badger

func (*DB) Backup ¶

func (db *DB) Backup(w io.Writer, since uint64) (uint64, error)

Backup dumps a protobuf-encoded list of all entries in the database into the given writer, that are newer than or equal to the specified version. It returns a timestamp (version) indicating the version of last entry that is dumped, which after incrementing by 1 can be passed into later invocation to generate incremental backup of entries that have been added/modified since the last invocation of DB.Backup(). DB.Backup is a wrapper function over Stream.Backup to generate full and incremental backups of the DB. For more control over how many goroutines are used to generate the backup, or if you wish to backup only a certain range of keys, use Stream.Backup directly.

func (*DB) BanNamespace ¶

func (db *DB) BanNamespace(ns uint64) error

BanNamespace bans a namespace. Read/write to keys belonging to any of such namespace is denied.

func (*DB) BannedNamespaces ¶

func (db *DB) BannedNamespaces() []uint64

BannedNamespaces returns the list of prefixes banned for DB.

func (*DB) BlockCacheMetrics ¶

func (db *DB) BlockCacheMetrics() *ristretto.Metrics

BlockCacheMetrics returns the metrics for the underlying block cache.

func (*DB) CacheMaxCost ¶

func (db *DB) CacheMaxCost(cache CacheType, maxCost int64) (int64, error)

CacheMaxCost updates the max cost of the given cache (either block or index cache). The call will have an effect only if the DB was created with the cache. Otherwise it is a no-op. If you pass a negative value, the function will return the current value without updating it.

func (*DB) Close ¶

func (db *DB) Close() error

Close closes a DB. It's crucial to call it to ensure all the pending updates make their way to disk. Calling DB.Close() multiple times would still only close the DB once.

func (*DB) DropAll ¶

func (db *DB) DropAll() error

DropAll would drop all the data stored in Badger. It does this in the following way. - Stop accepting new writes. - Pause memtable flushes and compactions. - Pick all tables from all levels, create a changeset to delete all these tables and apply it to manifest. - Pick all log files from value log, and delete all of them. Restart value log files from zero. - Resume memtable flushes and compactions.

NOTE: DropAll is resilient to concurrent writes, but not to reads. It is up to the user to not do any reads while DropAll is going on, otherwise they may result in panics. Ideally, both reads and writes are paused before running DropAll, and resumed after it is finished.

func (*DB) DropPrefix ¶

func (db *DB) DropPrefix(prefixes ...[]byte) error

DropPrefix would drop all the keys with the provided prefix. Based on DB options, it either drops the prefixes by blocking the writes or doing a logical drop. See DropPrefixBlocking and DropPrefixNonBlocking for more information.

func (*DB) DropPrefixBlocking ¶

func (db *DB) DropPrefixBlocking(prefixes ...[]byte) error

DropPrefix would drop all the keys with the provided prefix. It does this in the following way:

• Stop accepting new writes.
• Stop memtable flushes before acquiring lock. Because we're acquring lock here and memtable flush stalls for lock, which leads to deadlock
• Flush out all memtables, skipping over keys with the given prefix, Kp.
• Write out the value log header to memtables when flushing, so we don't accidentally bring Kp back after a restart.
• Stop compaction.
• Compact L0->L1, skipping over Kp.
• Compact rest of the levels, Li->Li, picking tables which have Kp.
• Resume memtable flushes, compactions and writes.

func (*DB) DropPrefixNonBlocking ¶

func (db *DB) DropPrefixNonBlocking(prefixes ...[]byte) error

DropPrefixNonBlocking would logically drop all the keys with the provided prefix. The data would not be cleared from LSM tree immediately. It would be deleted eventually through compactions. This operation is useful when we don't want to block writes while we delete the prefixes. It does this in the following way: - Stream the given prefixes at a given ts. - Write them to skiplist at the specified ts and handover that skiplist to DB.

func (*DB) EstimateSize ¶

func (db *DB) EstimateSize(prefix []byte) (uint64, uint64)

EstimateSize can be used to get rough estimate of data size for a given prefix.

func (*DB) Flatten ¶

func (db *DB) Flatten(workers int) error

Flatten can be used to force compactions on the LSM tree so all the tables fall on the same level. This ensures that all the versions of keys are colocated and not split across multiple levels, which is necessary after a restore from backup. During Flatten, live compactions are stopped. Ideally, no writes are going on during Flatten. Otherwise, it would create competition between flattening the tree and new tables being created at level zero.

func (*DB) GetMergeOperator ¶

func (db *DB) GetMergeOperator(key []byte,
	f MergeFunc, dur time.Duration) *MergeOperator

GetMergeOperator creates a new MergeOperator for a given key and returns a pointer to it. It also fires off a goroutine that performs a compaction using the merge function that runs periodically, as specified by dur.

func (*DB) GetSequence ¶

func (db *DB) GetSequence(key []byte, bandwidth uint64) (*Sequence, error)

GetSequence would initiate a new sequence object, generating it from the stored lease, if available, in the database. Sequence can be used to get a list of monotonically increasing integers. Multiple sequences can be created by providing different keys. Bandwidth sets the size of the lease, determining how many Next() requests can be served from memory.

GetSequence is not supported on ManagedDB. Calling this would result in a panic.

func (*DB) HandoverSkiplist ¶

func (db *DB) HandoverSkiplist(skl *skl.Skiplist, callback func()) error

func (*DB) IndexCacheMetrics ¶

func (db *DB) IndexCacheMetrics() *ristretto.Metrics

IndexCacheMetrics returns the metrics for the underlying index cache.

func (*DB) IsClosed ¶

func (db *DB) IsClosed() bool

IsClosed denotes if the badger DB is closed or not. A DB instance should not be used after closing it.

func (*DB) Levels ¶

func (db *DB) Levels() []LevelInfo

Levels gets the LevelInfo.

func (*DB) LevelsToString ¶

func (db *DB) LevelsToString() string

func (*DB) Load ¶

func (db *DB) Load(r io.Reader, maxPendingWrites int) error

Load reads a protobuf-encoded list of all entries from a reader and writes them to the database. This can be used to restore the database from a backup made by calling DB.Backup(). If more complex logic is needed to restore a badger backup, the KVLoader interface should be used instead.

