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197 lines
5.3 KiB
197 lines
5.3 KiB
package blockchain
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import (
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"bytes"
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"encoding/hex"
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"github.com/dedis/kyber"
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"github.com/simple-rules/harmony-benchmark/crypto/pki"
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)
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// Blockchain keeps a sequence of Blocks
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type Blockchain struct {
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Blocks []*Block
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}
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const genesisCoinbaseData = "The Times 03/Jan/2009 Chancellor on brink of second bailout for banks"
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// GetLatestBlock gests the latest block at the end of the chain
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func (bc *Blockchain) GetLatestBlock() *Block {
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if len(bc.Blocks) == 0 {
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return nil
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}
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return bc.Blocks[len(bc.Blocks)-1]
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}
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// FindUnspentTransactions returns a list of transactions containing unspent outputs
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func (bc *Blockchain) FindUnspentTransactions(address [20]byte) []Transaction {
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var unspentTXs []Transaction
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spentTXOs := make(map[string][]uint32)
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for index := len(bc.Blocks) - 1; index >= 0; index-- {
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block := bc.Blocks[index]
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for _, tx := range block.Transactions {
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txID := hex.EncodeToString(tx.ID[:])
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idx := -1
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// TODO(minhdoan): Optimize this.
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if spentTXOs[txID] != nil {
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idx = 0
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}
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for outIdx, txOutput := range tx.TxOutput {
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if idx >= 0 && spentTXOs[txID][idx] == uint32(outIdx) {
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idx++
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continue
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}
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if txOutput.Address == address {
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unspentTXs = append(unspentTXs, *tx)
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// Break because of the assumption that each address appears once in output.
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break
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}
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}
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for _, txInput := range tx.TxInput {
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if address == txInput.Address {
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ID := hex.EncodeToString(txInput.PreviousOutPoint.TxID[:])
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spentTXOs[ID] = append(spentTXOs[ID], txInput.PreviousOutPoint.Index)
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}
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}
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}
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}
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return unspentTXs
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}
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// FindUTXO finds and returns all unspent transaction outputs
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func (bc *Blockchain) FindUTXO(address [20]byte) []TXOutput {
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var UTXOs []TXOutput
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unspentTXs := bc.FindUnspentTransactions(address)
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for _, tx := range unspentTXs {
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for _, txOutput := range tx.TxOutput {
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if txOutput.Address == address {
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UTXOs = append(UTXOs, txOutput)
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break
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}
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}
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}
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return UTXOs
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}
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// FindSpendableOutputs finds and returns unspent outputs to reference in inputs
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func (bc *Blockchain) FindSpendableOutputs(address [20]byte, amount int) (int, map[string][]uint32) {
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unspentOutputs := make(map[string][]uint32)
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unspentTXs := bc.FindUnspentTransactions(address)
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accumulated := 0
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Work:
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for _, tx := range unspentTXs {
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txID := hex.EncodeToString(tx.ID[:])
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for outIdx, txOutput := range tx.TxOutput {
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if txOutput.Address == address && accumulated < amount {
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accumulated += txOutput.Amount
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unspentOutputs[txID] = append(unspentOutputs[txID], uint32(outIdx))
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if accumulated >= amount {
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break Work
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}
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}
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}
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}
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return accumulated, unspentOutputs
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}
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// NewUTXOTransaction creates a new transaction
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func (bc *Blockchain) NewUTXOTransaction(priKey kyber.Scalar, from, to [20]byte, amount int, shardID uint32) *Transaction {
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var inputs []TXInput
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var outputs []TXOutput
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acc, validOutputs := bc.FindSpendableOutputs(from, amount)
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if acc < amount {
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return nil
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}
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// Build a list of inputs
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for txid, outs := range validOutputs {
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id, err := hex.DecodeString(txid)
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if err != nil {
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return nil
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}
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txID := TxID{}
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copy(txID[:], id[:])
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for _, out := range outs {
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input := NewTXInput(NewOutPoint(&txID, out), from, shardID)
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inputs = append(inputs, *input)
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}
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}
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// Build a list of outputs
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outputs = append(outputs, TXOutput{amount, to, shardID})
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if acc > amount {
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outputs = append(outputs, TXOutput{acc - amount, from, shardID}) // a change
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}
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tx := Transaction{ID: [32]byte{}, TxInput: inputs, TxOutput: outputs, Proofs: nil}
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tx.SetID()
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pubKey := pki.GetPublicKeyFromScalar(priKey)
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bytes, err := pubKey.MarshalBinary()
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if err == nil {
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copy(tx.PublicKey[:], bytes)
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} else {
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panic("Failed to serialize public key")
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}
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tx.SetID() // TODO(RJ): figure out the correct way to set Tx ID.
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tx.Sign(priKey)
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return &tx
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}
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// AddNewUserTransfer creates a new transaction and a block of that transaction.
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// Mostly used for testing.
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func (bc *Blockchain) AddNewUserTransfer(utxoPool *UTXOPool, priKey kyber.Scalar, from, to [20]byte, amount int, shardId uint32) bool {
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tx := bc.NewUTXOTransaction(priKey, from, to, amount, shardId)
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if tx != nil {
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newBlock := NewBlock([]*Transaction{tx}, bc.Blocks[len(bc.Blocks)-1].Hash, shardId)
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if bc.VerifyNewBlockAndUpdate(utxoPool, newBlock) {
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return true
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}
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}
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return false
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}
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// VerifyNewBlockAndUpdate verifies if the new coming block is valid for the current blockchain.
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func (bc *Blockchain) VerifyNewBlockAndUpdate(utxopool *UTXOPool, block *Block) bool {
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length := len(bc.Blocks)
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if bytes.Compare(block.PrevBlockHash[:], bc.Blocks[length-1].Hash[:]) != 0 {
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return false
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}
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if block.Timestamp < bc.Blocks[length-1].Timestamp {
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return false
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}
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if utxopool != nil && !utxopool.VerifyAndUpdate(block.Transactions) {
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return false
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}
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bc.Blocks = append(bc.Blocks, block)
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return true
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}
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// CreateBlockchain creates a new blockchain DB
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// TODO(minhdoan): This func is not used, consider to remove.
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func CreateBlockchain(address [20]byte, shardId uint32) *Blockchain {
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// TODO: We assume we have not created any blockchain before.
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// In current bitcoin, we can check if we created a blockchain before accessing local db.
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cbtx := NewCoinbaseTX(address, genesisCoinbaseData, shardId)
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genesis := NewGenesisBlock(cbtx, shardId)
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bc := Blockchain{[]*Block{genesis}}
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return &bc
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}
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