//
// The default value is 1, which results in no scaling of point tombstones.
PointTombstoneWeight float64
// EnableValueBlocks is used to decide whether to enable writing
// TableFormatPebblev3 sstables. WARNING: do not return true yet, since
// support for TableFormatPebblev3 is incomplete and not production ready.
EnableValueBlocks func() bool
// ShortAttributeExtractor is used iff EnableValueBlocks() returns true
// (else ignored). If non-nil, a ShortAttribute can be extracted from the
// value and stored with the key, when the value is stored elsewhere.
ShortAttributeExtractor ShortAttributeExtractor
// RequiredInPlaceValueBound specifies an optional span of user key
// prefixes for which the values must be stored with the key. This is
// useful for statically known exclusions to value separation. In
// CockroachDB, this will be used for the lock table key space that has
// non-empty suffixes, but those locks don't represent actual MVCC
// versions (the suffix ordering is arbitrary). We will also need to add
// support for dynamically configured exclusions (we want the default to
// be to allow Pebble to decide whether to separate the value or not,
// hence this is structured as exclusions), for example, for users of
// CockroachDB to dynamically exclude certain tables.
//
// Any change in exclusion behavior takes effect only on future written
// sstables, and does not start rewriting existing sstables.
RequiredInPlaceValueBound UserKeyPrefixBound
// IngestSSTablesAsFlushable is used to determine if ingested sstables
// should be ingested as a flushable. By default this is false, but it
// is true for all metamorphic tests.
//
// TODO(bananabrick): Remove this field and enable by default once
// https://github.com/cockroachdb/pebble/issues/2292 and
// https://github.com/cockroachdb/pebble/issues/2266 are closed.
IngestSSTablesAsFlushable bool
// SharedStorage is a second FS-like storage medium that can be shared
// between multiple Pebble instances. It is used to store sstables only, and
// is managed by objstorage.Provider. Each sstable might only be written to
// by one Pebble instance, but other Pebble instances can possibly read the
// same files if they have the path to get to them. The pebble instance that
// wrote a file should not delete it if other Pebble instances are known to
// be reading this file. This FS is expected to have slower read/write
// performance than the default FS above.
SharedStorage shared.Storage
}
// Filters is a map from filter policy name to filter policy. It is used for
// debugging tools which may be used on multiple databases configured with
// different filter policies. It is not necessary to populate this filters
// map during normal usage of a DB.
Filters map[string]FilterPolicy
// FlushDelayDeleteRange configures how long the database should wait before
// forcing a flush of a memtable that contains a range deletion. Disk space
// cannot be reclaimed until the range deletion is flushed. No automatic
// flush occurs if zero.
FlushDelayDeleteRange time.Duration
// FlushDelayRangeKey configures how long the database should wait before
// forcing a flush of a memtable that contains a range key. Range keys in
// the memtable prevent lazy combined iteration, so it's desirable to flush
// range keys promptly. No automatic flush occurs if zero.
FlushDelayRangeKey time.Duration
// FlushSplitBytes denotes the target number of bytes per sublevel in
// each flush split interval (i.e. range between two flush split keys)
// in L0 sstables. When set to zero, only a single sstable is generated
// by each flush. When set to a non-zero value, flushes are split at
// points to meet L0's TargetFileSize, any grandparent-related overlap
// options, and at boundary keys of L0 flush split intervals (which are
// targeted to contain around FlushSplitBytes bytes in each sublevel
// between pairs of boundary keys). Splitting sstables during flush
// allows increased compaction flexibility and concurrency when those
// tables are compacted to lower levels.
FlushSplitBytes int64
// FormatMajorVersion sets the format of on-disk files. It is
// recommended to set the format major version to an explicit
// version, as the default may change over time.
//
// At Open if the existing database is formatted using a later
// format major version that is known to this version of Pebble,
// Pebble will continue to use the later format major version. If
// the existing database's version is unknown, the caller may use
// FormatMostCompatible and will be able to open the database
// regardless of its actual version.
