private void InitializeTestState(BlockchainTest test, IStateProvider stateProvider, IStorageProvider storageProvider, ISpecProvider specProvider)
{
foreach (KeyValuePair <Address, AccountState> accountState in test.Pre)
{
foreach (KeyValuePair <UInt256, byte[]> storageItem in accountState.Value.Storage)
{
storageProvider.Set(new StorageCell(accountState.Key, storageItem.Key), storageItem.Value.WithoutLeadingZeros().ToArray());
}
stateProvider.CreateAccount(accountState.Key, accountState.Value.Balance);
Keccak codeHash = stateProvider.UpdateCode(accountState.Value.Code);
stateProvider.UpdateCodeHash(accountState.Key, codeHash, specProvider.GenesisSpec);
for (int i = 0; i < accountState.Value.Nonce; i++)
{
stateProvider.IncrementNonce(accountState.Key);
}
}
storageProvider.Commit();
stateProvider.Commit(specProvider.GenesisSpec);
storageProvider.CommitTrees();
stateProvider.CommitTree();
storageProvider.Reset();
stateProvider.Reset();
}
public Block Load()
{
Block genesis = _chainSpec.Genesis;
foreach ((Address address, ChainSpecAllocation allocation) in _chainSpec.Allocations.OrderBy(a => a.Key))
{
_stateProvider.CreateAccount(address, allocation.Balance);
if (allocation.Code != null)
{
Keccak codeHash = _stateProvider.UpdateCode(allocation.Code);
_stateProvider.UpdateCodeHash(address, codeHash, _specProvider.GenesisSpec);
}
if (allocation.Storage != null)
{
foreach (KeyValuePair <UInt256, byte[]> storage in allocation.Storage)
{
_storageProvider.Set(new StorageCell(address, storage.Key), storage.Value.WithoutLeadingZeros().ToArray());
}
}
if (allocation.Constructor != null)
{
Transaction constructorTransaction = new SystemTransaction()
{
SenderAddress = address,
Init = allocation.Constructor,
GasLimit = genesis.GasLimit
};
CallOutputTracer outputTracer = new CallOutputTracer();
_transactionProcessor.Execute(constructorTransaction, genesis.Header, outputTracer);
if (outputTracer.StatusCode != StatusCode.Success)
{
throw new InvalidOperationException($"Failed to initialize constructor for address {address}. Error: {outputTracer.Error}");
}
}
}
// we no longer need the allocations - 0.5MB RAM, 9000 objects for mainnet
_chainSpec.Allocations = null;
_storageProvider.Commit();
_stateProvider.Commit(_specProvider.GenesisSpec);
_storageProvider.CommitTrees();
_stateProvider.CommitTree();
_dbProvider.StateDb.Commit();
_dbProvider.CodeDb.Commit();
genesis.Header.StateRoot = _stateProvider.StateRoot;
genesis.Header.Hash = genesis.Header.CalculateHash();
return(genesis);
}
private static void LoadGenesisBlock(
ChainSpec chainSpec,
Keccak expectedGenesisHash,
IBlockTree blockTree,
IStateProvider stateProvider,
ISpecProvider specProvider)
{
// if we already have a database with blocks then we do not need to load genesis from spec
if (blockTree.Genesis != null)
{
return;
}
foreach ((Address address, (UInt256 balance, byte[] code)) in chainSpec.Allocations)
{
stateProvider.CreateAccount(address, balance);
if (code != null)
{
Keccak codeHash = stateProvider.UpdateCode(code);
stateProvider.UpdateCodeHash(address, codeHash, specProvider.GenesisSpec);
}
}
stateProvider.Commit(specProvider.GenesisSpec);
Block genesis = chainSpec.Genesis;
genesis.StateRoot = stateProvider.StateRoot;
genesis.Hash = BlockHeader.CalculateHash(genesis.Header);
ManualResetEventSlim genesisProcessedEvent = new ManualResetEventSlim(false);
bool genesisLoaded = false;
void GenesisProcessed(object sender, BlockEventArgs args)
{
genesisLoaded = true;
blockTree.NewHeadBlock -= GenesisProcessed;
genesisProcessedEvent.Set();
}
blockTree.NewHeadBlock += GenesisProcessed;
blockTree.SuggestBlock(genesis);
genesisProcessedEvent.Wait(TimeSpan.FromSeconds(5));
if (!genesisLoaded)
{
throw new BlockchainException("Genesis block processing failure");
}
// if expectedGenesisHash is null here then it means that we do not care about the exact value in advance (e.g. in test scenarios)
if (expectedGenesisHash != null && blockTree.Genesis.Hash != expectedGenesisHash)
{
throw new Exception($"Unexpected genesis hash, expected {expectedGenesisHash}, but was {blockTree.Genesis.Hash}");
}
}
public void RewriteContracts(long blockNumber, IStateProvider stateProvider, IReleaseSpec spec)
{
if (_contractOverrides.TryGetValue(blockNumber, out IDictionary <Address, byte[]> overrides))
{
foreach (KeyValuePair <Address, byte[]> contractOverride in overrides)
{
Keccak codeHash = stateProvider.UpdateCode(contractOverride.Value);
stateProvider.UpdateCodeHash(contractOverride.Key, codeHash, spec);
}
}
}
public Block Load()
{
Block genesis = _chainSpec.Genesis;
foreach ((Address address, ChainSpecAllocation allocation) in _chainSpec.Allocations)
{
_stateProvider.CreateAccount(address, allocation.Balance);
if (allocation.Code != null)
{
Keccak codeHash = _stateProvider.UpdateCode(allocation.Code);
_stateProvider.UpdateCodeHash(address, codeHash, _specProvider.GenesisSpec);
}
if (allocation.Constructor != null)
{
Transaction constructorTransaction = new SystemTransaction()
{
SenderAddress = address,
Init = allocation.Constructor,
GasLimit = genesis.GasLimit
};
_transactionProcessor.Execute(constructorTransaction, genesis.Header, NullTxTracer.Instance);
}
}
// we no longer need the allocations - 0.5MB RAM, 9000 objects for mainnet
