/// <summary>
/// Given a collection of private keys and a transaction,
/// sign the transaction
///
/// </summary>
/// <param name="privateKeys"></param>
/// <param name="rawTransaction"></param>
/// <returns></returns>
public string SignRawTransaction(string[] privateKeys, byte[] rawTransaction)
{
// Deserialize wifs and generate privatekey/publickey/pubkeyhash mappings
var keys =
(from wif in privateKeys
let privKey = Wif.Deserialize(_network, wif)
select ExpandPrivateKey(privKey)).ToArray();
// This is the transaction that will have properly signed inputs.
var transaction = DecodeTransaction(rawTransaction);
foreach (var input in transaction.TxIn)
{
// Clone the base transaction
var txCopy = DecodeTransaction(rawTransaction);
// Match the private key with the public key script for this input
// Note: the public key script is embedded in the signature script portion of the transaction.
var publicKeyHash = GetPublicKeyHash(input.SignatureScript);
var signingKeys = keys
.Where(k => k.PublicKeyHash.SequenceEqual(publicKeyHash))
.ToList();
// Ensure one of the known private keys is able to sign the transaction.
if (!signingKeys.Any())
{
throw new SigningException("Not able to unlock utxo with provided keys");
}
var key = signingKeys.First();
// Zero out all scripts except the current one.
foreach (var txCopyIn in txCopy.TxIn)
{
// Skip the current TxIn
if (input.PreviousOutPoint.Hash.SequenceEqual <byte>(txCopyIn.PreviousOutPoint.Hash) &&
input.PreviousOutPoint.Index == txCopyIn.PreviousOutPoint.Index)
{
continue;
}
txCopyIn.SignatureScript = new byte[0];
}
// Calculate the tx signature for this input,
// and sign the hash
var txHash = CalculateTxHash(txCopy);
var signature = _securityService.Sign(key.PrivateKey, txHash).MakeCanonical().ToDer();
var sigBytes = signature.Concat(new[] { (byte)SignatureHashType.All }).ToArray();
input.SignatureScript = GetSignatureScript(sigBytes, key.PublicKey);
}
return(HexUtil.FromByteArray(transaction.Encode()));
}
public async Task BuildSingleTransactionAsync_WithSingleUnspentOutput_BuildsExpectedTx()
{
var fromAddr = "Tso2MVTUeVrjHTBFedFhiyM7yVTbieqp91h";
var toAddr = "TsntCvtbzaDtx4DwGehWcM3Ydb6Muc79YbV";
// Send 1 decred out of 2 total
var amountToSend = 100000000;
var unspentOutput = new UnspentTxOutput()
{
BlockHeight = 0,
BlockIndex = 0,
Hash = HexUtil.FromByteArray(new byte[32]),
OutputIndex = 1,
OutputValue = 2 * 100000000,
OutputVersion = 0,
Tree = 0,
PkScript = new byte[0]
};
_mockTxRepo.Setup(m => m.GetConfirmedUtxos(fromAddr)).ReturnsAsync(new[] { unspentOutput });
_mockTxRepo.Setup(m => m.GetMempoolUtxos(fromAddr)).ReturnsAsync(new[] { unspentOutput });
_mockDcrdClient.Setup(m => m.EstimateFeeAsync(It.IsAny <int>())).ReturnsAsync(0.001m);
_mockBroadcastedOutpointRepo.Setup(m => m.GetAsync($"{unspentOutput.Hash}:1"))
.ReturnsAsync((BroadcastedOutpoint)null);
var txFeeService = new TransactionFeeService(_mockDcrdClient.Object);
var subject = new TransactionBuilder(
txFeeService,
_mockTxRepo.Object,
_mockBroadcastedOutpointRepo.Object
);
var request = new BuildSingleTransactionRequest
{
Amount = amountToSend.ToString(),
AssetId = "DCR",
FromAddress = fromAddr,
ToAddress = toAddr,
IncludeFee = true
};
var result = await subject.BuildSingleTransactionAsync(request, 1);
var transaction = Transaction.Deserialize(HexUtil.ToByteArray(result.TransactionContext));
var expectedFee = txFeeService.CalculateFee(100000, 1, 2, 1);
Assert.Equal(expectedFee, 2 * 100000000 - transaction.Outputs.Sum(o => o.Amount));
Assert.Equal(2, transaction.Outputs.Length);
// Sent amount - fee
Assert.Equal(1, transaction.Outputs.Count(o => o.Amount + expectedFee == 100000000));
// Change
Assert.Equal(1, transaction.Outputs.Count(o => o.Amount == 100000000));
}
/// <summary>
/// Broadcasts a signed transaction to the Decred network
/// </summary>
/// <param name="operationId"></param>
/// <param name="hexTransaction"></param>
/// <returns></returns>
/// <exception cref="TransactionBroadcastException"></exception>
public async Task Broadcast(Guid operationId, string hexTransaction)
{
if (operationId == Guid.Empty)
{
throw new BusinessException(ErrorReason.BadRequest, "Operation id is invalid");
}
if (string.IsNullOrWhiteSpace(hexTransaction))
{
throw new BusinessException(ErrorReason.BadRequest, "SignedTransaction is invalid");
}
var txBytes = HexUtil.ToByteArray(hexTransaction);
var msgTx = new MsgTx();
msgTx.Decode(txBytes);
// If the operation exists in the cache, throw exception
var cachedResult = await _broadcastTxRepo.GetAsync(operationId.ToString());
if (cachedResult != null)
{
throw new BusinessException(ErrorReason.DuplicateRecord, "Operation already broadcast");
}
var txHash = HexUtil.FromByteArray(msgTx.GetHash().Reverse().ToArray());
var txWasMined = await _txRepo.GetTxInfoByHash(txHash, long.MaxValue) != null;
if (txWasMined)
{
await SaveBroadcastedTransaction(new BroadcastedTransaction
{
OperationId = operationId,
Hash = txHash,
EncodedTransaction = hexTransaction
});
throw new BusinessException(ErrorReason.DuplicateRecord, "Operation already broadcast");
}
// Submit the transaction to the network via dcrd
var result = await _dcrdClient.SendRawTransactionAsync(hexTransaction);
if (result.Error != null)
{
throw new TransactionBroadcastException($"[{result.Error.Code}] {result.Error.Message}");
}
await SaveBroadcastedTransaction(new BroadcastedTransaction
{
OperationId = operationId,
Hash = txHash,
EncodedTransaction = hexTransaction
});
}
/// <summary>
/// Builds a transaction that sends value from one address to another.