DB.Load() should be called on a database that is not running any other concurrent transactions while it is running.

func (*DB) MaxBatchCount ¶

func (db *DB) MaxBatchCount() int64

MaxBatchCount returns max possible entries in batch

func (*DB) MaxBatchSize ¶

func (db *DB) MaxBatchSize() int64

MaxBatchSize returns max possible batch size

func (*DB) MaxVersion ¶

func (db *DB) MaxVersion() uint64

func (*DB) NewKVLoader ¶

func (db *DB) NewKVLoader(maxPendingWrites int) *KVLoader

NewKVLoader returns a new instance of KVLoader.

func (*DB) NewManagedWriteBatch ¶

func (db *DB) NewManagedWriteBatch() *WriteBatch

func (*DB) NewSkiplist ¶

func (db *DB) NewSkiplist() *skl.Skiplist

func (*DB) NewStream ¶

func (db *DB) NewStream() *Stream

NewStream creates a new Stream.

func (*DB) NewStreamAt ¶

func (db *DB) NewStreamAt(readTs uint64) *Stream

NewStreamAt creates a new Stream at a particular timestamp. Should only be used with managed DB.

func (*DB) NewStreamWriter ¶

func (db *DB) NewStreamWriter() *StreamWriter

NewStreamWriter creates a StreamWriter. Right after creating StreamWriter, Prepare must be called. The memory usage of a StreamWriter is directly proportional to the number of streams possible. So, efforts must be made to keep the number of streams low. Stream framework would typically use 16 goroutines and hence create 16 streams.

func (*DB) NewTransaction ¶

func (db *DB) NewTransaction(update bool) *Txn

NewTransaction creates a new transaction. Badger supports concurrent execution of transactions, providing serializable snapshot isolation, avoiding write skews. Badger achieves this by tracking the keys read and at Commit time, ensuring that these read keys weren't concurrently modified by another transaction.

For read-only transactions, set update to false. In this mode, we don't track the rows read for any changes. Thus, any long running iterations done in this mode wouldn't pay this overhead.

Running transactions concurrently is OK. However, a transaction itself isn't thread safe, and should only be run serially. It doesn't matter if a transaction is created by one goroutine and passed down to other, as long as the Txn APIs are called serially.

When you create a new transaction, it is absolutely essential to call Discard(). This should be done irrespective of what the update param is set to. Commit API internally runs Discard, but running it twice wouldn't cause any issues.

txn := db.NewTransaction(false)
defer txn.Discard()
// Call various APIs.

func (*DB) NewTransactionAt ¶

func (db *DB) NewTransactionAt(readTs uint64, update bool) *Txn

NewTransactionAt follows the same logic as DB.NewTransaction(), but uses the provided read timestamp.

This is only useful for databases built on top of Badger (like Dgraph), and can be ignored by most users.

func (*DB) NewWriteBatch ¶

func (db *DB) NewWriteBatch() *WriteBatch

NewWriteBatch creates a new WriteBatch. This provides a way to conveniently do a lot of writes, batching them up as tightly as possible in a single transaction and using callbacks to avoid waiting for them to commit, thus achieving good performance. This API hides away the logic of creating and committing transactions. Due to the nature of SSI guaratees provided by Badger, blind writes can never encounter transaction conflicts (ErrConflict).

func (*DB) NewWriteBatchAt ¶

func (db *DB) NewWriteBatchAt(commitTs uint64) *WriteBatch

NewWriteBatchAt is similar to NewWriteBatch but it allows user to set the commit timestamp. NewWriteBatchAt is supposed to be used only in the managed mode.

func (*DB) Opts ¶

func (db *DB) Opts() Options

Opts returns a copy of the DB options.

func (*DB) PrintHistogram ¶

func (db *DB) PrintHistogram(keyPrefix []byte)

PrintHistogram builds and displays the key-value size histogram. When keyPrefix is set, only the keys that have prefix "keyPrefix" are considered for creating the histogram

func (*DB) Ranges ¶

func (db *DB) Ranges(prefix []byte, numRanges int) []*keyRange

Ranges can be used to get rough key ranges to divide up iteration over the DB. The ranges here would consider the prefix, but would not necessarily start or end with the prefix. In fact, the first range would have nil as left key, and the last range would have nil as the right key.

func (*DB) RunValueLogGC ¶

func (db *DB) RunValueLogGC(discardRatio float64) error

RunValueLogGC triggers a value log garbage collection.

It picks value log files to perform GC based on statistics that are collected during compactions. If no such statistics are available, then log files are picked in random order. The process stops as soon as the first log file is encountered which does not result in garbage collection.

When a log file is picked, it is first sampled. If the sample shows that we can discard at least discardRatio space of that file, it would be rewritten.

If a call to RunValueLogGC results in no rewrites, then an ErrNoRewrite is thrown indicating that the call resulted in no file rewrites.

We recommend setting discardRatio to 0.5, thus indicating that a file be rewritten if half the space can be discarded. This results in a lifetime value log write amplification of 2 (1 from original write + 0.5 rewrite + 0.25 + 0.125 + ... = 2). Setting it to higher value would result in fewer space reclaims, while setting it to a lower value would result in more space reclaims at the cost of increased activity on the LSM tree. discardRatio must be in the range (0.0, 1.0), both endpoints excluded, otherwise an ErrInvalidRequest is returned.

Only one GC is allowed at a time. If another value log GC is running, or DB has been closed, this would return an ErrRejected.