_chainSpec.Allocations = null;
_storageProvider.Commit();
_stateProvider.Commit(_specProvider.GenesisSpec);
_storageProvider.CommitTrees();
_stateProvider.CommitTree();
_dbProvider.StateDb.Commit();
_dbProvider.CodeDb.Commit();
genesis.Header.StateRoot = _stateProvider.StateRoot;
genesis.Header.Hash = genesis.Header.CalculateHash();
return(genesis);
}
private void Preallocate(Block genesis)
{
foreach ((Address address, ChainSpecAllocation allocation) in _chainSpec.Allocations.OrderBy(a => a.Key))
{
_stateProvider.CreateAccount(address, allocation.Balance, allocation.Nonce);
if (allocation.Code != null)
{
Keccak codeHash = _stateProvider.UpdateCode(allocation.Code);
_stateProvider.UpdateCodeHash(address, codeHash, _specProvider.GenesisSpec);
}
if (allocation.Storage != null)
{
foreach (KeyValuePair <UInt256, byte[]> storage in allocation.Storage)
{
_storageProvider.Set(new StorageCell(address, storage.Key),
storage.Value.WithoutLeadingZeros().ToArray());
}
}
if (allocation.Constructor != null)
{
Transaction constructorTransaction = new SystemTransaction()
{
SenderAddress = address,
Data = allocation.Constructor,
GasLimit = genesis.GasLimit
};
CallOutputTracer outputTracer = new();
_transactionProcessor.Execute(constructorTransaction, genesis.Header, outputTracer);
if (outputTracer.StatusCode != StatusCode.Success)
{
throw new InvalidOperationException(
$"Failed to initialize constructor for address {address}. Error: {outputTracer.Error}");
}
}
}
}
private void InitializeTestState(BlockchainTest test, IStateProvider stateProvider, IStorageProvider storageProvider, ISpecProvider specProvider)
{
foreach (KeyValuePair <Address, AccountState> accountState in test.Pre)
{
foreach (KeyValuePair <BigInteger, byte[]> storageItem in accountState.Value.Storage)
{
storageProvider.Set(new StorageAddress(accountState.Key, storageItem.Key), storageItem.Value);
}
stateProvider.CreateAccount(accountState.Key, accountState.Value.Balance);
Keccak codeHash = stateProvider.UpdateCode(accountState.Value.Code);
stateProvider.UpdateCodeHash(accountState.Key, codeHash, specProvider.GenesisSpec);
for (int i = 0; i < accountState.Value.Nonce; i++)
{
stateProvider.IncrementNonce(accountState.Key);
}
}
storageProvider.Commit(specProvider.GenesisSpec);
stateProvider.Commit(specProvider.GenesisSpec);
}
private void DeployCode(ExecutionEnvironment env,
TransactionSubstate substate,
ref ulong unspentGas,
IReleaseSpec spec)
{
var codeDepositGasCost = (ulong)CodeDepositHandler.CalculateCost(substate.Output.Length, spec);
if (unspentGas < codeDepositGasCost && spec.IsEip2Enabled)
{
throw new OutOfGasException();
}
if (unspentGas < codeDepositGasCost)
{
return;
}
var codeHash = _stateProvider.UpdateCode(substate.Output);
_stateProvider.UpdateCodeHash(env.CodeSource, codeHash, spec);
unspentGas -= codeDepositGasCost;
}
private void Execute(Transaction transaction, BlockHeader block, ITxTracer txTracer, bool isCall)
{
bool notSystemTransaction = !transaction.IsSystem();
bool wasSenderAccountCreatedInsideACall = false;
IReleaseSpec spec = _specProvider.GetSpec(block.Number);
if (!notSystemTransaction)
{
spec = new SystemTransactionReleaseSpec(spec);
}
Address recipient = transaction.To;
UInt256 value = transaction.Value;
UInt256 gasPrice = transaction.GasPrice;
long gasLimit = transaction.GasLimit;
byte[] machineCode = transaction.Init;
byte[] data = transaction.Data ?? Array.Empty <byte>();
Address sender = transaction.SenderAddress;
if (_logger.IsTrace)
{
_logger.Trace($"Executing tx {transaction.Hash}");
}
if (sender == null)
{
TraceLogInvalidTx(transaction, "SENDER_NOT_SPECIFIED");
QuickFail(transaction, block, txTracer, "sender not specified");
return;
}
long intrinsicGas = _intrinsicGasCalculator.Calculate(transaction, spec);
if (_logger.IsTrace)
{
_logger.Trace($"Intrinsic gas calculated for {transaction.Hash}: " + intrinsicGas);
}
if (notSystemTransaction)
{
if (gasLimit < intrinsicGas)
{
TraceLogInvalidTx(transaction, $"GAS_LIMIT_BELOW_INTRINSIC_GAS {gasLimit} < {intrinsicGas}");
QuickFail(transaction, block, txTracer, "gas limit below intrinsic gas");
return;
}
if (!isCall && gasLimit > block.GasLimit - block.GasUsed)
{
TraceLogInvalidTx(transaction,
$"BLOCK_GAS_LIMIT_EXCEEDED {gasLimit} > {block.GasLimit} - {block.GasUsed}");
QuickFail(transaction, block, txTracer, "block gas limit exceeded");
return;
}
}
if (!_stateProvider.AccountExists(sender))
{
// hacky fix for the potential recovery issue
if (transaction.Signature != null)
{
transaction.SenderAddress = _ecdsa.RecoverAddress(transaction, !spec.ValidateChainId);
}
if (sender != transaction.SenderAddress)
{
if (_logger.IsWarn)
{
_logger.Warn($"TX recovery issue fixed - tx was coming with sender {sender} and the now it recovers to {transaction.SenderAddress}");
}
sender = transaction.SenderAddress;
}
else
{
TraceLogInvalidTx(transaction, $"SENDER_ACCOUNT_DOES_NOT_EXIST {sender}");
if (isCall || gasPrice == UInt256.Zero)
{
wasSenderAccountCreatedInsideACall = isCall;
_stateProvider.CreateAccount(sender, UInt256.Zero);
}
}
}
if (notSystemTransaction)
{
UInt256 senderBalance = _stateProvider.GetBalance(sender);
if (!isCall && (ulong)intrinsicGas * gasPrice + value > senderBalance)
{
