Documentation ¶
Overview ¶
Package ethdb defines the interfaces for an Ethereum data store.
Index ¶
Constants ¶
const IdealBatchSize = 100 * 1024
IdealBatchSize defines the size of the data batches should ideally add in one write.
Variables ¶
This section is empty.
Functions ¶
This section is empty.
Types ¶
type Batch ¶
type Batch interface { KeyValueWriter // ValueSize retrieves the amount of data queued up for writing. ValueSize() int // Write flushes any accumulated data to disk. Write() error // Reset resets the batch for reuse. Reset() // Replay replays the batch contents. Replay(w KeyValueWriter) error }
Batch is a write-only database that commits changes to its host database when Write is called. A batch cannot be used concurrently.
type Batcher ¶
type Batcher interface { // NewBatch creates a write-only database that buffers changes to its host db // until a final write is called. NewBatch() Batch }
Batcher wraps the NewBatch method of a backing data store.
type CappedBatch ¶
type CappedBatch struct { Batch // contains filtered or unexported fields }
CappedBatch implements ethdb.Batch and calls Write whenever the underlying ValueSize is greater than commitSize. [commitFn] will be called when the batch is written if provided. This is used to commit to an underlying versiondb. NOTE: Put and Delete operations written to this batch will be written to disk when [batch.ValueSize] reaches [commitSize]. It should not be assumed the entire batch will be committed atomically.
func NewCappedBatch ¶
func NewCappedBatch(batch Batch, commitSize int, commitFn func() error) *CappedBatch
func (*CappedBatch) Delete ¶
func (c *CappedBatch) Delete(key []byte) error
func (*CappedBatch) Put ¶
func (c *CappedBatch) Put(key, value []byte) error
func (*CappedBatch) Write ¶
func (c *CappedBatch) Write() error
type Compacter ¶
type Compacter interface { // Compact flattens the underlying data store for the given key range. In essence, // deleted and overwritten versions are discarded, and the data is rearranged to // reduce the cost of operations needed to access them. // // A nil start is treated as a key before all keys in the data store; a nil limit // is treated as a key after all keys in the data store. If both is nil then it // will compact entire data store. Compact(start []byte, limit []byte) error }
Compacter wraps the Compact method of a backing data store.
type Database ¶
Database contains all the methods required by the high level database to not only access the key-value data store but also the chain freezer.
type HookedBatch ¶
type HookedBatch struct { Batch OnPut func(key []byte, value []byte) // Callback if a key is inserted OnDelete func(key []byte) // Callback if a key is deleted }
HookedBatch wraps an arbitrary batch where each operation may be hooked into to monitor from black box code.
func (HookedBatch) Delete ¶
func (b HookedBatch) Delete(key []byte) error
Delete removes the key from the key-value data store.
type Iteratee ¶
type Iteratee interface { // NewIterator creates a binary-alphabetical iterator over a subset // of database content with a particular key prefix, starting at a particular // initial key (or after, if it does not exist). // // Note: This method assumes that the prefix is NOT part of the start, so there's // no need for the caller to prepend the prefix to the start NewIterator(prefix []byte, start []byte) Iterator }
Iteratee wraps the NewIterator methods of a backing data store.
type Iterator ¶
type Iterator interface { // Next moves the iterator to the next key/value pair. It returns whether the // iterator is exhausted. Next() bool // Error returns any accumulated error. Exhausting all the key/value pairs // is not considered to be an error. Error() error // Key returns the key of the current key/value pair, or nil if done. The caller // should not modify the contents of the returned slice, and its contents may // change on the next call to Next. Key() []byte // Value returns the value of the current key/value pair, or nil if done. The // caller should not modify the contents of the returned slice, and its contents // may change on the next call to Next. Value() []byte // Release releases associated resources. Release should always succeed and can // be called multiple times without causing error. Release() }
Iterator iterates over a database's key/value pairs in ascending key order.
When it encounters an error any seek will return false and will yield no key/ value pairs. The error can be queried by calling the Error method. Calling Release is still necessary.
An iterator must be released after use, but it is not necessary to read an iterator until exhaustion. An iterator is not safe for concurrent use, but it is safe to use multiple iterators concurrently.
type KeyValueReader ¶
type KeyValueReader interface { // Has retrieves if a key is present in the key-value data store. Has(key []byte) (bool, error) // Get retrieves the given key if it's present in the key-value data store. Get(key []byte) ([]byte, error) }
KeyValueReader wraps the Has and Get method of a backing data store.
type KeyValueStore ¶
type KeyValueStore interface { KeyValueReader KeyValueWriter Batcher Iteratee Stater Compacter io.Closer }
KeyValueStore contains all the methods required to allow handling different key-value data stores backing the high level database.
type KeyValueWriter ¶
type KeyValueWriter interface { // Put inserts the given value into the key-value data store. Put(key []byte, value []byte) error // Delete removes the key from the key-value data store. Delete(key []byte) error }
KeyValueWriter wraps the Put method of a backing data store.
type Reader ¶
type Reader interface { KeyValueReader }
Reader contains the methods required to read data from key-value storage.
type Stater ¶
type Stater interface { // Stat returns a particular internal stat of the database. Stat(property string) (string, error) }
Stater wraps the Stat method of a backing data store.
type Writer ¶
type Writer interface { KeyValueWriter }
Writer contains the methods required to write data to key-value storage.
Directories ¶
Path | Synopsis |
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Package leveldb implements the key-value database layer based on LevelDB.
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Package leveldb implements the key-value database layer based on LevelDB. |
Package memorydb implements the key-value database layer based on memory maps.
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Package memorydb implements the key-value database layer based on memory maps. |