//
// If the existing database is formatted using a format major
// version earlier than the one specified, Open will automatically
// ratchet the database to the specified format major version.
FormatMajorVersion FormatMajorVersion
// FS provides the interface for persistent file storage.
//
// The default value uses the underlying operating system's file system.
FS vfs.FS
// The count of L0 files necessary to trigger an L0 compaction.
L0CompactionFileThreshold int
// The amount of L0 read-amplification necessary to trigger an L0 compaction.
L0CompactionThreshold int
// Hard limit on L0 read-amplification, computed as the number of L0
// sublevels. Writes are stopped when this threshold is reached.
L0StopWritesThreshold int
// The maximum number of bytes for LBase. The base level is the level which
// L0 is compacted into. The base level is determined dynamically based on
// the existing data in the LSM. The maximum number of bytes for other levels
// is computed dynamically based on the base level's maximum size. When the
// maximum number of bytes for a level is exceeded, compaction is requested.
LBaseMaxBytes int64
// Per-level options. Options for at least one level must be specified. The
// options for the last level are used for all subsequent levels.
Levels []LevelOptions
// Logger used to write log messages.
//
// The default logger uses the Go standard library log package.
Logger Logger
// MaxManifestFileSize is the maximum size the MANIFEST file is allowed to
// become. When the MANIFEST exceeds this size it is rolled over and a new
// MANIFEST is created.
MaxManifestFileSize int64
// MaxOpenFiles is a soft limit on the number of open files that can be
// used by the DB.
//
// The default value is 1000.
MaxOpenFiles int
// The size of a MemTable in steady state. The actual MemTable size starts at
// min(256KB, MemTableSize) and doubles for each subsequent MemTable up to
// MemTableSize. This reduces the memory pressure caused by MemTables for
// short lived (test) DB instances. Note that more than one MemTable can be
// in existence since flushing a MemTable involves creating a new one and
// writing the contents of the old one in the
// background. MemTableStopWritesThreshold places a hard limit on the size of
// the queued MemTables.
MemTableSize int
// Hard limit on the size of queued of MemTables. Writes are stopped when the
// sum of the queued memtable sizes exceeds
// MemTableStopWritesThreshold*MemTableSize. This value should be at least 2
// or writes will stop whenever a MemTable is being flushed.
MemTableStopWritesThreshold int
// Merger defines the associative merge operation to use for merging values
// written with {Batch,DB}.Merge.
//
// The default merger concatenates values.
Merger *Merger
// MaxConcurrentCompactions specifies the maximum number of concurrent
// compactions. The default is 1. Concurrent compactions are performed
// - when L0 read-amplification passes the L0CompactionConcurrency threshold
// - for automatic background compactions
// - when a manual compaction for a level is split and parallelized
// MaxConcurrentCompactions must be greater than 0.
MaxConcurrentCompactions func() int
// DisableAutomaticCompactions dictates whether automatic compactions are
// scheduled or not. The default is false (enabled). This option is only used
// externally when running a manual compaction, and internally for tests.
DisableAutomaticCompactions bool
// NoSyncOnClose decides whether the Pebble instance will enforce a
// close-time synchronization (e.g., fdatasync() or sync_file_range())
// on files it writes to. Setting this to true removes the guarantee for a
// sync on close. Some implementations can still issue a non-blocking sync.
NoSyncOnClose bool
// NumPrevManifest is the number of non-current or older manifests which
// we want to keep around for debugging purposes. By default, we're going
// to keep one older manifest.
NumPrevManifest int
// ReadOnly indicates that the DB should be opened in read-only mode. Writes
// to the DB will return an error, background compactions are disabled, and
// the flush that normally occurs after replaying the WAL at startup is
// disabled.
ReadOnly bool
// TableCache is an initialized TableCache which should be set as an
// option if the DB needs to be initialized with a pre-existing table cache.
