def construct_invoke_tx(wallet, params): params = params[0] from_addr = params['from_addr'] BC = GetBlockchain() contract = BC.GetContract(params['addr']) if not contract: raise Exception('no such contract') neo_to_attach = params.get('neo_to_attach', 0) gas_to_attach = params.get('gas_to_attach', 0) sb = ScriptBuilder() contract_parameters = [ContractParameter.FromJson(p) for p in params['contract_params']] sb.EmitAppCallWithJsonArgs(contract.Code.ScriptHash(), contract_parameters) invoke_script = sb.ToArray() outputs = [] if neo_to_attach: output = TransactionOutput(AssetId=Blockchain.SystemShare().Hash, Value=neo_to_attach, script_hash=contract.Code.ScriptHash(), ) outputs.append(output) if gas_to_attach: output = TransactionOutput(AssetId=Blockchain.SystemCoin().Hash, Value=gas_to_attach, script_hash=contract.Code.ScriptHash(), ) outputs.append(output) bc = GetBlockchain() sn = bc._db.snapshot() accounts = DBCollection(bc._db, sn, DBPrefix.ST_Account, AccountState) assets = DBCollection(bc._db, sn, DBPrefix.ST_Asset, AssetState) validators = DBCollection(bc._db, sn, DBPrefix.ST_Validator, ValidatorState) contracts = DBCollection(bc._db, sn, DBPrefix.ST_Contract, ContractState) storages = DBCollection(bc._db, sn, DBPrefix.ST_Storage, StorageItem) tx = InvocationTransaction() tx.outputs = outputs tx.inputs = [] tx.Version = 1 tx.scripts = [] tx.Script = binascii.unhexlify(invoke_script) script_table = CachedScriptTable(contracts) service = StateMachine(accounts, validators, assets, contracts, storages, None) contract = wallet.GetDefaultContract() tx.Attributes = [TransactionAttribute(usage=TransactionAttributeUsage.Script, data=Crypto.ToScriptHash(contract.Script, unhex=False).Data)] tx = wallet.MakeTransaction(tx=tx) engine = ApplicationEngine( trigger_type=TriggerType.Application, container=tx, table=script_table, service=service, gas=tx.Gas, testMode=True ) engine.LoadScript(tx.Script, False) success = engine.Execute() if not success: raise Exception('exec failed') service.ExecutionCompleted(engine, success) consumed = engine.GasConsumed() - Fixed8.FromDecimal(10) consumed = consumed.Ceil() net_fee = None tx_gas = None if consumed <= Fixed8.Zero(): net_fee = Fixed8.FromDecimal(.0001) tx_gas = Fixed8.Zero() else: tx_gas = consumed net_fee = Fixed8.Zero() tx.Gas = tx_gas tx.outputs = outputs tx.Attributes = [] # InvokeContract from_addr = lookup_addr_str(wallet, from_addr) tx = wallet.MakeTransaction(tx=tx, fee=net_fee, use_standard=True, from_addr=from_addr) if tx is None: raise Exception("no gas") context = ContractParametersContext(tx) ms = StreamManager.GetStream() writer = BinaryWriter(ms) tx.Serialize(writer) ms.flush() binary_tx = ms.ToArray() return {'context': context.ToJson(), 'tx': binary_tx.decode()}
def GetStorageItem(self, storage_key): sn = self._db.snapshot() storages = DBCollection(self._db, sn, DBPrefix.ST_Storage, StorageItem) item = storages.TryGet(storage_key.ToArray()) sn.close() return item
def Persist(self, block): sn = self._db.snapshot() accounts = DBCollection(self._db, sn, DBPrefix.ST_Account, AccountState) unspentcoins = DBCollection(self._db, sn, DBPrefix.ST_Coin, UnspentCoinState) spentcoins = DBCollection(self._db, sn, DBPrefix.ST_SpentCoin, SpentCoinState) assets = DBCollection(self._db, sn, DBPrefix.ST_Asset, AssetState) validators = DBCollection(self._db, sn, DBPrefix.ST_Validator, ValidatorState) contracts = DBCollection(self._db, sn, DBPrefix.ST_Contract, ContractState) storages = DBCollection(self._db, sn, DBPrefix.ST_Storage, StorageItem) amount_sysfee = (self.GetSysFeeAmount(block.PrevHash).value + block.TotalFees().value).to_bytes(8, 'little') with self._db.write_batch() as wb: for tx in block.Transactions: unspentcoinstate = UnspentCoinState.FromTXOutputsConfirmed( tx.outputs) unspentcoins.Add(tx.Hash.ToBytes(), unspentcoinstate) # go through all the accounts