public IList <BlsPublicKey> GetPublicKeys()
{
if (_publicKeyToBls.Count == 0)
{
QuickStartParameters _quickStartParameters = _quickStartParameterOptions.CurrentValue;
ulong endIndex = _quickStartParameters.ValidatorStartIndex + _quickStartParameters.NumberOfValidators;
for (ulong validatorIndex = _quickStartParameters.ValidatorStartIndex;
validatorIndex < endIndex;
validatorIndex++)
{
byte[] privateKey = GeneratePrivateKey(validatorIndex);
BLSParameters blsParameters = new BLSParameters()
{
PrivateKey = privateKey
};
BLS bls = BLS.Create(blsParameters);
byte[] publicKeyBytes = new byte[BlsPublicKey.Length];
bls.TryExportBlsPublicKey(publicKeyBytes, out int publicKeyBytesWritten);
BlsPublicKey publicKey = new BlsPublicKey(publicKeyBytes);
// Cache the BLS class, for easy signing
_publicKeyToBls[publicKey] = bls;
}
}
return(_publicKeyToBls.Keys.ToList());
}
public Task <Eth1GenesisData> GetEth1GenesisDataAsync(CancellationToken cancellationToken)
{
QuickStartParameters quickStartParameters = _quickStartParameterOptions.CurrentValue;
if (_logger.IsWarn())
{
Log.MockedQuickStart(_logger, quickStartParameters.GenesisTime, quickStartParameters.ValidatorCount,
null);
}
GweiValues gweiValues = _gweiValueOptions.CurrentValue;
TimeParameters timeParameters = _timeParameterOptions.CurrentValue;
SignatureDomains signatureDomains = _signatureDomainOptions.CurrentValue;
// Fixed amount
Gwei amount = gweiValues.MaximumEffectiveBalance;
for (ulong validatorIndex = 0uL; validatorIndex < quickStartParameters.ValidatorCount; validatorIndex++)
{
DepositData depositData = BuildAndSignDepositData(
validatorIndex,
amount,
signatureDomains);
_depositStore.Place(depositData);
}
ulong eth1Timestamp = quickStartParameters.Eth1Timestamp;
if (eth1Timestamp == 0)
{
eth1Timestamp = quickStartParameters.GenesisTime - (ulong)(1.5 * timeParameters.MinimumGenesisDelay);
}
else
{
ulong minimumEth1TimestampInclusive =
quickStartParameters.GenesisTime - 2 * timeParameters.MinimumGenesisDelay;
ulong maximumEth1TimestampInclusive =
quickStartParameters.GenesisTime - timeParameters.MinimumGenesisDelay - 1;
if (eth1Timestamp < minimumEth1TimestampInclusive)
{
if (_logger.IsEnabled(LogLevel.Warning))
{
Log.QuickStartEth1TimestampTooLow(_logger, eth1Timestamp, quickStartParameters.GenesisTime,
minimumEth1TimestampInclusive, null);
}
eth1Timestamp = minimumEth1TimestampInclusive;
}
else if (eth1Timestamp > maximumEth1TimestampInclusive)
{
if (_logger.IsEnabled(LogLevel.Warning))
{
Log.QuickStartEth1TimestampTooHigh(_logger, eth1Timestamp, quickStartParameters.GenesisTime,
maximumEth1TimestampInclusive, null);
}
eth1Timestamp = maximumEth1TimestampInclusive;
}
}
var eth1GenesisData = new Eth1GenesisData(quickStartParameters.Eth1BlockHash, eth1Timestamp);
if (_logger.IsEnabled(LogLevel.Debug))
{
LogDebug.QuickStartGenesisDataCreated(_logger, eth1GenesisData.BlockHash, eth1GenesisData.Timestamp,
(uint)_depositStore.Deposits.Count, null);
}
return(Task.FromResult(eth1GenesisData));
}
public Task <Eth1GenesisData> GetEth1GenesisDataAsync(CancellationToken cancellationToken)
{
QuickStartParameters quickStartParameters = _quickStartParameterOptions.CurrentValue;
if (_logger.IsWarn())
{
Log.MockedQuickStart(_logger, quickStartParameters.GenesisTime, quickStartParameters.ValidatorCount,
null);
}
GweiValues gweiValues = _gweiValueOptions.CurrentValue;
InitialValues initialValues = _initialValueOptions.CurrentValue;
TimeParameters timeParameters = _timeParameterOptions.CurrentValue;
SignatureDomains signatureDomains = _signatureDomainOptions.CurrentValue;
// Fixed amount
Gwei amount = gweiValues.MaximumEffectiveBalance;
// Build deposits
List <DepositData> depositDataList = new List <DepositData>();
List <Deposit> deposits = new List <Deposit>();
for (ulong validatorIndex = 0uL; validatorIndex < quickStartParameters.ValidatorCount; validatorIndex++)
{
byte[] privateKey = GeneratePrivateKey(validatorIndex);
// Public Key
BLSParameters blsParameters = new BLSParameters()