// If TableCache is nil, then a table cache which is unique to the DB instance
// is created. TableCache can be shared between db instances by setting it here.
// The TableCache set here must use the same underlying cache as Options.Cache
// and pebble will panic otherwise.
TableCache *TableCache
// TablePropertyCollectors is a list of TablePropertyCollector creation
// functions. A new TablePropertyCollector is created for each sstable built
// and lives for the lifetime of the table.
TablePropertyCollectors []func() TablePropertyCollector
// BlockPropertyCollectors is a list of BlockPropertyCollector creation
// functions. A new BlockPropertyCollector is created for each sstable
// built and lives for the lifetime of writing that table.
BlockPropertyCollectors []func() BlockPropertyCollector
// WALBytesPerSync sets the number of bytes to write to a WAL before calling
// Sync on it in the background. Just like with BytesPerSync above, this
// helps smooth out disk write latencies, and avoids cases where the OS
// writes a lot of buffered data to disk at once. However, this is less
// necessary with WALs, as many write operations already pass in
// Sync = true.
//
// The default value is 0, i.e. no background syncing. This matches the
// default behaviour in RocksDB.
WALBytesPerSync int
// WALDir specifies the directory to store write-ahead logs (WALs) in. If
// empty (the default), WALs will be stored in the same directory as sstables
// (i.e. the directory passed to pebble.Open).
WALDir string
// WALMinSyncInterval is the minimum duration between syncs of the WAL. If
// WAL syncs are requested faster than this interval, they will be
// artificially delayed. Introducing a small artificial delay (500us) between
// WAL syncs can allow more operations to arrive and reduce IO operations
// while having a minimal impact on throughput. This option is supplied as a
// closure in order to allow the value to be changed dynamically. The default
// value is 0.
//
// TODO(peter): rather than a closure, should there be another mechanism for
// changing options dynamically?
WALMinSyncInterval func() time.Duration
// private options are only used by internal tests or are used internally
// for facilitating upgrade paths of unconfigurable functionality.
private struct {
// strictWALTail configures whether or not a database's WALs created
// prior to the most recent one should be interpreted strictly,
// requiring a clean EOF. RocksDB 6.2.1 and the version of Pebble
// included in CockroachDB 20.1 do not guarantee that closed WALs end
// cleanly. If this option is set within an OPTIONS file, Pebble
// interprets previous WALs strictly, requiring a clean EOF.
// Otherwise, it interprets them permissively in the same manner as
// RocksDB 6.2.1.
strictWALTail bool
// disableDeleteOnlyCompactions prevents the scheduling of delete-only
// compactions that drop sstables wholy covered by range tombstones or
// range key tombstones.
disableDeleteOnlyCompactions bool
// disableElisionOnlyCompactions prevents the scheduling of elision-only
// compactions that rewrite sstables in place in order to elide obsolete
// keys.
disableElisionOnlyCompactions bool
// disableLazyCombinedIteration is a private option used by the
// metamorphic tests to test equivalence between lazy-combined iteration
// and constructing the range-key iterator upfront. It's a private
// option to avoid littering the public interface with options that we
// do not want to allow users to actually configure.
disableLazyCombinedIteration bool
// A private option to disable stats collection.
disableTableStats bool
// fsCloser holds a closer that should be invoked after a DB using these
// Options is closed. This is used to automatically stop the
// long-running goroutine associated with the disk-health-checking FS.
// See the initialization of FS in EnsureDefaults. Note that care has
// been taken to ensure that it is still safe to continue using the FS
// after this closer has been invoked. However, if write operations
// against the FS are made after the DB is closed, the FS may leak a
// goroutine indefinitely.
fsCloser io.Closer
}
}
// DebugCheckLevels calls CheckLevels on the provided database.