Note: Every time GC is run, it would produce a spike of activity on the LSM tree.

func (*DB) SetDiscardTs ¶

func (db *DB) SetDiscardTs(ts uint64)

SetDiscardTs sets a timestamp at or below which, any invalid or deleted versions can be discarded from the LSM tree, and thence from the value log to reclaim disk space. Can only be used with managed transactions.

func (*DB) Size ¶

func (db *DB) Size() (lsm, vlog int64)

Size returns the size of lsm and value log files in bytes. It can be used to decide how often to call RunValueLogGC.

func (*DB) StreamDB ¶

func (db *DB) StreamDB(outOptions Options) error

Stream the contents of this DB to a new DB with options outOptions that will be created in outDir.

func (*DB) Subscribe ¶

func (db *DB) Subscribe(ctx context.Context, cb func(kv *KVList) error, matches []pb.Match) error

Subscribe can be used to watch key changes for the given key prefixes and the ignore string. At least one prefix should be passed, or an error will be returned. You can use an empty prefix to monitor all changes to the DB. Ignore string is the byte ranges for which prefix matching will be ignored. For example: ignore = "2-3", and prefix = "abc" will match for keys "abxxc", "abdfc" etc. This function blocks until the given context is done or an error occurs. The given function will be called with a new KVList containing the modified keys and the corresponding values.

func (*DB) Sync ¶

func (db *DB) Sync() error

Sync syncs database content to disk. This function provides more control to user to sync data whenever required.

func (*DB) Tables ¶

func (db *DB) Tables() []TableInfo

Tables gets the TableInfo objects from the level controller. If withKeysCount is true, TableInfo objects also contain counts of keys for the tables.

func (*DB) Update ¶

func (db *DB) Update(fn func(txn *Txn) error) error

Update executes a function, creating and managing a read-write transaction for the user. Error returned by the function is relayed by the Update method. Update cannot be used with managed transactions.

func (*DB) VerifyChecksum ¶

func (db *DB) VerifyChecksum() error

VerifyChecksum verifies checksum for all tables on all levels. This method can be used to verify checksum, if opt.ChecksumVerificationMode is NoVerification.

func (*DB) View ¶

func (db *DB) View(fn func(txn *Txn) error) error

View executes a function creating and managing a read-only transaction for the user. Error returned by the function is relayed by the View method. If View is used with managed transactions, it would assume a read timestamp of MaxUint64.

func (*Entry) WithDiscard ¶

func (e *Entry) WithDiscard() *Entry

WithDiscard adds a marker to Entry e. This means all the previous versions of the key (of the Entry) will be eligible for garbage collection. This method is only useful if you have set a higher limit for options.NumVersionsToKeep. The default setting is 1, in which case, this function doesn't add any more benefit. If however, you have a higher setting for NumVersionsToKeep (in Dgraph, we set it to infinity), you can use this method to indicate that all the older versions can be discarded and removed during compactions.

func (*Entry) WithMeta ¶

func (e *Entry) WithMeta(meta byte) *Entry

WithMeta adds meta data to Entry e. This byte is stored alongside the key and can be used as an aid to interpret the value or store other contextual bits corresponding to the key-value pair of entry.

func (*Entry) WithTTL ¶

func (e *Entry) WithTTL(dur time.Duration) *Entry

WithTTL adds time to live duration to Entry e. Entry stored with a TTL would automatically expire after the time has elapsed, and will be eligible for garbage collection.

func (*Item) DiscardEarlierVersions ¶

func (item *Item) DiscardEarlierVersions() bool

DiscardEarlierVersions returns whether the item was created with the option to discard earlier versions of a key when multiple are available.

func (*Item) EstimatedSize ¶

func (item *Item) EstimatedSize() int64

EstimatedSize returns the approximate size of the key-value pair.

This can be called while iterating through a store to quickly estimate the size of a range of key-value pairs (without fetching the corresponding values).

func (*Item) ExpiresAt ¶

func (item *Item) ExpiresAt() uint64

ExpiresAt returns a Unix time value indicating when the item will be considered expired. 0 indicates that the item will never expire.

func (*Item) IsDeletedOrExpired ¶

func (item *Item) IsDeletedOrExpired() bool

IsDeletedOrExpired returns true if item contains deleted or expired value.

func (*Item) Key ¶

func (item *Item) Key() []byte

Key returns the key.

Key is only valid as long as item is valid, or transaction is valid. If you need to use it outside its validity, please use KeyCopy.

func (*Item) KeyCopy ¶

func (item *Item) KeyCopy(dst []byte) []byte

KeyCopy returns a copy of the key of the item, writing it to dst slice. If nil is passed, or capacity of dst isn't sufficient, a new slice would be allocated and returned.

func (*Item) KeySize ¶

func (item *Item) KeySize() int64

KeySize returns the size of the key. Exact size of the key is key + 8 bytes of timestamp

func (*Item) String ¶

func (item *Item) String() string

String returns a string representation of Item

func (*Item) UserMeta ¶

func (item *Item) UserMeta() byte

UserMeta returns the userMeta set by the user. Typically, this byte, optionally set by the user is used to interpret the value.

func (*Item) Value ¶

func (item *Item) Value(fn func(val []byte) error) error

Value retrieves the value of the item from the value log.

This method must be called within a transaction. Calling it outside a transaction is considered undefined behavior. If an iterator is being used, then Item.Value() is defined in the current iteration only, because items are reused.

If you need to use a value outside a transaction, please use Item.ValueCopy instead, or copy it yourself. Value might change once discard or commit is called. Use ValueCopy if you want to do a Set after Get.

func (*Item) ValueCopy ¶

func (item *Item) ValueCopy(dst []byte) ([]byte, error)

ValueCopy returns a copy of the value of the item from the value log, writing it to dst slice. If nil is passed, or capacity of dst isn't sufficient, a new slice would be allocated and returned. Tip: It might make sense to reuse the returned slice as dst argument for the next call.

This function is useful in long running iterate/update transactions to avoid a write deadlock. See Github issue: https://github.com/dgraph-io/badger/issues/315

func (*Item) ValueSize ¶

func (item *Item) ValueSize() int64

ValueSize returns the approximate size of the value.