in the tx outputs for output in tx.outputs: account = accounts.GetAndChange( output.AddressBytes, AccountState(output.ScriptHash)) if account.HasBalance(output.AssetId): account.AddToBalance(output.AssetId, output.Value) else: account.SetBalanceFor(output.AssetId, output.Value) # go through all tx inputs unique_tx_input_hashes = [] for input in tx.inputs: if not input.PrevHash in unique_tx_input_hashes: unique_tx_input_hashes.append(input.PrevHash) for txhash in unique_tx_input_hashes: prevTx, height = self.GetTransaction(txhash.ToBytes()) coin_refs_by_hash = [ coinref for coinref in tx.inputs if coinref.PrevHash.ToBytes() == txhash.ToBytes() ] for input in coin_refs_by_hash: uns = unspentcoins.GetAndChange( input.PrevHash.ToBytes()) uns.OrEqValueForItemAt(input.PrevIndex, CoinState.Spent) if prevTx.outputs[input.PrevIndex].AssetId.ToBytes( ) == Blockchain.SystemShare().Hash.ToBytes(): sc = spentcoins.GetAndChange( input.PrevHash.ToBytes(), SpentCoinState(input.PrevHash, height, [])) sc.Items.append( SpentCoinItem(input.PrevIndex, block.Index)) output = prevTx.outputs[input.PrevIndex] acct = accounts.GetAndChange( prevTx.outputs[input.PrevIndex].AddressBytes, AccountState(output.ScriptHash)) assetid = prevTx.outputs[input.PrevIndex].AssetId acct.SubtractFromBalance( assetid, prevTx.outputs[input.PrevIndex].Value) # do a whole lotta stuff with tx here... if tx.Type == TransactionType.RegisterTransaction: asset = AssetState(tx.Hash, tx.AssetType, tx.Name, tx.Amount, Fixed8(0), tx.Precision, Fixed8(0), Fixed8(0), UInt160(data=bytearray(20)), tx.Owner, tx.Admin, tx.Admin, block.Index + 2 * 2000000, False) assets.Add(tx.Hash.ToBytes(), asset) elif tx.Type == TransactionType.IssueTransaction: txresults = [ result for result in tx.GetTransactionResults() if result.Amount.value < 0 ] for result in txresults: asset = assets.GetAndChange(result.AssetId.ToBytes()) asset.Available = asset.Available - result.Amount elif tx.Type == TransactionType.ClaimTransaction: for input in tx.Claims: sc = spentcoins.TryGet(input.PrevHash.ToBytes()) if sc and sc.HasIndex(input.PrevIndex): sc.DeleteIndex(input.PrevIndex) spentcoins.GetAndChange(input.PrevHash.ToBytes()) elif tx.Type == TransactionType.EnrollmentTransaction: validator = validators.GetAndChange( tx.PublicKey, ValidatorState(pub_key=tx.PublicKey)) # print("VALIDATOR %s " % validator.ToJson()) elif tx.Type == TransactionType.PublishTransaction: contract = ContractState(tx.Code, tx.NeedStorage, tx.Name, tx.CodeVersion, tx.Author, tx.Email, tx.Description) contracts.GetAndChange(tx.Code.ScriptHash().ToBytes(), contract) elif tx.Type == TransactionType.InvocationTransaction: script_table = CachedScriptTable(contracts) service = StateMachine(accounts, validators, assets, contracts, storages, wb=wb) engine = ApplicationEngine( trigger_type=TriggerType.Application, container=tx, table=script_table, service=service, gas=tx.Gas, testMode=True) engine.LoadScript(tx.Script, False) # normally, this function does not return true/false # for testing purposes, we try to execute and if an exception is raised # we will return false, otherwise if success return true # this is different than the 'success' bool returned by engine.Execute() # the 'success' bool returned by engine.Execute() is a value indicating # wether or not the invocation was successful, and if so, we then commit # the changes made by the contract to the database try: success = engine.Execute() if success: service.Commit() return True except Exception as e: print("could not execute %s " % e) return False