TraceLogInvalidTx(transaction, $"INSUFFICIENT_SENDER_BALANCE: ({sender})_BALANCE = {senderBalance}");
QuickFail(transaction, block, txTracer, "insufficient sender balance");
return;
}
if (transaction.Nonce != _stateProvider.GetNonce(sender))
{
TraceLogInvalidTx(transaction, $"WRONG_TRANSACTION_NONCE: {transaction.Nonce} (expected {_stateProvider.GetNonce(sender)})");
QuickFail(transaction, block, txTracer, "wrong transaction nonce");
return;
}
_stateProvider.IncrementNonce(sender);
}
UInt256 senderReservedGasPayment = isCall ? UInt256.Zero : (ulong)gasLimit * gasPrice;
_stateProvider.SubtractFromBalance(sender, senderReservedGasPayment, spec);
_stateProvider.Commit(spec, txTracer.IsTracingState ? txTracer : null);
long unspentGas = gasLimit - intrinsicGas;
long spentGas = gasLimit;
int stateSnapshot = _stateProvider.TakeSnapshot();
int storageSnapshot = _storageProvider.TakeSnapshot();
_stateProvider.SubtractFromBalance(sender, value, spec);
byte statusCode = StatusCode.Failure;
TransactionSubstate substate = null;
try
{
if (transaction.IsContractCreation)
{
recipient = transaction.IsSystem()
? transaction.SenderAddress
: ContractAddress.From(sender, _stateProvider.GetNonce(sender) - 1);
if (_stateProvider.AccountExists(recipient))
{
if (_virtualMachine.GetCachedCodeInfo(recipient, spec).MachineCode.Length != 0 || _stateProvider.GetNonce(recipient) != 0)
{
if (_logger.IsTrace)
{
_logger.Trace($"Contract collision at {recipient}"); // the account already owns the contract with the code
}
throw new TransactionCollisionException();
}
_stateProvider.UpdateStorageRoot(recipient, Keccak.EmptyTreeHash);
}
}
ExecutionEnvironment env = new ExecutionEnvironment();
env.Value = value;
env.TransferValue = value;
env.Sender = sender;
env.CodeSource = recipient;
env.ExecutingAccount = recipient;
env.CurrentBlock = block;
env.GasPrice = gasPrice;
env.InputData = data ?? Array.Empty <byte>();
env.CodeInfo = machineCode == null?_virtualMachine.GetCachedCodeInfo(recipient, spec) : new CodeInfo(machineCode);
env.Originator = sender;
ExecutionType executionType = transaction.IsContractCreation ? ExecutionType.Create : ExecutionType.Call;
using (EvmState state = new EvmState(unspentGas, env, executionType, true, false))
{
substate = _virtualMachine.Run(state, txTracer);
unspentGas = state.GasAvailable;
}
if (substate.ShouldRevert || substate.IsError)
{
if (_logger.IsTrace)
{
_logger.Trace("Restoring state from before transaction");
}
_stateProvider.Restore(stateSnapshot);
_storageProvider.Restore(storageSnapshot);
}
else
{
// tks: there is similar code fo contract creation from init and from CREATE
// this may lead to inconsistencies (however it is tested extensively in blockchain tests)
if (transaction.IsContractCreation)
{
long codeDepositGasCost = CodeDepositHandler.CalculateCost(substate.Output.Length, spec);
if (unspentGas < codeDepositGasCost && spec.IsEip2Enabled)
{
throw new OutOfGasException();
}
if (unspentGas >= codeDepositGasCost)
{
Keccak codeHash = _stateProvider.UpdateCode(substate.Output);
_stateProvider.UpdateCodeHash(recipient, codeHash, spec);
unspentGas -= codeDepositGasCost;
}
}
foreach (Address toBeDestroyed in substate.DestroyList)
{
if (_logger.IsTrace)
{
_logger.Trace($"Destroying account {toBeDestroyed}");
}
_storageProvider.ClearStorage(toBeDestroyed);
_stateProvider.DeleteAccount(toBeDestroyed);
if (txTracer.IsTracingRefunds)
{
txTracer.ReportRefund(RefundOf.Destroy);
}
}
statusCode = StatusCode.Success;
}
spentGas = Refund(gasLimit, unspentGas, substate, sender, gasPrice, spec);
}
catch (Exception ex) when(ex is EvmException || ex is OverflowException) // TODO: OverflowException? still needed? hope not
{
if (_logger.IsTrace)
{
_logger.Trace($"EVM EXCEPTION: {ex.GetType().Name}");
}
_stateProvider.Restore(stateSnapshot);
_storageProvider.Restore(storageSnapshot);
}
if (_logger.IsTrace)
{
_logger.Trace("Gas spent: " + spentGas);
}
Address gasBeneficiary = block.GasBeneficiary;
if (statusCode == StatusCode.Failure || !(substate?.DestroyList.Contains(gasBeneficiary) ?? false))
{
if (notSystemTransaction)
{
if (!_stateProvider.AccountExists(gasBeneficiary))
{
_stateProvider.CreateAccount(gasBeneficiary, (ulong)spentGas * gasPrice);
}
else
{
_stateProvider.AddToBalance(gasBeneficiary, (ulong)spentGas * gasPrice, spec);
}
}
}
if (!isCall)
{
_storageProvider.Commit(txTracer.IsTracingState ? txTracer : null);
_stateProvider.Commit(spec, txTracer.IsTracingState ? txTracer : null);
}
else
{
_storageProvider.Reset();
_stateProvider.Reset();
if (wasSenderAccountCreatedInsideACall)
{
_stateProvider.DeleteAccount(sender);
}
else
{
_stateProvider.AddToBalance(sender, senderReservedGasPayment, spec);
if (notSystemTransaction)
{
_stateProvider.DecrementNonce(sender);
}
}
_stateProvider.Commit(spec);
}
if (!isCall && notSystemTransaction)
{
block.GasUsed += spentGas;
}
if (txTracer.IsTracingReceipt)
{
Keccak stateRoot = null;
bool eip658Enabled = _specProvider.GetSpec(block.Number).IsEip658Enabled;
if (!eip658Enabled)
{
_stateProvider.RecalculateStateRoot();
stateRoot = _stateProvider.StateRoot;
}
if (statusCode == StatusCode.Failure)
{
txTracer.MarkAsFailed(recipient, spentGas, (substate?.ShouldRevert ?? false) ? substate.Output : Array.Empty <byte>(), substate?.Error, stateRoot);