This can be called to quickly estimate the size of a value without fetching it.

func (*Item) Version ¶

func (item *Item) Version() uint64

Version returns the commit timestamp of the item.

func (*Iterator) Close ¶

func (it *Iterator) Close()

Close would close the iterator. It is important to call this when you're done with iteration.

func (*Iterator) Item ¶

func (it *Iterator) Item() *Item

Item returns pointer to the current key-value pair. This item is only valid until it.Next() gets called.

func (*Iterator) Next ¶

func (it *Iterator) Next()

Next would advance the iterator by one. Always check it.Valid() after a Next() to ensure you have access to a valid it.Item().

func (*Iterator) Rewind ¶

func (it *Iterator) Rewind()

Rewind would rewind the iterator cursor all the way to zero-th position, which would be the smallest key if iterating forward, and largest if iterating backward. It does not keep track of whether the cursor started with a Seek().

func (*Iterator) Seek ¶

func (it *Iterator) Seek(key []byte) uint64

Seek would seek to the provided key if present. If absent, it would seek to the next smallest key greater than the provided key if iterating in the forward direction. Behavior would be reversed if iterating backwards.

func (*Iterator) Valid ¶

func (it *Iterator) Valid() bool

Valid returns false when iteration is done.

func (*Iterator) ValidForPrefix ¶

func (it *Iterator) ValidForPrefix(prefix []byte) bool

ValidForPrefix returns false when iteration is done or when the current key is not prefixed by the specified prefix.

func (*KVLoader) Finish ¶

func (l *KVLoader) Finish() error

Finish is meant to be called after all the key-value pairs have been loaded.

func (*KVLoader) Set ¶

func (l *KVLoader) Set(kv *pb.KV) error

Set writes the key-value pair to the database.

func (*KeyRegistry) AddKey ¶

func (kr *KeyRegistry) AddKey(dk pb.DataKey) (uint64, error)

func (*KeyRegistry) Close ¶

func (kr *KeyRegistry) Close() error

Close closes the key registry.

func (*KeyRegistry) DataKey ¶

func (kr *KeyRegistry) DataKey(id uint64) (*pb.DataKey, error)

DataKey returns datakey of the given key id.

func (*KeyRegistry) LatestDataKey ¶

func (kr *KeyRegistry) LatestDataKey() (*pb.DataKey, error)

LatestDataKey will give you the latest generated datakey based on the rotation period. If the last generated datakey lifetime exceeds the rotation period. It'll create new datakey.

func (*MergeOperator) Add ¶

func (op *MergeOperator) Add(val []byte) error

Add records a value in Badger which will eventually be merged by a background routine into the values that were recorded by previous invocations to Add().

func (*MergeOperator) Get ¶

func (op *MergeOperator) Get() ([]byte, error)

Get returns the latest value for the merge operator, which is derived by applying the merge function to all the values added so far.

If Add has not been called even once, Get will return ErrKeyNotFound.

func (*MergeOperator) Stop ¶

func (op *MergeOperator) Stop()

Stop waits for any pending merge to complete and then stops the background goroutine.

func (*Options) Debugf ¶

func (opt *Options) Debugf(format string, v ...interface{})

Debugf logs a DEBUG message to the logger specified in opts.

func (*Options) Errorf ¶

func (opt *Options) Errorf(format string, v ...interface{})

Errorf logs an ERROR log message to the logger specified in opts or to the global logger if no logger is specified in opts.

func (Options) FromSuperFlag ¶

func (opt Options) FromSuperFlag(superflag string) Options

FromSuperFlag fills Options fields for each flag within the superflag. For example, replacing the default Options.NumGoroutines:

options := FromSuperFlag("numgoroutines=4", DefaultOptions(""))

It's important to note that if you pass an empty Options struct, FromSuperFlag will not fill it with default values. FromSuperFlag only writes to the fields present within the superflag string (case insensitive).

It specially handles compression subflag. Valid options are {none,snappy,zstd:<level>} Example: compression=zstd:3; Unsupported: Options.Logger, Options.EncryptionKey

func (*Options) Infof ¶

func (opt *Options) Infof(format string, v ...interface{})

Infof logs an INFO message to the logger specified in opts.

func (*Options) Warningf ¶

func (opt *Options) Warningf(format string, v ...interface{})

Warningf logs a WARNING message to the logger specified in opts.

func (Options) WithAllowStopTheWorld ¶

func (opt Options) WithAllowStopTheWorld(b bool) Options

WithAllowStopTheWorld returns a new Options value with AllowStopTheWorld set to the given value.

AllowStopTheWorld indicates whether the call to DropPrefix should block the writes or not. When set to false, the DropPrefix will do a logical delete and will not block the writes. Although, this will not immediately clear up the LSM tree. When set to false, the DropPrefix will block the writes and will clear up the LSM tree.

The default value of AllowStopTheWorld is true.

func (Options) WithBaseLevelSize ¶

func (opt Options) WithBaseLevelSize(val int64) Options

WithBaseLevelSize sets the maximum size target for the base level.

The default value is 10MB.

func (Options) WithBaseTableSize ¶

func (opt Options) WithBaseTableSize(val int64) Options

WithBaseTableSize returns a new Options value with MaxTableSize set to the given value.

BaseTableSize sets the maximum size in bytes for LSM table or file in the base level.

The default value of BaseTableSize is 2MB.

func (Options) WithBlockCacheSize ¶

func (opt Options) WithBlockCacheSize(size int64) Options

WithBlockCacheSize returns a new Options value with BlockCacheSize set to the given value.

This value specifies how much data cache should hold in memory. A small size of cache means lower memory consumption and lookups/iterations would take longer. It is recommended to use a cache if you're using compression or encryption. If compression and encryption both are disabled, adding a cache will lead to unnecessary overhead which will affect the read performance. Setting size to zero disables the cache altogether.

Default value of BlockCacheSize is zero.

func (Options) WithBlockSize ¶

func (opt Options) WithBlockSize(val int) Options

WithBlockSize returns a new Options value with BlockSize set to the given value.

BlockSize sets the size of any block in SSTable. SSTable is divided into multiple blocks internally. Each block is compressed using prefix diff encoding.