{
PrivateKey = privateKey
};
using BLS bls = BLS.Create(blsParameters);
byte[] publicKeyBytes = new byte[BlsPublicKey.Length];
bls.TryExportBlsPublicKey(publicKeyBytes, out int publicKeyBytesWritten);
BlsPublicKey publicKey = new BlsPublicKey(publicKeyBytes);
// Withdrawal Credentials
byte[] withdrawalCredentialBytes = _cryptographyService.Hash(publicKey.AsSpan()).AsSpan().ToArray();
withdrawalCredentialBytes[0] = initialValues.BlsWithdrawalPrefix;
Bytes32 withdrawalCredentials = new Bytes32(withdrawalCredentialBytes);
// Build deposit data
DepositData depositData = new DepositData(publicKey, withdrawalCredentials, amount, BlsSignature.Zero);
// Sign deposit data
Domain domain = _beaconChainUtility.ComputeDomain(signatureDomains.Deposit);
DepositMessage depositMessage = new DepositMessage(depositData.PublicKey,
depositData.WithdrawalCredentials, depositData.Amount);
Root depositMessageRoot = _cryptographyService.HashTreeRoot(depositMessage);
Root depositDataSigningRoot = _beaconChainUtility.ComputeSigningRoot(depositMessageRoot, domain);
byte[] destination = new byte[96];
bls.TrySignData(depositDataSigningRoot.AsSpan(), destination, out int bytesWritten);
BlsSignature depositDataSignature = new BlsSignature(destination);
depositData.SetSignature(depositDataSignature);
// Deposit
// TODO: This seems a very inefficient way (copied from tests) as it recalculates the merkle tree each time
// (you only need to add one node)
// TODO: Add some tests around quick start, then improve
int index = depositDataList.Count;
depositDataList.Add(depositData);
//int depositDataLength = (ulong) 1 << _chainConstants.DepositContractTreeDepth;
Root root = _cryptographyService.HashTreeRoot(depositDataList);
IEnumerable <Bytes32> allLeaves = depositDataList.Select(x =>
new Bytes32(_cryptographyService.HashTreeRoot((DepositData)x).AsSpan()));
IList <IList <Bytes32> > tree = CalculateMerkleTreeFromLeaves(allLeaves);
IList <Bytes32> merkleProof = GetMerkleProof(tree, index, 32);
List <Bytes32> proof = new List <Bytes32>(merkleProof);
byte[] indexBytes = new byte[32];
BinaryPrimitives.WriteInt32LittleEndian(indexBytes, index + 1);
Bytes32 indexHash = new Bytes32(indexBytes);
proof.Add(indexHash);
Bytes32 leaf = new Bytes32(_cryptographyService.HashTreeRoot(depositData).AsSpan());
_beaconChainUtility.IsValidMerkleBranch(leaf, proof, _chainConstants.DepositContractTreeDepth + 1,
(ulong)index, root);
Deposit deposit = new Deposit(proof, depositData);
if (_logger.IsEnabled(LogLevel.Debug))
{
LogDebug.QuickStartAddValidator(_logger, validatorIndex, publicKey.ToString().Substring(0, 12),
null);
}
deposits.Add(deposit);
}
ulong eth1Timestamp = quickStartParameters.Eth1Timestamp;
if (eth1Timestamp == 0)
{
eth1Timestamp = quickStartParameters.GenesisTime - (ulong)(1.5 * timeParameters.MinimumGenesisDelay);
}
else
{
ulong minimumEth1TimestampInclusive =
quickStartParameters.GenesisTime - 2 * timeParameters.MinimumGenesisDelay;
ulong maximumEth1TimestampInclusive =
quickStartParameters.GenesisTime - timeParameters.MinimumGenesisDelay - 1;
if (eth1Timestamp < minimumEth1TimestampInclusive)
{
if (_logger.IsEnabled(LogLevel.Warning))
{
Log.QuickStartEth1TimestampTooLow(_logger, eth1Timestamp, quickStartParameters.GenesisTime,
minimumEth1TimestampInclusive, null);
}
eth1Timestamp = minimumEth1TimestampInclusive;
}
else if (eth1Timestamp > maximumEth1TimestampInclusive)
{
if (_logger.IsEnabled(LogLevel.Warning))
{
Log.QuickStartEth1TimestampTooHigh(_logger, eth1Timestamp, quickStartParameters.GenesisTime,
maximumEth1TimestampInclusive, null);
}
eth1Timestamp = maximumEth1TimestampInclusive;
}
}
var eth1GenesisData = new Eth1GenesisData(quickStartParameters.Eth1BlockHash, eth1Timestamp,
deposits);
if (_logger.IsEnabled(LogLevel.Debug))
{
LogDebug.QuickStartGenesisDataCreated(_logger, eth1GenesisData.BlockHash, eth1GenesisData.Timestamp,
eth1GenesisData.Deposits.Count, null);
}
return(Task.FromResult(eth1GenesisData));
}