}
else
{
txTracer.MarkAsSuccess(recipient, spentGas, substate.Output, substate.Logs.Any() ? substate.Logs.ToArray() : Array.Empty <LogEntry>(), stateRoot);
}
}
}
private void Execute(Transaction transaction, BlockHeader block, ITxTracer txTracer,
ExecutionOptions executionOptions)
{
bool eip658NotEnabled = !_specProvider.GetSpec(block.Number).IsEip658Enabled;
// restore is CallAndRestore - previous call, we will restore state after the execution
bool restore = (executionOptions & ExecutionOptions.Restore) == ExecutionOptions.Restore;
bool noValidation = (executionOptions & ExecutionOptions.NoValidation) == ExecutionOptions.NoValidation;
// commit - is for standard execute, we will commit thee state after execution
bool commit = (executionOptions & ExecutionOptions.Commit) == ExecutionOptions.Commit || eip658NotEnabled;
//!commit - is for build up during block production, we won't commit state after each transaction to support rollbacks
//we commit only after all block is constructed
bool notSystemTransaction = !transaction.IsSystem();
bool deleteCallerAccount = false;
IReleaseSpec spec = _specProvider.GetSpec(block.Number);
if (!notSystemTransaction)
{
spec = new SystemTransactionReleaseSpec(spec);
}
UInt256 value = transaction.Value;
if (!transaction.TryCalculatePremiumPerGas(block.BaseFeePerGas, out UInt256 premiumPerGas) && !noValidation)
{
TraceLogInvalidTx(transaction, "MINER_PREMIUM_IS_NEGATIVE");
QuickFail(transaction, block, txTracer, eip658NotEnabled, "miner premium is negative");
return;
}
UInt256 effectiveGasPrice =
transaction.CalculateEffectiveGasPrice(spec.IsEip1559Enabled, block.BaseFeePerGas);
long gasLimit = transaction.GasLimit;
byte[] machineCode = transaction.IsContractCreation ? transaction.Data : null;
byte[] data = transaction.IsMessageCall ? transaction.Data : Array.Empty <byte>();
Address?caller = transaction.SenderAddress;
if (_logger.IsTrace)
{
_logger.Trace($"Executing tx {transaction.Hash}");
}
if (caller is null)
{
TraceLogInvalidTx(transaction, "SENDER_NOT_SPECIFIED");
QuickFail(transaction, block, txTracer, eip658NotEnabled, "sender not specified");
return;
}
if (!noValidation && _stateProvider.IsInvalidContractSender(spec, caller))
{
TraceLogInvalidTx(transaction, "SENDER_IS_CONTRACT");
QuickFail(transaction, block, txTracer, eip658NotEnabled, "sender has deployed code");
return;
}
long intrinsicGas = IntrinsicGasCalculator.Calculate(transaction, spec);
if (_logger.IsTrace)
{
_logger.Trace($"Intrinsic gas calculated for {transaction.Hash}: " + intrinsicGas);
}
if (notSystemTransaction)
{
if (gasLimit < intrinsicGas)
{
TraceLogInvalidTx(transaction, $"GAS_LIMIT_BELOW_INTRINSIC_GAS {gasLimit} < {intrinsicGas}");
QuickFail(transaction, block, txTracer, eip658NotEnabled, "gas limit below intrinsic gas");
return;
}
if (!noValidation && gasLimit > block.GasLimit - block.GasUsed)
{
TraceLogInvalidTx(transaction,
$"BLOCK_GAS_LIMIT_EXCEEDED {gasLimit} > {block.GasLimit} - {block.GasUsed}");
QuickFail(transaction, block, txTracer, eip658NotEnabled, "block gas limit exceeded");
return;
}
}
if (!_stateProvider.AccountExists(caller))
{
// hacky fix for the potential recovery issue
if (transaction.Signature != null)
{
transaction.SenderAddress = _ecdsa.RecoverAddress(transaction, !spec.ValidateChainId);
}
if (caller != transaction.SenderAddress)
{
if (_logger.IsWarn)
{
_logger.Warn(
$"TX recovery issue fixed - tx was coming with sender {caller} and the now it recovers to {transaction.SenderAddress}");
}
caller = transaction.SenderAddress;
}
else
{
TraceLogInvalidTx(transaction, $"SENDER_ACCOUNT_DOES_NOT_EXIST {caller}");
if (!commit || noValidation || effectiveGasPrice == UInt256.Zero)
{
deleteCallerAccount = !commit || restore;
_stateProvider.CreateAccount(caller, UInt256.Zero);
}
}
if (caller is null)
{
throw new InvalidDataException(
$"Failed to recover sender address on tx {transaction.Hash} when previously recovered sender account did not exist.");
}
}
UInt256 senderReservedGasPayment = noValidation ? UInt256.Zero : (ulong)gasLimit * effectiveGasPrice;
if (notSystemTransaction)
{
UInt256 senderBalance = _stateProvider.GetBalance(caller);
if (!noValidation && ((ulong)intrinsicGas * effectiveGasPrice + value > senderBalance ||
senderReservedGasPayment + value > senderBalance))
{
TraceLogInvalidTx(transaction,
$"INSUFFICIENT_SENDER_BALANCE: ({caller})_BALANCE = {senderBalance}");
QuickFail(transaction, block, txTracer, eip658NotEnabled, "insufficient sender balance");
return;
}
if (!noValidation && spec.IsEip1559Enabled && !transaction.IsFree() &&
senderBalance < (UInt256)transaction.GasLimit * transaction.MaxFeePerGas + value)
{
TraceLogInvalidTx(transaction,
$"INSUFFICIENT_MAX_FEE_PER_GAS_FOR_SENDER_BALANCE: ({caller})_BALANCE = {senderBalance}, MAX_FEE_PER_GAS: {transaction.MaxFeePerGas}");
QuickFail(transaction, block, txTracer, eip658NotEnabled,
"insufficient MaxFeePerGas for sender balance");
return;
}
if (transaction.Nonce != _stateProvider.GetNonce(caller))
{
TraceLogInvalidTx(transaction,
$"WRONG_TRANSACTION_NONCE: {transaction.Nonce} (expected {_stateProvider.GetNonce(caller)})");
QuickFail(transaction, block, txTracer, eip658NotEnabled, "wrong transaction nonce");