def construct_deploy_tx(wallet, params): params = params[0] from_addr = params['from_addr'] # load_smart_contract contract_params = bytearray(binascii.unhexlify(params['contract_params'])) return_type = bytearray(binascii.unhexlify(params['return_type'])) contract_properties = 0 if params.get('needs_storage', True): contract_properties += ContractPropertyState.HasStorage if params.get('needs_dynamic_invoke', False): contract_properties += ContractPropertyState.HasDynamicInvoke script = binascii.unhexlify(params['bin']) function_code = FunctionCode( script = script, param_list = contract_params, return_type = return_type, contract_properties = contract_properties, ) if Blockchain.Default().GetContract(function_code.ScriptHash().To0xString()): raise Exception('contract already exists') # GatherContractDetails details = params['details'] name = details['name'] version = details['version'] author = details['author'] email = details['email'] description = details['description'] contract_script = generate_deploy_script( function_code.Script, name, version, author, email, description, function_code.ContractProperties, function_code.ReturnType, function_code.ParameterList, ) # test_invoke bc = GetBlockchain() sn = bc._db.snapshot() accounts = DBCollection(bc._db, sn, DBPrefix.ST_Account, AccountState) assets = DBCollection(bc._db, sn, DBPrefix.ST_Asset, AssetState) validators = DBCollection(bc._db, sn, DBPrefix.ST_Validator, ValidatorState) contracts = DBCollection(bc._db, sn, DBPrefix.ST_Contract, ContractState) storages = DBCollection(bc._db, sn, DBPrefix.ST_Storage, StorageItem) tx = InvocationTransaction() tx.outputs = [] tx.inputs = [] tx.Version = 1 tx.scripts = [] tx.Script = binascii.unhexlify(contract_script) script_table = CachedScriptTable(contracts) service = StateMachine(accounts, validators, assets, contracts, storages, None) contract = wallet.GetDefaultContract() tx.Attributes = [TransactionAttribute(usage=TransactionAttributeUsage.Script, data=Crypto.ToScriptHash(contract.Script, unhex=False).Data)] tx = wallet.MakeTransaction(tx=tx) engine = ApplicationEngine( trigger_type=TriggerType.Application, container=tx, table=script_table, service=service, gas=tx.Gas, testMode=True ) engine.LoadScript(tx.Script, False) success = engine.Execute() if not success: raise Exception('exec failed') service.ExecutionCompleted(engine, success) consumed = engine.GasConsumed() - Fixed8.FromDecimal(10) consumed = consumed.Ceil() net_fee = None tx_gas = None if consumed <= Fixed8.Zero(): net_fee = Fixed8.FromDecimal(.0001) tx_gas = Fixed8.Zero() else: tx_gas = consumed net_fee = Fixed8.Zero() tx.Gas = tx_gas tx.outputs = [] tx.Attributes = [] # InvokeContract from_addr = lookup_addr_str(wallet, from_addr) tx = wallet.MakeTransaction(tx=tx, fee=net_fee, use_standard=True, from_addr=from_addr) if tx is None: raise Exception("no gas") context = ContractParametersContext(tx) ms = StreamManager.GetStream() writer = BinaryWriter(ms) tx.Serialize(writer) ms.flush() binary_tx = ms.ToArray() return {'context': context.ToJson(), 'tx': binary_tx.decode(), 'hash': function_code.ScriptHash().To0xString()}
def GetStorageItem(self, storage_key): storages = DBCollection(self._db, DBPrefix.ST_Storage, StorageItem) item = storages.TryGet(storage_key.ToArray()) return item
def Persist(self, block): start = time.clock() sn = self._db.snapshot() accounts = DBCollection(self._db, sn, DBPrefix.ST_Account, AccountState) unspentcoins = DBCollection(self._db, sn, DBPrefix.ST_Coin, UnspentCoinState) spentcoins = DBCollection(self._db, sn, DBPrefix.ST_SpentCoin, SpentCoinState) assets = DBCollection(self._db, sn, DBPrefix.ST_Asset, AssetState) validators = DBCollection(self._db, sn, DBPrefix.ST_Validator, ValidatorState) contracts = DBCollection(self._db, sn, DBPrefix.ST_Contract, ContractState) storages = DBCollection(self._db, sn, DBPrefix.ST_Storage, StorageItem) amount_sysfee = (self.GetSysFeeAmount(block.PrevHash).value + block.TotalFees().value).to_bytes(8, 'little') try: with self._db.write_batch() as wb: wb.put(DBPrefix.DATA_Block + block.Hash.ToBytes(), amount_sysfee + block.Trim()) for tx in block.Transactions: wb.put(DBPrefix.DATA_Transaction + tx.Hash.ToBytes(), block.IndexBytes() + tx.ToArray()) #go through all outputs and add unspent coins to them unspentcoinstate = UnspentCoinState.FromTXOutputsConfirmed( tx.outputs) unspentcoins.Add(tx.Hash.ToBytes(), unspentcoinstate) #go through all the accounts in the tx outputs for output in tx.outputs: account = accounts.GetAndChange( output.AddressBytes, AccountState(output.ScriptHash)) if account.HasBalance(output.AssetId): account.AddToBalance(output.AssetId, output.Value) else: account.SetBalanceFor(output.AssetId, output.Value) #go through all tx inputs unique_tx_input_hashes = [] for input in tx.inputs: if not input.PrevHash in unique_tx_input_hashes: unique_tx_input_hashes.append(input.PrevHash) for txhash in unique_tx_input_hashes: prevTx, height = self.GetTransaction(txhash.ToBytes()) coin_refs_by_hash = [ coinref for coinref in tx.inputs if coinref.PrevHash.ToBytes() == txhash.ToBytes() ] for input in coin_refs_by_hash: uns = unspentcoins.GetAndChange( input.PrevHash.ToBytes()) uns.OrEqValueForItemAt(input.PrevIndex, CoinState.Spent) if prevTx.outputs[input.PrevIndex].AssetId.ToBytes( ) == Blockchain.SystemShare().Hash.ToBytes(): sc = spentcoins.GetAndChange( input.PrevHash.ToBytes(), SpentCoinState(input.PrevHash, height, [])) sc.Items.append( SpentCoinItem(input.PrevIndex, block.Index)) output = prevTx.outputs[input.PrevIndex] acct = accounts.GetAndChange( prevTx.outputs[input.PrevIndex].AddressBytes, AccountState(output.ScriptHash)) assetid = prevTx.outputs[input.PrevIndex].AssetId acct.SubtractFromBalance( assetid, prevTx.outputs[input.PrevIndex].Value) #do a whole lotta stuff with tx here... if tx.Type == TransactionType.RegisterTransaction: asset = AssetState(tx.Hash, tx.AssetType, tx.Name, tx.Amount, Fixed8(0), tx.Precision, Fixed8(0), Fixed8(0), UInt160(data=bytearray(20)), tx.Owner, tx.Admin, tx.Admin, block.Index + 2 * 2000000, False) assets.Add(tx.Hash.ToBytes(), asset) elif tx.Type == TransactionType.IssueTransaction: txresults = [ result for result in tx.GetTransactionResults() if result.Amount.value < 0 ] for result in txresults: asset = assets.GetAndChange( result.AssetId.ToBytes()) asset.Available = asset.Available - result.Amount elif tx.Type == TransactionType.ClaimTransaction: for input in tx.Claims: sc = spentcoins.TryGet(input.PrevHash.ToBytes()) if sc and sc.HasIndex(input.PrevIndex): sc.DeleteIndex(input.PrevIndex) spentcoins.GetAndChange( input.PrevHash.ToBytes()) elif tx.Type == TransactionType.EnrollmentTransaction: newvalidator = ValidatorState(pub_key=tx.PublicKey) validators.GetAndChange(tx.PublicKey.ToBytes(), newvalidator) elif tx.Type == TransactionType.PublishTransaction: contract = ContractState(tx.Code, tx.NeedStorage, tx.Name, tx.CodeVersion, tx.Author, tx.Email, tx.Description) contracts.GetAndChange(tx.Code.ScriptHash().ToBytes(), contract) elif tx.Type == TransactionType.InvocationTransaction: # print("RUNNING INVOCATION TRASACTION!!!!!! %s %s " % (block.Index, tx.Hash.ToBytes())) print( "[neo.Implementations.Blockchains.LevelDBBlockchain.PersistBlock: Invoke tx] -> index, tx hash %s %s " % (block.Index, tx.Hash.ToBytes())) script_table = CachedScriptTable(contracts) service = StateMachine(accounts, validators, assets, contracts, storages, wb) engine = ApplicationEngine( trigger_type=TriggerType.Application, container=tx, table=script_table, service=service, gas=tx.Gas, testMode=False) engine.LoadScript(tx.Script, False) try: # drum roll? success = engine.Execute() print( "[neo.Implementations.Blockchains.LevelDBBlockchain.PersistBlock: engine execute] -> Success" ) if success: service.Commit() if len(service.notifications) > 0: for n in service.notifications: self.OnNotify(n) for item in engine.EvaluationStack.Items: print( "[neo.Implementations.Blockchains.LevelDBBlockchain.PersistBlock: engine execute result] -> %s " % item) except Exception as e: print( "[neo.Implementations.Blockchains.LevelDBBlockchain.PersistBlock: engine execute result] Could not execute smart contract. See logs for more details. %s " % e) else: if tx.Type != b'\x00' and tx.Type != 128: self.