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package blockchain
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import (
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"bytes"
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"crypto/sha256"
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"encoding/gob"
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"fmt"
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"log"
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"time"
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"github.com/simple-rules/harmony-benchmark/db"
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"github.com/simple-rules/harmony-benchmark/utils"
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)
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// A block in the blockchain that contains block headers, transactions and signature etc.
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type Block struct {
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// Header
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Timestamp int64
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PrevBlockHash [32]byte
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NumTransactions int32
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TransactionIds [][32]byte
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Transactions []*Transaction // Transactions
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ShardId uint32
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Hash [32]byte
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MerkleRootData []byte
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State *State // If present, this block is state block
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// Signature...
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Bitmap []byte // Contains which validator signed the block.
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Signature [66]byte // Schnorr collective signature
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}
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type State struct {
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NumBlocks int32 // Total number of blocks
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NumTransactions int32 // Total number of transactions
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}
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func (b *Block) IsStateBlock() bool {
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return b.State != nil && bytes.Equal(b.PrevBlockHash[:], (&[32]byte{})[:]) // TODO: think of a better indicator to check
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}
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// Serialize serializes the block
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func (b *Block) Serialize() []byte {
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var result bytes.Buffer
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encoder := gob.NewEncoder(&result)
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err := encoder.Encode(b)
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if err != nil {
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log.Panic(err)
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}
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return result.Bytes()
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}
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// DeserializeBlock deserializes a block
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func DeserializeBlock(d []byte) *Block {
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var block Block
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decoder := gob.NewDecoder(bytes.NewReader(d))
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err := decoder.Decode(&block)
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if err != nil {
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log.Panic(err)
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}
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return &block
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}
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// Used for debuging.
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func (b *Block) String() string {
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res := fmt.Sprintf("Block created at %v\n", b.Timestamp)
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for id, tx := range b.Transactions {
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res += fmt.Sprintf("Transaction %v: %v\n", id, *tx)
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}
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res += fmt.Sprintf("previous blockhash: %v\n", b.PrevBlockHash)
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res += fmt.Sprintf("hash: %v\n", b.Hash)
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return res
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}
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func (b *Block) generateMerkleRootData() {
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var data [][]byte
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for _, txId := range b.TransactionIds {
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data = append(data, txId[:])
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}
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merkleTre := NewMerkleTree(data)
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b.MerkleRootData = merkleTre.RootNode.Data
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}
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func (b *Block) Write(db db.Database, key string) error {
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return db.Put([]byte(key), b.Serialize())
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}
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func Delete(db db.Database, key string) error {
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return db.Delete([]byte(key))
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}
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// CalculateBlockHash returns a hash of the block
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func (b *Block) CalculateBlockHash() []byte {
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var hashes [][]byte
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var blockHash [32]byte
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hashes = append(hashes, utils.ConvertFixedDataIntoByteArray(b.Timestamp))
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hashes = append(hashes, b.PrevBlockHash[:])
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for _, id := range b.TransactionIds {
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hashes = append(hashes, id[:])
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}
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b.generateMerkleRootData()
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hashes = append(hashes, b.MerkleRootData)
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hashes = append(hashes, utils.ConvertFixedDataIntoByteArray(b.ShardId))
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blockHash = sha256.Sum256(bytes.Join(hashes, []byte{}))
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return blockHash[:]
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}
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// NewBlock creates and returns a new block.
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func NewBlock(transactions []*Transaction, prevBlockHash [32]byte, shardId uint32) *Block {
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numTxs := int32(len(transactions))
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var txIds [][32]byte
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for _, tx := range transactions {
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txIds = append(txIds, tx.ID)
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}
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block := &Block{Timestamp: time.Now().Unix(), PrevBlockHash: prevBlockHash, NumTransactions: numTxs, TransactionIds: txIds, Transactions: transactions, ShardId: shardId, Hash: [32]byte{}}
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copy(block.Hash[:], block.CalculateBlockHash()[:])
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return block
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}
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// NewGenesisBlock creates and returns genesis Block.
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func NewGenesisBlock(coinbase *Transaction, shardId uint32) *Block {
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return NewBlock([]*Transaction{coinbase}, [32]byte{}, shardId)
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}
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// NewStateBlock creates and returns a state Block based on utxo pool.
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// TODO(RJ): take care of dangling cross shard transaction
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func NewStateBlock(utxoPool *UTXOPool, numBlocks, numTxs int32) *Block {
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stateTransactions := []*Transaction{}
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stateTransactionIds := [][32]byte{}
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for address, txHash2Vout2AmountMap := range utxoPool.UtxoMap {
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stateTransaction := Transaction{}
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for txHash, vout2AmountMap := range txHash2Vout2AmountMap {
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for index, amount := range vout2AmountMap {
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txHashBytes, err := utils.Get32BytesFromString(txHash)
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if err == nil {
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stateTransaction.TxInput = append(stateTransaction.TxInput, *NewTXInput(NewOutPoint(&txHashBytes, index), address, utxoPool.ShardID))
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stateTransaction.TxOutput = append(stateTransaction.TxOutput, TXOutput{Amount: amount, Address: address, ShardID: utxoPool.ShardID})
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} else {
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return nil
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}
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}
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}
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if len(stateTransaction.TxOutput) != 0 {
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stateTransaction.SetID()
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stateTransactionIds = append(stateTransactionIds, stateTransaction.ID)
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stateTransactions = append(stateTransactions, &stateTransaction)
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}
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}
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newBlock := NewBlock(stateTransactions, [32]byte{}, utxoPool.ShardID)
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newBlock.State = &State{NumBlocks: numBlocks, NumTransactions: numTxs}
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return newBlock
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}
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