return;
}
_stateProvider.IncrementNonce(caller);
}
_stateProvider.SubtractFromBalance(caller, senderReservedGasPayment, spec);
if (commit)
{
_stateProvider.Commit(spec, txTracer.IsTracingState ? txTracer : NullTxTracer.Instance);
}
long unspentGas = gasLimit - intrinsicGas;
long spentGas = gasLimit;
Snapshot snapshot = _worldState.TakeSnapshot();
_stateProvider.SubtractFromBalance(caller, value, spec);
byte statusCode = StatusCode.Failure;
TransactionSubstate substate = null;
Address?recipientOrNull = null;
try
{
Address?recipient =
transaction.GetRecipient(transaction.IsContractCreation ? _stateProvider.GetNonce(caller) : 0);
if (transaction.IsContractCreation)
{
// if transaction is a contract creation then recipient address is the contract deployment address
Address contractAddress = recipient;
PrepareAccountForContractDeployment(contractAddress !, spec);
}
if (recipient == null)
{
// this transaction is not a contract creation so it should have the recipient known and not null
throw new InvalidDataException("Recipient has not been resolved properly before tx execution");
}
recipientOrNull = recipient;
ExecutionEnvironment env = new();
env.TxExecutionContext = new TxExecutionContext(block, caller, effectiveGasPrice);
env.Value = value;
env.TransferValue = value;
env.Caller = caller;
env.CodeSource = recipient;
env.ExecutingAccount = recipient;
env.InputData = data ?? Array.Empty <byte>();
env.CodeInfo = machineCode == null
? _virtualMachine.GetCachedCodeInfo(_worldState, recipient, spec)
: new CodeInfo(machineCode);
ExecutionType executionType =
transaction.IsContractCreation ? ExecutionType.Create : ExecutionType.Call;
using (EvmState state =
new(unspentGas, env, executionType, true, snapshot, false))
{
if (spec.UseTxAccessLists)
{
state.WarmUp(transaction.AccessList); // eip-2930
}
if (spec.UseHotAndColdStorage)
{
state.WarmUp(caller); // eip-2929
state.WarmUp(recipient); // eip-2929
}
substate = _virtualMachine.Run(state, _worldState, txTracer);
unspentGas = state.GasAvailable;
if (txTracer.IsTracingAccess)
{
txTracer.ReportAccess(state.AccessedAddresses, state.AccessedStorageCells);
}
}
if (substate.ShouldRevert || substate.IsError)
{
if (_logger.IsTrace)
{
_logger.Trace("Restoring state from before transaction");
}
_worldState.Restore(snapshot);
}
else
{
// tks: there is similar code fo contract creation from init and from CREATE
// this may lead to inconsistencies (however it is tested extensively in blockchain tests)
if (transaction.IsContractCreation)
{
long codeDepositGasCost = CodeDepositHandler.CalculateCost(substate.Output.Length, spec);
if (unspentGas < codeDepositGasCost && spec.ChargeForTopLevelCreate)
{
throw new OutOfGasException();
}
if (CodeDepositHandler.CodeIsInvalid(spec, substate.Output))
{
throw new InvalidCodeException();
}
if (unspentGas >= codeDepositGasCost)
{
Keccak codeHash = _stateProvider.UpdateCode(substate.Output);
_stateProvider.UpdateCodeHash(recipient, codeHash, spec);
unspentGas -= codeDepositGasCost;
}
}
foreach (Address toBeDestroyed in substate.DestroyList)
{
if (_logger.IsTrace)
{
_logger.Trace($"Destroying account {toBeDestroyed}");
}
_storageProvider.ClearStorage(toBeDestroyed);
_stateProvider.DeleteAccount(toBeDestroyed);
if (txTracer.IsTracingRefunds)
{
txTracer.ReportRefund(RefundOf.Destroy(spec.IsEip3529Enabled));
}
}
statusCode = StatusCode.Success;
}
spentGas = Refund(gasLimit, unspentGas, substate, caller, effectiveGasPrice, spec);
}
catch (Exception ex) when(
ex is EvmException || ex is OverflowException) // TODO: OverflowException? still needed? hope not
{
if (_logger.IsTrace)
{
_logger.Trace($"EVM EXCEPTION: {ex.GetType().Name}");
}
_worldState.Restore(snapshot);
}
if (_logger.IsTrace)
{
_logger.Trace("Gas spent: " + spentGas);
}
Address gasBeneficiary = block.GasBeneficiary;
bool gasBeneficiaryNotDestroyed = substate?.DestroyList.Contains(gasBeneficiary) != true;
if (statusCode == StatusCode.Failure || gasBeneficiaryNotDestroyed)
{
if (notSystemTransaction)
{
UInt256 fees = (ulong)spentGas * premiumPerGas;
if (_stateProvider.AccountExists(gasBeneficiary))
{
_stateProvider.AddToBalance(gasBeneficiary, fees, spec);
}
else
{
_stateProvider.CreateAccount(gasBeneficiary, fees);
}
if (!transaction.IsFree() && spec.IsEip1559Enabled && spec.Eip1559FeeCollector is not null)
{
UInt256 burntFees = (ulong)spentGas * block.BaseFeePerGas;
if (!burntFees.IsZero)
{
if (_stateProvider.AccountExists(spec.Eip1559FeeCollector))
{
_stateProvider.AddToBalance(spec.Eip1559FeeCollector, burntFees, spec);
}
else
{
_stateProvider.CreateAccount(spec.Eip1559FeeCollector, burntFees);
}
}
}
}
}
if (restore)
{
_storageProvider.Reset();
_stateProvider.Reset();
if (deleteCallerAccount)
{
_stateProvider.DeleteAccount(caller);
}
else
{
_stateProvider.AddToBalance(caller, senderReservedGasPayment, spec);
if (notSystemTransaction)
{
_stateProvider.DecrementNonce(caller);
}
_stateProvider.Commit(spec);
}
}
else if (commit)
{
_storageProvider.Commit(txTracer.IsTracingState ? txTracer : NullStorageTracer.Instance);
_stateProvider.Commit(spec, txTracer.IsTracingState ? txTracer : NullStateTracer.Instance);
}
if (!noValidation && notSystemTransaction)
{
block.GasUsed += spentGas;
}
if (txTracer.IsTracingReceipt)
{
