Documentation ¶
Index ¶
- type AdaptedSizedLRUCache
- type Batcher
- type Cacher
- type CustomDatabaseRemoverHandler
- type DirectoryReaderHandler
- type EvictionHandler
- type ForEachItem
- type LRUCacheHandler
- type LatestDataFromStorage
- type LatestStorageDataProviderHandler
- type Persister
- type PersisterCreator
- type PersisterFactory
- type SerializedStoredData
- type ShardCoordinator
- type ShardIDProvider
- type SizedLRUCacheHandler
- type StoredDataFactory
- type Storer
- type StorerWithPutInEpoch
- type TimeCacher
Constants ¶
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Variables ¶
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Functions ¶
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Types ¶
type AdaptedSizedLRUCache ¶
type AdaptedSizedLRUCache interface { SizedLRUCacheHandler AddSizedAndReturnEvicted(key, value interface{}, sizeInBytes int64) map[interface{}]interface{} IsInterfaceNil() bool }
AdaptedSizedLRUCache defines a cache that returns the evicted value
type Batcher ¶
type Batcher interface { // Put inserts one entry - key, value pair - into the batch Put(key []byte, val []byte) error // Get returns the value from the batch Get(key []byte) []byte // Delete deletes the batch Delete(key []byte) error // Reset clears the contents of the batch Reset() // IsRemoved returns true if the provided key is marked for deletion IsRemoved(key []byte) bool // IsInterfaceNil returns true if there is no value under the interface IsInterfaceNil() bool }
Batcher allows to batch the data first then write the batch to the persister in one go
type Cacher ¶
type Cacher interface { // Clear is used to completely clear the cache. Clear() // Put adds a value to the cache. Returns true if an eviction occurred. Put(key []byte, value interface{}, sizeInBytes int) (evicted bool) // Get looks up a key's value from the cache. Get(key []byte) (value interface{}, ok bool) // Has checks if a key is in the cache, without updating the // recent-ness or deleting it for being stale. Has(key []byte) bool // Peek returns the key value (or undefined if not found) without updating // the "recently used"-ness of the key. Peek(key []byte) (value interface{}, ok bool) // HasOrAdd checks if a key is in the cache without updating the // recent-ness or deleting it for being stale, and if not adds the value. HasOrAdd(key []byte, value interface{}, sizeInBytes int) (has, added bool) // Remove removes the provided key from the cache. Remove(key []byte) // Keys returns a slice of the keys in the cache, from oldest to newest. Keys() [][]byte // Len returns the number of items in the cache. Len() int // SizeInBytesContained returns the size in bytes of all contained elements SizeInBytesContained() uint64 // MaxSize returns the maximum number of items which can be stored in the cache. MaxSize() int // RegisterHandler registers a new handler to be called when a new data is added RegisterHandler(handler func(key []byte, value interface{}), id string) // UnRegisterHandler deletes the handler from the list UnRegisterHandler(id string) // Close closes the underlying temporary db if the cacher implementation has one, // otherwise it does nothing Close() error // IsInterfaceNil returns true if there is no value under the interface IsInterfaceNil() bool }
Cacher provides caching services
type CustomDatabaseRemoverHandler ¶
type CustomDatabaseRemoverHandler interface { ShouldRemove(dbIdentifier string, epoch uint32) bool IsInterfaceNil() bool }
CustomDatabaseRemoverHandler defines the behaviour of a component that should tell if a database is removable or not
type DirectoryReaderHandler ¶
type DirectoryReaderHandler interface { ListFilesAsString(directoryPath string) ([]string, error) ListDirectoriesAsString(directoryPath string) ([]string, error) ListAllAsString(directoryPath string) ([]string, error) IsInterfaceNil() bool }
DirectoryReaderHandler defines which actions should be done by a directory reader
type EvictionHandler ¶
type EvictionHandler interface {
Evicted(key []byte)
}
EvictionHandler defines a component which can be registered on TimeCacher
type ForEachItem ¶
type ForEachItem func(key []byte, value interface{})
ForEachItem is an iterator callback
type LRUCacheHandler ¶
type LRUCacheHandler interface { Add(key, value interface{}) bool Get(key interface{}) (value interface{}, ok bool) Contains(key interface{}) (ok bool) ContainsOrAdd(key, value interface{}) (ok, evicted bool) Peek(key interface{}) (value interface{}, ok bool) Remove(key interface{}) bool Keys() []interface{} Len() int Purge() }
LRUCacheHandler is the interface for LRU cache.