The default value of BlockSize is 4KB.

func (Options) WithBloomFalsePositive ¶

func (opt Options) WithBloomFalsePositive(val float64) Options

WithBloomFalsePositive returns a new Options value with BloomFalsePositive set to the given value.

BloomFalsePositive sets the false positive probability of the bloom filter in any SSTable. Before reading a key from table, the bloom filter is checked for key existence. BloomFalsePositive might impact read performance of DB. Lower BloomFalsePositive value might consume more memory.

The default value of BloomFalsePositive is 0.01.

Setting this to 0 disables the bloom filter completely.

func (Options) WithBypassLockGuard ¶

func (opt Options) WithBypassLockGuard(b bool) Options

WithBypassLockGuard returns a new Options value with BypassLockGuard set to the given value.

When BypassLockGuard option is set, badger will not acquire a lock on the directory. This could lead to data corruption if multiple badger instances write to the same data directory. Use this option with caution.

The default value of BypassLockGuard is false.

func (Options) WithChecksumVerificationMode ¶

func (opt Options) WithChecksumVerificationMode(cvMode options.ChecksumVerificationMode) Options

WithChecksumVerificationMode returns a new Options value with ChecksumVerificationMode set to the given value.

ChecksumVerificationMode indicates when the db should verify checksums for SSTable blocks.

The default value of VerifyValueChecksum is options.NoVerification.

func (Options) WithCompactL0OnClose ¶

func (opt Options) WithCompactL0OnClose(val bool) Options

WithCompactL0OnClose determines whether Level 0 should be compacted before closing the DB. This ensures that both reads and writes are efficient when the DB is opened later.

The default value of CompactL0OnClose is false.

func (Options) WithCompression ¶

func (opt Options) WithCompression(cType options.CompressionType) Options

WithCompression is used to enable or disable compression. When compression is enabled, every block will be compressed using the specified algorithm. This option doesn't affect existing tables. Only the newly created tables will be compressed.

The default compression algorithm used is snappy. Compression is enabled by default.

func (Options) WithDetectConflicts ¶

func (opt Options) WithDetectConflicts(b bool) Options

WithDetectConflicts returns a new Options value with DetectConflicts set to the given value.

Detect conflicts options determines if the transactions would be checked for conflicts before committing them. When this option is set to false (detectConflicts=false) badger can process transactions at a higher rate. Setting this options to false might be useful when the user application deals with conflict detection and resolution.

The default value of Detect conflicts is True.

func (Options) WithDir ¶

func (opt Options) WithDir(val string) Options

WithDir returns a new Options value with Dir set to the given value.

Dir is the path of the directory where key data will be stored in. If it doesn't exist, Badger will try to create it for you. This is set automatically to be the path given to `DefaultOptions`.

func (Options) WithEncryptionKey ¶

func (opt Options) WithEncryptionKey(key []byte) Options

WithEncryptionKey is used to encrypt the data with AES. Type of AES is used based on the key size. For example 16 bytes will use AES-128. 24 bytes will use AES-192. 32 bytes will use AES-256.

func (Options) WithEncryptionKeyRotationDuration ¶

func (opt Options) WithEncryptionKeyRotationDuration(d time.Duration) Options

WithEncryptionKeyRotationDuration returns new Options value with the duration set to the given value.

Key Registry will use this duration to create new keys. If the previous generated key exceed the given duration. Then the key registry will create new key.

func (Options) WithExternalMagic ¶

func (opt Options) WithExternalMagic(magic uint16) Options

WithExternalMagic returns a new Options value with ExternalMagicVersion set to the given value. The DB would fail to start if either the internal or the external magic number fails validated.

func (Options) WithInMemory ¶

func (opt Options) WithInMemory(b bool) Options

WithInMemory returns a new Options value with Inmemory mode set to the given value.

When badger is running in InMemory mode, everything is stored in memory. No value/sst files are created. In case of a crash all data will be lost.

func (Options) WithIndexCacheSize ¶

func (opt Options) WithIndexCacheSize(size int64) Options

WithIndexCacheSize returns a new Options value with IndexCacheSize set to the given value.

This value specifies how much memory should be used by table indices. These indices include the block offsets and the bloomfilters. Badger uses bloom filters to speed up lookups. Each table has its own bloom filter and each bloom filter is approximately of 5 MB.

Zero value for IndexCacheSize means all the indices will be kept in memory and the cache is disabled.

The default value of IndexCacheSize is 0 which means all indices are kept in memory.

func (Options) WithLevelSizeMultiplier ¶

func (opt Options) WithLevelSizeMultiplier(val int) Options

WithLevelSizeMultiplier returns a new Options value with LevelSizeMultiplier set to the given value.

LevelSizeMultiplier sets the ratio between the maximum sizes of contiguous levels in the LSM. Once a level grows to be larger than this ratio allowed, the compaction process will be triggered.

The default value of LevelSizeMultiplier is 10.

func (Options) WithLogger ¶

func (opt Options) WithLogger(val Logger) Options

WithLogger returns a new Options value with Logger set to the given value.

Logger provides a way to configure what logger each value of badger.DB uses.

The default value of Logger writes to stderr using the log package from the Go standard library.

func (Options) WithLoggingLevel ¶

func (opt Options) WithLoggingLevel(val loggingLevel) Options

WithLoggingLevel returns a new Options value with logging level of the default logger set to the given value. LoggingLevel sets the level of logging. It should be one of DEBUG, INFO, WARNING or ERROR levels.

The default value of LoggingLevel is INFO.

func (Options) WithMaxLevels ¶

func (opt Options) WithMaxLevels(val int) Options

WithMaxLevels returns a new Options value with MaxLevels set to the given value.

Maximum number of levels of compaction allowed in the LSM.

The default value of MaxLevels is 7.

func (Options) WithMemTableSize ¶

func (opt Options) WithMemTableSize(val int64) Options

WithMemTableSize returns a new Options value with MemTableSize set to the given value.