__log.debug("TX Not Found %s " % tx.Type) # do save all the accounts, unspent, coins, validators, assets, etc # now sawe the current sys block #filter out accounts to delete then commit for key, account in accounts.Current.items(): if not account.IsFrozen and len( account.Votes ) == 0 and account.AllBalancesZeroOrLess(): accounts.Remove(key) accounts.Commit(wb) #filte out unspent coins to delete then commit for key, unspent in unspentcoins.Current.items(): unspentcoins.Remove(key) unspentcoins.Commit(wb) #filter out spent coins to delete then commit to db for key, spent in spentcoins.Current.items(): if len(spent.Items) == 0: spentcoins.Remove(key) spentcoins.Commit(wb) #commit validators validators.Commit(wb) #commit assets assets.Commit(wb) #commit contracts contracts.Commit(wb) #commit storages ( not implemented ) storages.Commit(wb) sn.close() wb.put(DBPrefix.SYS_CurrentBlock, block.Hash.ToBytes() + block.IndexBytes()) self._current_block_height = block.Index end = time.clock() self.__log.debug( "PERSISTING BLOCK %s (cache) %s %s " % (block.Index, len(self._block_cache), end - start)) except Exception as e: print("couldnt persist block %s " % e)
def test_invoke(script, wallet, outputs, withdrawal_tx=None, from_addr=None): # print("invoke script %s " % script) bc = GetBlockchain() sn = bc._db.snapshot() accounts = DBCollection(bc._db, sn, DBPrefix.ST_Account, AccountState) assets = DBCollection(bc._db, sn, DBPrefix.ST_Asset, AssetState) validators = DBCollection(bc._db, sn, DBPrefix.ST_Validator, ValidatorState) contracts = DBCollection(bc._db, sn, DBPrefix.ST_Contract, ContractState) storages = DBCollection(bc._db, sn, DBPrefix.ST_Storage, StorageItem) # if we are using a withdrawal tx, don't recreate the invocation tx # also, we don't want to reset the inputs / outputs # since those were already calculated if withdrawal_tx is not None: tx = withdrawal_tx else: tx = InvocationTransaction() tx.outputs = outputs tx.inputs = [] tx.Version = 1 tx.scripts = [] tx.Script = binascii.unhexlify(script) script_table = CachedScriptTable(contracts) service = StateMachine(accounts, validators, assets, contracts, storages, None) if len(outputs) < 1: contract = wallet.GetDefaultContract() tx.Attributes = [ TransactionAttribute(usage=TransactionAttributeUsage.Script, data=Crypto.ToScriptHash( contract.Script).Data) ] # same as above. we don't want to re-make the transaction if it is a withdrawal tx if withdrawal_tx is not None: wallet_tx = tx else: wallet_tx = wallet.MakeTransaction(tx=tx, from_addr=from_addr) if wallet_tx: context = ContractParametersContext(wallet_tx) wallet.Sign(context) if context.Completed: wallet_tx.scripts = context.GetScripts() engine = ApplicationEngine(trigger_type=TriggerType.Application, container=wallet_tx, table=script_table, service=service, gas=wallet_tx.Gas, testMode=True) engine.LoadScript(wallet_tx.Script, False) try: # drum roll? success = engine.Execute() service.ExecutionCompleted(engine, success) if success: # this will be removed in favor of neo.EventHub if len(service.notifications) > 0: for n in service.notifications: Blockchain.Default().OnNotify(n) consumed = engine.GasConsumed() - Fixed8.FromDecimal(10) consumed.value = int(consumed.value) net_fee = None tx_gas = None if consumed < Fixed8.FromDecimal(10.0): net_fee = Fixed8.FromDecimal(.001) tx_gas = Fixed8.Zero() else: tx_gas = consumed net_fee = Fixed8.Zero() # set the amount of gas the tx will need wallet_tx.Gas = tx_gas # reset the wallet outputs wallet_tx.outputs = outputs wallet_tx.Attributes = [] return wallet_tx, net_fee, engine.EvaluationStack.Items, engine.ops_processed except Exception as e: service.ExecutionCompleted(engine, False, e) # print("COULD NOT EXECUTE %s " % e) return None, None, None, None