Keccak stateRoot = null;
if (eip658NotEnabled)
{
_stateProvider.RecalculateStateRoot();
stateRoot = _stateProvider.StateRoot;
}
if (statusCode == StatusCode.Failure)
{
txTracer.MarkAsFailed(recipientOrNull, spentGas,
(substate?.ShouldRevert ?? false) ? substate.Output.ToArray() : Array.Empty <byte>(),
substate?.Error, stateRoot);
}
else
{
txTracer.MarkAsSuccess(recipientOrNull, spentGas, substate.Output.ToArray(),
substate.Logs.Any() ? substate.Logs.ToArray() : Array.Empty <LogEntry>(), stateRoot);
}
}
}
public TransactionReceipt Execute(
Transaction transaction,
BlockHeader block)
{
TransactionTrace trace = null;
if (_tracer.IsTracingEnabled)
{
trace = new TransactionTrace();
}
IReleaseSpec spec = _specProvider.GetSpec(block.Number);
Address recipient = transaction.To;
BigInteger value = transaction.Value;
BigInteger gasPrice = transaction.GasPrice;
long gasLimit = (long)transaction.GasLimit;
byte[] machineCode = transaction.Init;
byte[] data = transaction.Data ?? Bytes.Empty;
Address sender = transaction.SenderAddress;
if (_logger.IsDebugEnabled)
{
_logger.Debug($"SPEC: {spec.GetType().Name}");
_logger.Debug("HASH: " + transaction.Hash);
_logger.Debug("IS_CONTRACT_CREATION: " + transaction.IsContractCreation);
_logger.Debug("IS_MESSAGE_CALL: " + transaction.IsMessageCall);
_logger.Debug("IS_TRANSFER: " + transaction.IsTransfer);
_logger.Debug("SENDER: " + sender);
_logger.Debug("TO: " + transaction.To);
_logger.Debug("GAS LIMIT: " + transaction.GasLimit);
_logger.Debug("GAS PRICE: " + transaction.GasPrice);
_logger.Debug("VALUE: " + transaction.Value);
_logger.Debug("DATA_LENGTH: " + (transaction.Data?.Length ?? 0));
_logger.Debug("NONCE: " + transaction.Nonce);
}
if (sender == null)
{
if (_logger.IsDebugEnabled)
{
_logger.Debug($"SENDER_NOT_SPECIFIED");
}
return(GetNullReceipt(block, 0L));
}
long intrinsicGas = _intrinsicGasCalculator.Calculate(transaction, spec);
if (_logger.IsDebugEnabled)
{
_logger.Debug("INTRINSIC GAS: " + intrinsicGas);
}
if (gasLimit < intrinsicGas)
{
if (_logger.IsDebugEnabled)
{
_logger.Debug($"GAS_LIMIT_BELOW_INTRINSIC_GAS {gasLimit} < {intrinsicGas}");
}
return(GetNullReceipt(block, 0L));
}
if (gasLimit > block.GasLimit - block.GasUsed)
{
if (_logger.IsDebugEnabled)
{
_logger.Debug($"BLOCK_GAS_LIMIT_EXCEEDED {gasLimit} > {block.GasLimit} - {block.GasUsed}");
}
return(GetNullReceipt(block, 0L));
}
if (!_stateProvider.AccountExists(sender))
{
if (_logger.IsDebugEnabled)
{
_logger.Debug($"SENDER_ACCOUNT_DOES_NOT_EXIST {sender}");
}
_stateProvider.CreateAccount(sender, 0);
}
BigInteger senderBalance = _stateProvider.GetBalance(sender);
if (intrinsicGas * gasPrice + value > senderBalance)
{
if (_logger.IsDebugEnabled)
{
_logger.Debug($"INSUFFICIENT_SENDER_BALANCE: ({sender})b = {senderBalance}");
}
return(GetNullReceipt(block, 0L));
}
if (transaction.Nonce != _stateProvider.GetNonce(sender))
{
if (_logger.IsDebugEnabled)
{
_logger.Debug($"WRONG_TRANSACTION_NONCE: {transaction.Nonce} (expected {_stateProvider.GetNonce(sender)})");
}
return(GetNullReceipt(block, 0L));
}
_stateProvider.IncrementNonce(sender);
_stateProvider.UpdateBalance(sender, -new BigInteger(gasLimit) * gasPrice, spec);
_stateProvider.Commit(spec);
long unspentGas = gasLimit - intrinsicGas;
long spentGas = gasLimit;
List <LogEntry> logEntries = new List <LogEntry>();
if (transaction.IsContractCreation)
{
Rlp addressBaseRlp = Rlp.Encode(
Rlp.Encode(sender),
Rlp.Encode(_stateProvider.GetNonce(sender) - 1));
Keccak addressBaseKeccak = Keccak.Compute(addressBaseRlp);
recipient = new Address(addressBaseKeccak);
}
int snapshot = _stateProvider.TakeSnapshot();
int storageSnapshot = _storageProvider.TakeSnapshot();
_stateProvider.UpdateBalance(sender, -value, spec);
byte statusCode = StatusCode.Failure;
HashSet <Address> destroyedAccounts = new HashSet <Address>();
try
{
if (transaction.IsContractCreation)
{
// TODO: review tests around it as it fails on Ropsten 230881 when we throw an exception
if (_stateProvider.AccountExists(recipient) && !_stateProvider.IsEmptyAccount(recipient))
{
// TODO: review
// throw new TransactionCollisionException();
}
}
if (transaction.IsTransfer) // TODO: this is never called and wrong, to be removed
{
_stateProvider.UpdateBalance(sender, -value, spec);
_stateProvider.UpdateBalance(recipient, value, spec);
statusCode = StatusCode.Success;
}
else
{
bool isPrecompile = recipient.IsPrecompiled(spec);
ExecutionEnvironment env = new ExecutionEnvironment();
env.Value = value;
env.TransferValue = value;
env.Sender = sender;
env.ExecutingAccount = recipient;
env.CurrentBlock = block;
env.GasPrice = gasPrice;
env.InputData = data ?? new byte[0];
env.CodeInfo = isPrecompile ? new CodeInfo(recipient) : machineCode == null?_virtualMachine.GetCachedCodeInfo(recipient) : new CodeInfo(machineCode);
env.Originator = sender;
ExecutionType executionType = isPrecompile
? ExecutionType.DirectPrecompile
: transaction.IsContractCreation
? ExecutionType.DirectCreate
: ExecutionType.Transaction;
TransactionSubstate substate;
byte[] output;
using (EvmState state = new EvmState(unspentGas, env, executionType, false))
{
(output, substate) = _virtualMachine.Run(state, spec, trace);
unspentGas = state.GasAvailable;
}
if (substate.ShouldRevert)