/// Change is spent to the source address, if necessary.
/// </summary>
/// <param name="request"></param>
/// <param name="feeFactor"></param>
/// <returns></returns>
/// <exception cref="BusinessException"></exception>
public async Task <BuildTransactionResponse> BuildSingleTransactionAsync(BuildSingleTransactionRequest request, decimal feeFactor)
{
if (string.IsNullOrWhiteSpace(request.FromAddress))
{
throw new BusinessException(ErrorReason.BadRequest, "FromAddress missing");
}
if (string.IsNullOrWhiteSpace(request.ToAddress))
{
throw new BusinessException(ErrorReason.BadRequest, "ToAddress missing");
}
if (!long.TryParse(request.Amount, out var amount) || amount <= 0)
{
throw new BusinessException(ErrorReason.BadRequest, $"Invalid amount {amount}");
}
var feePerKb = await _feeService.GetFeePerKb();
if (TransactionRules.IsDustAmount(amount, Transaction.PayToPubKeyHashPkScriptSize, new Amount(feePerKb)))
{
throw new BusinessException(ErrorReason.AmountTooSmall, "Amount is dust");
}
const int outputVersion = 0;
const int lockTime = 0;
const int expiry = 0;
// Number of outputs newly build tx will contain,
// not including the change address
const int numOutputs = 1;
// Lykke api doesn't have option to specify a change address.
var changeAddress = Address.Decode(request.FromAddress);
var toAddress = Address.Decode(request.ToAddress);
var allInputs = (await GetUtxosForAddress(request.FromAddress)).ToList();
long estFee = 0;
long totalSpent = 0;
var consumedInputs = new List <Transaction.Input>();
bool HasEnoughInputs(out long fee)
{
var calculateWithChange = false;
while (true)
{
var changeCount = calculateWithChange ? 1 : 0;
fee = _feeService.CalculateFee(feePerKb, consumedInputs.Count, numOutputs + changeCount, feeFactor);
var estAmount = amount + (request.IncludeFee ? 0 : fee);
if (totalSpent < estAmount)
{
return(false);
}
if (totalSpent == estAmount)
{
return(true);
}
if (totalSpent > estAmount && calculateWithChange)
{
return(true);
}
// Loop one more time but make sure change is accounted for this time.
if (totalSpent > estAmount)
{
calculateWithChange = true;
}
}
}
// Accumulate inputs until we have enough to cover the cost
// of the amount + fee
foreach (var input in allInputs)
{
// Don't consume an outpoint if it's spent.
if (await IsBroadcastedUtxo(input.PreviousOutpoint))
{
continue;
}
consumedInputs.Add(input);
totalSpent += input.InputAmount;
if (HasEnoughInputs(out estFee))
{
break;
}
}
// If all inputs do not have enough value to fund the transaction.
if (totalSpent < amount + (request.IncludeFee ? 0 : estFee))
{
throw new BusinessException(ErrorReason.NotEnoughBalance, "Address balance too low");
}
// The fee either comes from the change or the sent amount
var send = amount - (request.IncludeFee ? estFee : 0);
var change = (totalSpent - amount) - (request.IncludeFee ? 0 : estFee);
// If all inputs do not have enough value to fund the transaction, throw error.
if (request.IncludeFee && estFee > amount)
{
throw new BusinessException(ErrorReason.AmountTooSmall, "Amount not enough to include fee");
}
// If all inputs do not have enough value to fund the transaction, throw error.
if (totalSpent < amount + (request.IncludeFee ? 0 : estFee))
{
throw new BusinessException(ErrorReason.NotEnoughBalance, "Address balance too low");
}
// Build outputs to address + change address.
// If any of the outputs is zero value, exclude it. For example, if there is no change.
var outputs = new[] {
new Transaction.Output(send, outputVersion, toAddress.BuildScript().Script),
new Transaction.Output(change, outputVersion, changeAddress.BuildScript().Script)
}.Where(o => o.Amount != 0).ToArray();
var newTx = new Transaction(
Transaction.SupportedVersion,
consumedInputs.ToArray(),
outputs,
lockTime,
expiry
);
return(new BuildTransactionResponse
{
TransactionContext = HexUtil.FromByteArray(newTx.Serialize())
});
}