MemTableSize sets the maximum size in bytes for memtable table.

The default value of MemTableSize is 64MB.

func (Options) WithMetricsEnabled ¶

func (opt Options) WithMetricsEnabled(val bool) Options

WithMetricsEnabled returns a new Options value with MetricsEnabled set to the given value.

When MetricsEnabled is set to false, then the DB will be opened and no badger metrics will be logged. Metrics are defined in metric.go file.

This flag is useful for use cases like in Dgraph where we open temporary badger instances to index data. In those cases we don't want badger metrics to be polluted with the noise from those temporary instances.

Default value is set to true

func (Options) WithNamespaceOffset ¶

func (opt Options) WithNamespaceOffset(offset int) Options

WithNamespaceOffset returns a new Options value with NamespaceOffset set to the given value. DB will expect the namespace in each key at the 8 bytes starting from NamespaceOffset. A negative value means that namespace is not stored in the key.

The default value for NamespaceOffset is -1.

func (Options) WithNumCompactors ¶

func (opt Options) WithNumCompactors(val int) Options

WithNumCompactors sets the number of compaction workers to run concurrently. Setting this to zero stops compactions, which could eventually cause writes to block forever.

The default value of NumCompactors is 2. One is dedicated just for L0 and L1.

func (Options) WithNumGoroutines ¶

func (opt Options) WithNumGoroutines(val int) Options

WithNumGoroutines sets the number of goroutines to be used in Stream.

The default value of NumGoroutines is 8.

func (Options) WithNumLevelZeroTables ¶

func (opt Options) WithNumLevelZeroTables(val int) Options

WithNumLevelZeroTables sets the maximum number of Level 0 tables before compaction starts.

The default value of NumLevelZeroTables is 5.

func (Options) WithNumLevelZeroTablesStall ¶

func (opt Options) WithNumLevelZeroTablesStall(val int) Options

WithNumLevelZeroTablesStall sets the number of Level 0 tables that once reached causes the DB to stall until compaction succeeds.

The default value of NumLevelZeroTablesStall is 10.

func (Options) WithNumMemtables ¶

func (opt Options) WithNumMemtables(val int) Options

WithNumMemtables returns a new Options value with NumMemtables set to the given value.

NumMemtables sets the maximum number of tables to keep in memory before stalling.

The default value of NumMemtables is 5.

func (Options) WithNumVersionsToKeep ¶

func (opt Options) WithNumVersionsToKeep(val int) Options

WithNumVersionsToKeep returns a new Options value with NumVersionsToKeep set to the given value.

NumVersionsToKeep sets how many versions to keep per key at most.

The default value of NumVersionsToKeep is 1.

func (Options) WithReadOnly ¶

func (opt Options) WithReadOnly(val bool) Options

WithReadOnly returns a new Options value with ReadOnly set to the given value.

When ReadOnly is true the DB will be opened on read-only mode. Multiple processes can open the same Badger DB. Note: if the DB being opened had crashed before and has vlog data to be replayed, ReadOnly will cause Open to fail with an appropriate message.

The default value of ReadOnly is false.

func (Options) WithSyncWrites ¶

func (opt Options) WithSyncWrites(val bool) Options

WithSyncWrites returns a new Options value with SyncWrites set to the given value.

Badger does all writes via mmap. So, all writes can survive process crashes or k8s environments with SyncWrites set to false.

When set to true, Badger would call an additional msync after writes to flush mmap buffer over to disk to survive hard reboots. Most users of Badger should not need to do this.

The default value of SyncWrites is false.

func (Options) WithVLogPercentile ¶

func (opt Options) WithVLogPercentile(t float64) Options

WithVLogPercentile returns a new Options value with ValLogPercentile set to given value.

VLogPercentile with 0.0 means no dynamic thresholding is enabled. MinThreshold value will always act as the value threshold.

VLogPercentile with value 0.99 means 99 percentile of value will be put in LSM tree and only 1 percent in vlog. The value threshold will be dynamically updated within the range of [ValueThreshold, Options.maxValueThreshold]

Say VLogPercentile with 1.0 means threshold will eventually set to Options.maxValueThreshold ¶

The default value of VLogPercentile is 0.0.

func (Options) WithValueDir ¶

func (opt Options) WithValueDir(val string) Options

WithValueDir returns a new Options value with ValueDir set to the given value.

ValueDir is the path of the directory where value data will be stored in. If it doesn't exist, Badger will try to create it for you. This is set automatically to be the path given to `DefaultOptions`.

func (Options) WithValueLogFileSize ¶

func (opt Options) WithValueLogFileSize(val int64) Options

WithValueLogFileSize sets the maximum size of a single value log file.

The default value of ValueLogFileSize is 1GB.

func (Options) WithValueLogMaxEntries ¶

func (opt Options) WithValueLogMaxEntries(val uint32) Options

WithValueLogMaxEntries sets the maximum number of entries a value log file can hold approximately. A actual size limit of a value log file is the minimum of ValueLogFileSize and ValueLogMaxEntries.

The default value of ValueLogMaxEntries is one million (1000000).

func (Options) WithValueThreshold ¶

func (opt Options) WithValueThreshold(val int64) Options

WithValueThreshold returns a new Options value with ValueThreshold set to the given value.

ValueThreshold sets the threshold used to decide whether a value is stored directly in the LSM tree or separately in the log value files.

The default value of ValueThreshold is 1 MB, but LSMOnlyOptions sets it to maxValueThreshold.

func (Options) WithVerifyValueChecksum ¶

func (opt Options) WithVerifyValueChecksum(val bool) Options

WithVerifyValueChecksum is used to set VerifyValueChecksum. When VerifyValueChecksum is set to true, checksum will be verified for every entry read from the value log. If the value is stored in SST (value size less than value threshold) then the checksum validation will not be done.

The default value of VerifyValueChecksum is False.

func (Options) WithZSTDCompressionLevel ¶

func (opt Options) WithZSTDCompressionLevel(cLevel int) Options

WithZSTDCompressionLevel returns a new Options value with ZSTDCompressionLevel set to the given value.