{
if (_logger.IsDebugEnabled)
{
_logger.Debug("REVERTING");
}
logEntries.Clear();
destroyedAccounts.Clear();
_stateProvider.Restore(snapshot);
_storageProvider.Restore(storageSnapshot);
}
else
{
if (transaction.IsContractCreation)
{
long codeDepositGasCost = output.Length * GasCostOf.CodeDeposit;
if (spec.IsEip170Enabled && output.Length > 0x6000)
{
codeDepositGasCost = long.MaxValue;
}
if (unspentGas < codeDepositGasCost && spec.IsEip2Enabled)
{
throw new OutOfGasException();
}
if (unspentGas >= codeDepositGasCost)
{
Keccak codeHash = _stateProvider.UpdateCode(output);
_stateProvider.UpdateCodeHash(recipient, codeHash, spec);
unspentGas -= codeDepositGasCost;
}
}
logEntries.AddRange(substate.Logs);
foreach (Address toBeDestroyed in substate.DestroyList)
{
destroyedAccounts.Add(toBeDestroyed);
}
statusCode = StatusCode.Success;
}
spentGas = Refund(gasLimit, unspentGas, substate, sender, gasPrice, spec);
}
}
catch (Exception ex) when(ex is EvmException || ex is OverflowException) // TODO: OverflowException? still needed? hope not
{
if (_logger.IsDebugEnabled)
{
_logger.Debug($"EVM EXCEPTION: {ex.GetType().Name}");
}
logEntries.Clear();
destroyedAccounts.Clear();
_stateProvider.Restore(snapshot);
_storageProvider.Restore(storageSnapshot);
}
foreach (Address toBeDestroyed in destroyedAccounts)
{
if (_logger.IsDebugEnabled)
{
_logger.Debug($"DESTROYING: {toBeDestroyed}");
}
_stateProvider.DeleteAccount(toBeDestroyed);
}
if (_logger.IsDebugEnabled)
{
_logger.Debug("GAS SPENT: " + spentGas);
}
if (!destroyedAccounts.Contains(block.Beneficiary))
{
if (!_stateProvider.AccountExists(block.Beneficiary))
{
_stateProvider.CreateAccount(block.Beneficiary, spentGas * gasPrice);
}
else
{
_stateProvider.UpdateBalance(block.Beneficiary, spentGas * gasPrice, spec);
}
}
_storageProvider.Commit(spec);
_stateProvider.Commit(spec);
block.GasUsed += spentGas;
if (_tracer.IsTracingEnabled)
{
trace.Gas = spentGas;
_tracer.SaveTrace(Transaction.CalculateHash(transaction), trace);
}
return(BuildTransactionReceipt(statusCode, logEntries.Any() ? logEntries.ToArray() : LogEntry.EmptyLogs, block.GasUsed, recipient));
}
private void LoadGenesisBlock(Keccak expectedGenesisHash)
{
// if we already have a database with blocks then we do not need to load genesis from spec
if (_blockTree.Genesis != null)
{
ValidateGenesisHash(expectedGenesisHash);
return;
}
Block genesis = _chainSpec.Genesis;
CreateSystemAccounts();
foreach ((Address address, ChainSpecAllocation allocation) in _chainSpec.Allocations)
{
_stateProvider.CreateAccount(address, allocation.Balance);
if (allocation.Code != null)
{
Keccak codeHash = _stateProvider.UpdateCode(allocation.Code);
_stateProvider.UpdateCodeHash(address, codeHash, _specProvider.GenesisSpec);
}
if (allocation.Constructor != null)
{
Transaction constructorTransaction = new Transaction(true)
{
SenderAddress = address,
Init = allocation.Constructor,
GasLimit = genesis.GasLimit
};
_transactionProcessor.Execute(constructorTransaction, genesis.Header, NullTxTracer.Instance);
}
}
_storageProvider.Commit();
_stateProvider.Commit(_specProvider.GenesisSpec);
_storageProvider.CommitTrees();
_stateProvider.CommitTree();
_dbProvider.StateDb.Commit();
_dbProvider.CodeDb.Commit();
genesis.StateRoot = _stateProvider.StateRoot;
genesis.Hash = BlockHeader.CalculateHash(genesis.Header);
ManualResetEventSlim genesisProcessedEvent = new ManualResetEventSlim(false);
bool genesisLoaded = false;
void GenesisProcessed(object sender, BlockEventArgs args)
{
genesisLoaded = true;
_blockTree.NewHeadBlock -= GenesisProcessed;
genesisProcessedEvent.Set();
}
_blockTree.NewHeadBlock += GenesisProcessed;
_blockTree.SuggestBlock(genesis);
genesisProcessedEvent.Wait(TimeSpan.FromSeconds(5));
if (!genesisLoaded)
{
throw new BlockchainException("Genesis block processing failure");
}
ValidateGenesisHash(expectedGenesisHash);
}
public void Execute(Transaction transaction, BlockHeader block, ITxTracer txTracer, bool readOnly)
{
IReleaseSpec spec = _specProvider.GetSpec(block.Number);
Address recipient = transaction.To;
UInt256 value = transaction.Value;
UInt256 gasPrice = transaction.GasPrice;
long gasLimit = (long)transaction.GasLimit;
byte[] machineCode = transaction.Init;
byte[] data = transaction.Data ?? Bytes.Empty;
Address sender = transaction.SenderAddress;
if (_logger.IsTrace)
{
_logger.Trace($"Executing tx {transaction.Hash}");
}
if (sender == null)
{
TraceLogInvalidTx(transaction, "SENDER_NOT_SPECIFIED");
if (txTracer.IsTracingReceipt)
{
txTracer.MarkAsFailed(recipient, (long)transaction.GasLimit);
}
return;
}
long intrinsicGas = _intrinsicGasCalculator.Calculate(transaction, spec);
if (_logger.IsTrace)
{
_logger.Trace($"Intrinsic gas calculated for {transaction.Hash}: " + intrinsicGas);
}
if (gasLimit < intrinsicGas)
{
TraceLogInvalidTx(transaction, $"GAS_LIMIT_BELOW_INTRINSIC_GAS {gasLimit} < {intrinsicGas}");
if (txTracer.IsTracingReceipt)
{
txTracer.MarkAsFailed(recipient, (long)transaction.GasLimit);
}
return;
}
if (gasLimit > block.GasLimit - block.GasUsed)
{
TraceLogInvalidTx(transaction, $"BLOCK_GAS_LIMIT_EXCEEDED {gasLimit} > {block.GasLimit} - {block.GasUsed}");
if (txTracer.IsTracingReceipt)
{
txTracer.MarkAsFailed(recipient, (long)transaction.GasLimit);