type LatestDataFromStorage ¶
type LatestDataFromStorage struct { Epoch uint32 ShardID uint32 LastRound int64 EpochStartRound uint64 }
LatestDataFromStorage represents the DTO structure to return from storage
type LatestStorageDataProviderHandler ¶
type LatestStorageDataProviderHandler interface { GetParentDirectory() string GetParentDirAndLastEpoch() (string, uint32, error) Get() (LatestDataFromStorage, error) GetShardsFromDirectory(path string) ([]string, error) IsInterfaceNil() bool }
LatestStorageDataProviderHandler defines which actions be done by a component who fetches latest data from storage
type Persister ¶
type Persister interface { // Put add the value to the (key, val) persistence medium Put(key, val []byte) error // Get gets the value associated to the key Get(key []byte) ([]byte, error) // Has returns true if the given key is present in the persistence medium Has(key []byte) error // Close closes the files/resources associated to the persistence medium Close() error // Remove removes the data associated to the given key Remove(key []byte) error // Destroy removes the persistence medium stored data Destroy() error // DestroyClosed removes the already closed persistence medium stored data DestroyClosed() error RangeKeys(handler func(key []byte, val []byte) bool) // IsInterfaceNil returns true if there is no value under the interface IsInterfaceNil() bool }
Persister provides storage of data services in a database like construct
type PersisterCreator ¶
type PersisterCreator interface { CreateBasePersister(path string) (Persister, error) IsInterfaceNil() bool }
PersisterCreator defines the behavour of a component which is able to create a persister
type PersisterFactory ¶
PersisterFactory defines which actions should be done for creating a persister
type SerializedStoredData ¶
SerializedStoredData defines a data type that has the serialized data as a field
type ShardCoordinator ¶
type ShardCoordinator interface { NumberOfShards() uint32 ComputeId(address []byte) uint32 SelfId() uint32 SameShard(firstAddress, secondAddress []byte) bool CommunicationIdentifier(destShardID uint32) string IsInterfaceNil() bool }
ShardCoordinator defines what a shard state coordinator should hold
type ShardIDProvider ¶
type ShardIDProvider interface { ComputeId(key []byte) uint32 NumberOfShards() uint32 GetShardIDs() []uint32 IsInterfaceNil() bool }
ShardIDProvider defines what a component which is able to provide persister id per key should do
type SizedLRUCacheHandler ¶
type SizedLRUCacheHandler interface { AddSized(key, value interface{}, sizeInBytes int64) bool Get(key interface{}) (value interface{}, ok bool) Contains(key interface{}) (ok bool) AddSizedIfMissing(key, value interface{}, sizeInBytes int64) (ok, evicted bool) Peek(key interface{}) (value interface{}, ok bool) Remove(key interface{}) bool Keys() []interface{} Len() int SizeInBytesContained() uint64 Purge() }
SizedLRUCacheHandler is the interface for size capable LRU cache.
type StoredDataFactory ¶
type StoredDataFactory interface { CreateEmpty() interface{} IsInterfaceNil() bool }
StoredDataFactory creates empty objects of the stored data type
type Storer ¶
type Storer interface { Put(key, data []byte) error PutInEpoch(key, data []byte, epoch uint32) error Get(key []byte) ([]byte, error) Has(key []byte) error SearchFirst(key []byte) ([]byte, error) RemoveFromCurrentEpoch(key []byte) error Remove(key []byte) error ClearCache() DestroyUnit() error GetFromEpoch(key []byte, epoch uint32) ([]byte, error) GetBulkFromEpoch(keys [][]byte, epoch uint32) ([]storage.KeyValuePair, error) GetOldestEpoch() (uint32, error) RangeKeys(handler func(key []byte, val []byte) bool) Close() error IsInterfaceNil() bool }
Storer provides storage services in a two layered storage construct, where the first layer is represented by a cache and second layer by a persitent storage (DB-like)
type StorerWithPutInEpoch ¶
StorerWithPutInEpoch is an extended storer with the ability to set the epoch which will be used for put operations