The ZSTD compression algorithm supports 20 compression levels. The higher the compression level, the better is the compression ratio but lower is the performance. Lower levels have better performance and higher levels have better compression ratios. We recommend using level 1 ZSTD Compression Level. Any level higher than 1 seems to deteriorate badger's performance. The following benchmarks were done on a 4 KB block size (default block size). The compression is ratio supposed to increase with increasing compression level but since the input for compression algorithm is small (4 KB), we don't get significant benefit at level 3. It is advised to write your own benchmarks before choosing a compression algorithm or level.

NOTE: The benchmarks are with DataDog ZSTD that requires CGO. Hence, no longer valid. no_compression-16 10 502848865 ns/op 165.46 MB/s - zstd_compression/level_1-16 7 739037966 ns/op 112.58 MB/s 2.93 zstd_compression/level_3-16 7 756950250 ns/op 109.91 MB/s 2.72 zstd_compression/level_15-16 1 11135686219 ns/op 7.47 MB/s 4.38 Benchmark code can be found in table/builder_test.go file

func (*Sequence) Next ¶

func (seq *Sequence) Next() (uint64, error)

Next would return the next integer in the sequence, updating the lease by running a transaction if needed.

func (*Sequence) Release ¶

func (seq *Sequence) Release() error

Release the leased sequence to avoid wasted integers. This should be done right before closing the associated DB. However it is valid to use the sequence after it was released, causing a new lease with full bandwidth.

func (*Stream) Backup ¶

func (stream *Stream) Backup(w io.Writer, since uint64) (uint64, error)

Backup dumps a protobuf-encoded list of all entries in the database into the given writer, that are newer than or equal to the specified version. It returns a timestamp(version) indicating the version of last entry that was dumped, which after incrementing by 1 can be passed into a later invocation to generate an incremental dump of entries that have been added/modified since the last invocation of Stream.Backup().

This can be used to backup the data in a database at a given point in time.

func (*Stream) Orchestrate ¶

func (st *Stream) Orchestrate(ctx context.Context) error

Orchestrate runs Stream. It picks up ranges from the SSTables, then runs NumGo number of goroutines to iterate over these ranges and batch up KVs in lists. It concurrently runs a single goroutine to pick these lists, batch them up further and send to Output.Send. Orchestrate also spits logs out to Infof, using provided LogPrefix. Note that all calls to Output.Send are serial. In case any of these steps encounter an error, Orchestrate would stop execution and return that error. Orchestrate can be called multiple times, but in serial order.

func (*Stream) SendDoneMarkers ¶

func (st *Stream) SendDoneMarkers(done bool)

SendDoneMarkers when true would send out done markers on the stream. False by default.

func (*Stream) ToList ¶

func (st *Stream) ToList(key []byte, itr *Iterator) (*pb.KVList, error)

ToList is a default implementation of KeyToList. It picks up all valid versions of the key, skipping over deleted or expired keys.

func (*StreamWriter) Cancel ¶

func (sw *StreamWriter) Cancel()

Cancel signals all goroutines to exit. Calling defer sw.Cancel() immediately after creating a new StreamWriter ensures that writes are unblocked even upon early return. Note that dropAll() is not called here, so any partially written data will not be erased until a new StreamWriter is initialized.

func (*StreamWriter) Flush ¶

func (sw *StreamWriter) Flush() error

Flush is called once we are done writing all the entries. It syncs DB directories. It also updates Oracle with maxVersion found in all entries (if DB is not managed).

func (*StreamWriter) Prepare ¶

func (sw *StreamWriter) Prepare() error

Prepare should be called before writing any entry to StreamWriter. It deletes all data present in existing DB, stops compactions and any writes being done by other means. Be very careful when calling Prepare, because it could result in permanent data loss. Not calling Prepare would result in a corrupt Badger instance. Use PrepareIncremental to do incremental stream write.

func (*StreamWriter) PrepareIncremental ¶

func (sw *StreamWriter) PrepareIncremental() error

PrepareIncremental should be called before writing any entry to StreamWriter incrementally. In incremental stream write, the tables are written at one level above the current base level.

func (*StreamWriter) Write ¶

func (sw *StreamWriter) Write(buf *z.Buffer) error

Write writes KVList to DB. Each KV within the list contains the stream id which StreamWriter would use to demux the writes. Write is thread safe and can be called concurrently by multiple goroutines.

func (*Txn) Commit ¶

func (txn *Txn) Commit() error

Commit commits the transaction, following these steps:

1. If there are no writes, return immediately.

2. Check if read rows were updated since txn started. If so, return ErrConflict.

3. If no conflict, generate a commit timestamp and update written rows' commit ts.

4. Batch up all writes, write them to value log and LSM tree.

5. If callback is provided, Badger will return immediately after checking for conflicts. Writes to the database will happen in the background. If there is a conflict, an error will be returned and the callback will not run. If there are no conflicts, the callback will be called in the background upon successful completion of writes or any error during write.

If error is nil, the transaction is successfully committed. In case of a non-nil error, the LSM tree won't be updated, so there's no need for any rollback.

func (*Txn) CommitAt ¶

func (txn *Txn) CommitAt(commitTs uint64, callback func(error)) error

CommitAt commits the transaction, following the same logic as Commit(), but at the given commit timestamp. This will panic if not used with managed transactions.

This is only useful for databases built on top of Badger (like Dgraph), and can be ignored by most users.

func (*Txn) CommitWith ¶

func (txn *Txn) CommitWith(cb func(error))

CommitWith acts like Commit, but takes a callback, which gets run via a goroutine to avoid blocking this function. The callback is guaranteed to run, so it is safe to increment sync.WaitGroup before calling CommitWith, and decrementing it in the callback; to block until all callbacks are run.

func (*Txn) Delete ¶

func (txn *Txn) Delete(key []byte) error

Delete deletes a key.

This is done by adding a delete marker for the key at commit timestamp. Any reads happening before this timestamp would be unaffected. Any reads after this commit would see the deletion.