// It may be set in the DebugCheck field of Options to check
// level invariants whenever a new version is installed.
func DebugCheckLevels(db *DB) error {
return db.CheckLevels(nil)
}
// EnsureDefaults ensures that the default values for all options are set if a
// valid value was not already specified. Returns the new options.
func (o *Options) EnsureDefaults() *Options {
if o == nil {
o = &Options{}
}
if o.BytesPerSync <= 0 {
o.BytesPerSync = 512 << 10 // 512 KB
}
if o.Cleaner == nil {
o.Cleaner = DeleteCleaner{}
}
if o.Comparer == nil {
o.Comparer = DefaultComparer
}
if o.Experimental.L0CompactionConcurrency <= 0 {
o.Experimental.L0CompactionConcurrency = 10
}
if o.Experimental.CompactionDebtConcurrency <= 0 {
o.Experimental.CompactionDebtConcurrency = 1 << 30 // 1 GB
}
if o.Experimental.KeyValidationFunc == nil {
o.Experimental.KeyValidationFunc = func([]byte) error { return nil }
}
if o.L0CompactionThreshold <= 0 {
o.L0CompactionThreshold = 4
}
if o.L0CompactionFileThreshold <= 0 {
// Some justification for the default of 500:
// Why not smaller?:
// - The default target file size for L0 is 2MB, so 500 files is <= 1GB
// of data. At observed compaction speeds of > 20MB/s, L0 can be
// cleared of all files in < 1min, so this backlog is not huge.
// - 500 files is low overhead for instantiating L0 sublevels from
// scratch.
// - Lower values were observed to cause excessive and inefficient
// compactions out of L0 in a TPCC import benchmark.
// Why not larger?:
// - More than 1min to compact everything out of L0.
// - CockroachDB's admission control system uses a threshold of 1000
// files to start throttling writes to Pebble. Using 500 here gives
// us headroom between when Pebble should start compacting L0 and
// when the admission control threshold is reached.
//
// We can revisit this default in the future based on better
// experimental understanding.
//
// TODO(jackson): Experiment with slightly lower thresholds [or higher
// admission control thresholds] to see whether a higher L0 score at the
// threshold (currently 2.0) is necessary for some workloads to avoid
// starving L0 in favor of lower-level compactions.
o.L0CompactionFileThreshold = 500
}
if o.L0StopWritesThreshold <= 0 {
o.L0StopWritesThreshold = 12
}
if o.LBaseMaxBytes <= 0 {
o.LBaseMaxBytes = 64 << 20 // 64 MB
}
if o.Levels == nil {
o.Levels = make([]LevelOptions, 1)
for i := range o.Levels {
if i > 0 {
l := &o.Levels[i]
if l.TargetFileSize <= 0 {
l.TargetFileSize = o.Levels[i-1].TargetFileSize * 2
}
}
o.Levels[i].EnsureDefaults()
}
} else {
for i := range o.Levels {
o.Levels[i].EnsureDefaults()
}
}
if o.Logger == nil {
o.Logger = DefaultLogger
}
if o.EventListener == nil {
o.EventListener = &EventListener{}
}
o.EventListener.EnsureDefaults(o.Logger)
if o.MaxManifestFileSize == 0 {
o.MaxManifestFileSize = 128 << 20 // 128 MB
}
if o.MaxOpenFiles == 0 {
o.MaxOpenFiles = 1000
}
if o.MemTableSize <= 0 {
o.MemTableSize = 4 << 20
}
if o.MemTableStopWritesThreshold <= 0 {
o.MemTableStopWritesThreshold = 2
}
if o.Merger == nil {
o.Merger = DefaultMerger
}
o.private.strictWALTail = true
if o.MaxConcurrentCompactions == nil {
o.MaxConcurrentCompactions = func() int { return 1 }
}
if o.NumPrevManifest <= 0 {
o.NumPrevManifest = 1
}
if o.FormatMajorVersion == FormatDefault {
o.FormatMajorVersion = FormatMostCompatible
}
if o.FS == nil {
o.WithFSDefaults()
}
if o.FlushSplitBytes <= 0 {