package db import ( "bytes" "crypto/sha256" "errors" ) // ErrNotFound is used by the implementations of the interface db.Storage for // when a key is not found in the storage var ErrNotFound = errors.New("key not found") // Storage is the interface that defines the methods for the storage used in // the merkletree. Examples of the interface implementation can be found at // db/memory and db/leveldb directories. type Storage interface { NewTx() (Tx, error) WithPrefix(prefix []byte) Storage Get([]byte) ([]byte, error) List(int) ([]KV, error) Close() Info() string Iterate(func([]byte, []byte) (bool, error)) error } // Tx is the interface that defines the methods for the db transaction used in // the merkletree storage. Examples of the interface implementation can be // found at db/memory and db/leveldb directories. type Tx interface { Get([]byte) ([]byte, error) Put(k, v []byte) Add(Tx) Commit() error Close() } // KV contains a key (K) and a value (V) type KV struct { K []byte V []byte } // KvMap is a key-value map between a sha256 byte array hash, and a KV struct type KvMap map[[sha256.Size]byte]KV // Get retreives the value respective to a key from the KvMap func (m KvMap) Get(k []byte) ([]byte, bool) { v, ok := m[sha256.Sum256(k)] return v.V, ok } // Put stores a key and a value in the KvMap func (m KvMap) Put(k, v []byte) { m[sha256.Sum256(k)] = KV{k, v} } // Concat concatenates arrays of bytes func Concat(vs ...[]byte) []byte { var b bytes.Buffer for _, v := range vs { b.Write(v) } return b.Bytes() } // Clone clones a byte array into a new byte array func Clone(b0 []byte) []byte { b1 := make([]byte, len(b0)) copy(b1, b0) return b1 }