The current transaction keeps a reference to the key byte slice argument. Users must not modify the key until the end of the transaction.

func (*Txn) Discard ¶

func (txn *Txn) Discard()

Discard discards a created transaction. This method is very important and must be called. Commit method calls this internally, however, calling this multiple times doesn't cause any issues. So, this can safely be called via a defer right when transaction is created.

NOTE: If any operations are run on a discarded transaction, ErrDiscardedTxn is returned.

func (*Txn) Discarded ¶

func (txn *Txn) Discarded() bool

Discarded returns the discarded value of the transaction.

func (*Txn) Get ¶

func (txn *Txn) Get(key []byte) (item *Item, rerr error)

Get looks for key and returns corresponding Item. If key is not found, ErrKeyNotFound is returned.

func (*Txn) NewIterator ¶

func (txn *Txn) NewIterator(opt IteratorOptions) *Iterator

NewIterator returns a new iterator. Depending upon the options, either only keys, or both key-value pairs would be fetched. The keys are returned in lexicographically sorted order. Using prefetch is recommended if you're doing a long running iteration, for performance.

Multiple Iterators: For a read-only txn, multiple iterators can be running simultaneously. However, for a read-write txn, iterators have the nuance of being a snapshot of the writes for the transaction at the time iterator was created. If writes are performed after an iterator is created, then that iterator will not be able to see those writes. Only writes performed before an iterator was created can be viewed.

dir, err := ioutil.TempDir("", "badger-test")
if err != nil {
	panic(err)
}
defer removeDir(dir)

db, err := Open(DefaultOptions(dir))
if err != nil {
	panic(err)
}
defer db.Close()

bkey := func(i int) []byte {
	return []byte(fmt.Sprintf("%09d", i))
}
bval := func(i int) []byte {
	return []byte(fmt.Sprintf("%025d", i))
}

txn := db.NewTransaction(true)

// Fill in 1000 items
n := 1000
for i := 0; i < n; i++ {
	err := txn.SetEntry(NewEntry(bkey(i), bval(i)))
	if err != nil {
		panic(err)
	}
}

err = txn.Commit()
if err != nil {
	panic(err)
}

opt := DefaultIteratorOptions
opt.PrefetchSize = 10

// Iterate over 1000 items
var count int
err = db.View(func(txn *Txn) error {
	it := txn.NewIterator(opt)
	defer it.Close()
	for it.Rewind(); it.Valid(); it.Next() {
		count++
	}
	return nil
})
if err != nil {
	panic(err)
}
fmt.Printf("Counted %d elements", count)

Output:

Counted 1000 elements

func (*Txn) NewKeyIterator ¶

func (txn *Txn) NewKeyIterator(key []byte, opt IteratorOptions) *Iterator

NewKeyIterator is just like NewIterator, but allows the user to iterate over all versions of a single key. Internally, it sets the Prefix option in provided opt, and uses that prefix to additionally run bloom filter lookups before picking tables from the LSM tree.

func (*Txn) ReadTs ¶

func (txn *Txn) ReadTs() uint64

ReadTs returns the read timestamp of the transaction.

func (*Txn) Set ¶

func (txn *Txn) Set(key, val []byte) error

Set adds a key-value pair to the database. It will return ErrReadOnlyTxn if update flag was set to false when creating the transaction.

The current transaction keeps a reference to the key and val byte slice arguments. Users must not modify key and val until the end of the transaction.

func (*Txn) SetEntry ¶

func (txn *Txn) SetEntry(e *Entry) error

SetEntry takes an Entry struct and adds the key-value pair in the struct, along with other metadata to the database.

The current transaction keeps a reference to the entry passed in argument. Users must not modify the entry until the end of the transaction.

func (*WriteBatch) Cancel ¶

func (wb *WriteBatch) Cancel()

Cancel function must be called if there's a chance that Flush might not get called. If neither Flush or Cancel is called, the transaction oracle would never get a chance to clear out the row commit timestamp map, thus causing an unbounded memory consumption. Typically, you can call Cancel as a defer statement right after NewWriteBatch is called.

Note that any committed writes would still go through despite calling Cancel.

func (*WriteBatch) Delete ¶

func (wb *WriteBatch) Delete(k []byte) error

Delete is equivalent of Txn.Delete.

func (*WriteBatch) DeleteAt ¶

func (wb *WriteBatch) DeleteAt(k []byte, ts uint64) error

DeleteAt is equivalent of Txn.Delete but accepts a delete timestamp.

func (*WriteBatch) Error ¶

func (wb *WriteBatch) Error() error

Error returns any errors encountered so far. No commits would be run once an error is detected.

func (*WriteBatch) Flush ¶

func (wb *WriteBatch) Flush() error

Flush must be called at the end to ensure that any pending writes get committed to Badger. Flush returns any error stored by WriteBatch.

func (*WriteBatch) Set ¶

func (wb *WriteBatch) Set(k, v []byte) error

Set is equivalent of Txn.Set().

func (*WriteBatch) SetEntry ¶

func (wb *WriteBatch) SetEntry(e *Entry) error

SetEntry is the equivalent of Txn.SetEntry.

func (*WriteBatch) SetEntryAt ¶

func (wb *WriteBatch) SetEntryAt(e *Entry, ts uint64) error

SetEntryAt is the equivalent of Txn.SetEntry but it also allows setting version for the entry. SetEntryAt can be used only in managed mode.

func (*WriteBatch) SetMaxPendingTxns ¶

func (wb *WriteBatch) SetMaxPendingTxns(max int)

SetMaxPendingTxns sets a limit on maximum number of pending transactions while writing batches. This function should be called before using WriteBatch. Default value of MaxPendingTxns is 16 to minimise memory usage.

func (*WriteBatch) Write ¶

func (wb *WriteBatch) Write(buf *z.Buffer) error

func (*WriteBatch) WriteList ¶

func (wb *WriteBatch) WriteList(kvList *pb.KVList) error