package blockchain import ( "bytes" "crypto/sha256" "encoding/gob" "fmt" "log" "time" "github.com/simple-rules/harmony-benchmark/db" "github.com/simple-rules/harmony-benchmark/utils" ) // A block in the blockchain that contains block headers, transactions and signature etc. type Block struct { // Header Timestamp int64 PrevBlockHash [32]byte NumTransactions int32 TransactionIds [][32]byte Transactions []*Transaction // Transactions ShardId uint32 Hash [32]byte // Signature... bitmap []byte // Contains which validator signed the block. Signature [66]byte // Schnorr collective signature } // Serialize serializes the block func (b *Block) Serialize() []byte { var result bytes.Buffer encoder := gob.NewEncoder(&result) err := encoder.Encode(b) if err != nil { log.Panic(err) } return result.Bytes() } // DeserializeBlock deserializes a block func DeserializeBlock(d []byte) *Block { var block Block decoder := gob.NewDecoder(bytes.NewReader(d)) err := decoder.Decode(&block) if err != nil { log.Panic(err) } return &block } // Used for debuging. func (b *Block) String() string { res := fmt.Sprintf("Block created at %v\n", b.Timestamp) for id, tx := range b.Transactions { res += fmt.Sprintf("Transaction %v: %v\n", id, *tx) } res += fmt.Sprintf("previous blockhash: %v\n", b.PrevBlockHash) res += fmt.Sprintf("hash: %v\n", b.Hash) return res } // HashTransactions returns a hash of the transactions in the block func (b *Block) HashTransactions() []byte { var txHashes [][]byte var txHash [32]byte for _, tx := range b.Transactions { txHashes = append(txHashes, tx.ID[:]) } txHash = sha256.Sum256(bytes.Join(txHashes, []byte{})) return txHash[:] } func (b *Block) Write(db db.Database, key string) error { return db.Put([]byte(key), b.Serialize()) } // CalculateBlockHash returns a hash of the block func (b *Block) CalculateBlockHash() []byte { var hashes [][]byte var blockHash [32]byte hashes = append(hashes, utils.ConvertFixedDataIntoByteArray(b.Timestamp)) hashes = append(hashes, b.PrevBlockHash[:]) for _, id := range b.TransactionIds { hashes = append(hashes, id[:]) } for _, tx := range b.Transactions { hashes = append(hashes, tx.ID[:]) } hashes = append(hashes, utils.ConvertFixedDataIntoByteArray(b.ShardId)) blockHash = sha256.Sum256(bytes.Join(hashes, []byte{})) return blockHash[:] } // NewBlock creates and returns a new block. func NewBlock(transactions []*Transaction, prevBlockHash [32]byte, shardId uint32) *Block { numTxs := int32(len(transactions)) var txIds [][32]byte for _, tx := range transactions { txIds = append(txIds, tx.ID) } block := &Block{Timestamp: time.Now().Unix(), PrevBlockHash: prevBlockHash, NumTransactions: numTxs, TransactionIds: txIds, Transactions: transactions, ShardId: shardId, Hash: [32]byte{}} copy(block.Hash[:], block.CalculateBlockHash()[:]) return block } // NewGenesisBlock creates and returns genesis Block. func NewGenesisBlock(coinbase *Transaction, shardId uint32) *Block { return NewBlock([]*Transaction{coinbase}, [32]byte{}, shardId) }