}
return;
}
if (!_stateProvider.AccountExists(sender))
{
TraceLogInvalidTx(transaction, $"SENDER_ACCOUNT_DOES_NOT_EXIST {sender}");
if (gasPrice == UInt256.Zero)
{
_stateProvider.CreateAccount(sender, UInt256.Zero);
}
}
UInt256 senderBalance = _stateProvider.GetBalance(sender);
if ((ulong)intrinsicGas * gasPrice + value > senderBalance)
{
TraceLogInvalidTx(transaction, $"INSUFFICIENT_SENDER_BALANCE: ({sender})_BALANCE = {senderBalance}");
if (txTracer.IsTracingReceipt)
{
txTracer.MarkAsFailed(recipient, (long)transaction.GasLimit);
}
return;
}
if (transaction.Nonce != _stateProvider.GetNonce(sender))
{
TraceLogInvalidTx(transaction, $"WRONG_TRANSACTION_NONCE: {transaction.Nonce} (expected {_stateProvider.GetNonce(sender)})");
if (txTracer.IsTracingReceipt)
{
txTracer.MarkAsFailed(recipient, (long)transaction.GasLimit);
}
return;
}
_stateProvider.IncrementNonce(sender);
_stateProvider.SubtractFromBalance(sender, (ulong)gasLimit * gasPrice, spec);
// TODO: I think we can skip this commit and decrease the tree operations this way
_stateProvider.Commit(_specProvider.GetSpec(block.Number), txTracer.IsTracingState ? txTracer : null);
long unspentGas = gasLimit - intrinsicGas;
long spentGas = gasLimit;
int stateSnapshot = _stateProvider.TakeSnapshot();
int storageSnapshot = _storageProvider.TakeSnapshot();
_stateProvider.SubtractFromBalance(sender, value, spec);
byte statusCode = StatusCode.Failure;
TransactionSubstate substate = null;
try
{
if (transaction.IsContractCreation)
{
recipient = Address.OfContract(sender, _stateProvider.GetNonce(sender) - 1);
if (_stateProvider.AccountExists(recipient))
{
if ((_virtualMachine.GetCachedCodeInfo(recipient)?.MachineCode?.Length ?? 0) != 0 || _stateProvider.GetNonce(recipient) != 0)
{
if (_logger.IsTrace)
{
_logger.Trace($"Contract collision at {recipient}"); // the account already owns the contract with the code
}
throw new TransactionCollisionException();
}
_stateProvider.UpdateStorageRoot(recipient, Keccak.EmptyTreeHash);
}
}
bool isPrecompile = recipient.IsPrecompiled(spec);
ExecutionEnvironment env = new ExecutionEnvironment();
env.Value = value;
env.TransferValue = value;
env.Sender = sender;
env.ExecutingAccount = recipient;
env.CurrentBlock = block;
env.GasPrice = gasPrice;
env.InputData = data ?? new byte[0];
env.CodeInfo = isPrecompile ? new CodeInfo(recipient) : machineCode == null?_virtualMachine.GetCachedCodeInfo(recipient) : new CodeInfo(machineCode);
env.Originator = sender;
ExecutionType executionType = transaction.IsContractCreation ? ExecutionType.Create : ExecutionType.Call;
using (EvmState state = new EvmState(unspentGas, env, executionType, isPrecompile, true, false))
{
substate = _virtualMachine.Run(state, spec, txTracer);
unspentGas = state.GasAvailable;
}
if (substate.ShouldRevert || substate.IsError)
{
if (_logger.IsTrace)
{
_logger.Trace("Restoring state from before transaction");
}
_stateProvider.Restore(stateSnapshot);
_storageProvider.Restore(storageSnapshot);
}
else
{
// tks: there is similar code fo contract creation from init and from CREATE
// this may lead to inconsistencies (however it is tested extensively in blockchain tests)
if (transaction.IsContractCreation)
{
long codeDepositGasCost = substate.Output.Length * GasCostOf.CodeDeposit;
if (spec.IsEip170Enabled && substate.Output.Length > 0x6000)
{
codeDepositGasCost = long.MaxValue;
}
if (unspentGas < codeDepositGasCost && spec.IsEip2Enabled)
{
throw new OutOfGasException();
}
if (unspentGas >= codeDepositGasCost)
{
Keccak codeHash = _stateProvider.UpdateCode(substate.Output);
_stateProvider.UpdateCodeHash(recipient, codeHash, spec);
unspentGas -= codeDepositGasCost;
}
}
foreach (Address toBeDestroyed in substate.DestroyList)
{
if (_logger.IsTrace)
{
_logger.Trace($"Destroying account {toBeDestroyed}");
}
_stateProvider.DeleteAccount(toBeDestroyed);
}
statusCode = StatusCode.Success;
}
spentGas = Refund(gasLimit, unspentGas, substate, sender, gasPrice, spec);
}
catch (Exception ex) when(ex is EvmException || ex is OverflowException) // TODO: OverflowException? still needed? hope not
{
if (_logger.IsTrace)
{
_logger.Trace($"EVM EXCEPTION: {ex.GetType().Name}");
}
_stateProvider.Restore(stateSnapshot);
_storageProvider.Restore(storageSnapshot);
}
if (_logger.IsTrace)
{
_logger.Trace("Gas spent: " + spentGas);
}
Address gasBeneficiary = block.GasBeneficiary;
if (statusCode == StatusCode.Failure || !(substate?.DestroyList.Contains(gasBeneficiary) ?? false))
{
if (!_stateProvider.AccountExists(gasBeneficiary))
{
_stateProvider.CreateAccount(gasBeneficiary, (ulong)spentGas * gasPrice);
}
else
{
_stateProvider.AddToBalance(gasBeneficiary, (ulong)spentGas * gasPrice, spec);
}
}
if (!readOnly)
{
_storageProvider.Commit(txTracer.IsTracingState ? txTracer : null);
_stateProvider.Commit(spec, txTracer.IsTracingState ? txTracer : null);
}
else
{
_storageProvider.Reset();
_stateProvider.Reset();
}
if (!readOnly)
{
block.GasUsed += spentGas;
}
if (txTracer.IsTracingReceipt)
{
if (statusCode == StatusCode.Failure)
{
txTracer.MarkAsFailed(recipient, (long)transaction.GasLimit);
}
else
{
txTracer.MarkAsSuccess(recipient, spentGas, substate.Output, substate.Logs.Any() ? substate.Logs.ToArray() : LogEntry.EmptyLogs);
}
}
}