def test_invoke(script, wallet, outputs, withdrawal_tx=None, from_addr=None, min_fee=DEFAULT_MIN_FEE, invoke_attrs=None, owners=None): # print("invoke script %s " % script) if from_addr is not None: from_addr = lookup_addr_str(wallet, from_addr) bc = GetBlockchain() sn = bc._db.snapshot() accounts = DBCollection(bc._db, sn, DBPrefix.ST_Account, AccountState) assets = DBCollection(bc._db, sn, DBPrefix.ST_Asset, AssetState) validators = DBCollection(bc._db, sn, DBPrefix.ST_Validator, ValidatorState) contracts = DBCollection(bc._db, sn, DBPrefix.ST_Contract, ContractState) storages = DBCollection(bc._db, sn, DBPrefix.ST_Storage, StorageItem) # if we are using a withdrawal tx, don't recreate the invocation tx # also, we don't want to reset the inputs / outputs # since those were already calculated if withdrawal_tx is not None: tx = withdrawal_tx else: tx = InvocationTransaction() tx.outputs = outputs tx.inputs = [] tx.Version = 1 tx.scripts = [] tx.Script = binascii.unhexlify(script) tx.Attributes = [] if invoke_attrs is None else deepcopy(invoke_attrs) script_table = CachedScriptTable(contracts) service = StateMachine(accounts, validators, assets, contracts, storages, None) if len(outputs) < 1: contract = wallet.GetDefaultContract() tx.Attributes.append( TransactionAttribute(usage=TransactionAttributeUsage.Script, data=contract.ScriptHash)) tx.Attributes = make_unique_script_attr(tx.Attributes) # same as above. we don't want to re-make the transaction if it is a withdrawal tx if withdrawal_tx is not None: wallet_tx = tx else: wallet_tx = wallet.MakeTransaction(tx=tx, from_addr=from_addr) context = ContractParametersContext(wallet_tx) wallet.Sign(context) if owners: owners = list(owners) for owner in owners: # print("contract %s %s" % (wallet.GetDefaultContract().ScriptHash, owner)) if wallet.GetDefaultContract().ScriptHash != owner: wallet_tx.Attributes.append( TransactionAttribute( usage=TransactionAttributeUsage.Script, data=owner)) wallet_tx.Attributes = make_unique_script_attr(tx.Attributes) context = ContractParametersContext(wallet_tx, isMultiSig=True) if context.Completed: wallet_tx.scripts = context.GetScripts() else: logger.warn( "Not gathering signatures for test build. For a non-test invoke that would occur here." ) # if not gather_signatures(context, wallet_tx, owners): # return None, [], 0, None engine = ApplicationEngine(trigger_type=TriggerType.Application, container=wallet_tx, table=script_table, service=service, gas=wallet_tx.Gas, testMode=True) engine.LoadScript(wallet_tx.Script, False) try: success = engine.Execute() service.ExecutionCompleted(engine, success) for event in service.events_to_dispatch: events.emit(event.event_type, event) if success: # this will be removed in favor of neo.EventHub if len(service.notifications) > 0: for n in service.notifications: Blockchain.Default().OnNotify(n) print("Used %s Gas " % engine.GasConsumed().ToString()) consumed = engine.GasConsumed() - Fixed8.FromDecimal(10) consumed = consumed.Ceil() net_fee = None tx_gas = None if consumed <= Fixed8.Zero(): net_fee = min_fee tx_gas = Fixed8.Zero() else: tx_gas = consumed net_fee = Fixed8.Zero() # set the amount of gas the tx will need wallet_tx.Gas = tx_gas # reset the wallet outputs wallet_tx.outputs = outputs wallet_tx.Attributes = [] if invoke_attrs is None else deepcopy( invoke_attrs) return wallet_tx, net_fee, engine.EvaluationStack.Items, engine.ops_processed # this allows you to to test invocations that fail else: wallet_tx.outputs = outputs wallet_tx.Attributes = [] if invoke_attrs is None else deepcopy( invoke_attrs) return wallet_tx, min_fee, [], engine.ops_processed except Exception as e: service.ExecutionCompleted(engine, False, e) return None, None, None, None
def test_invoke(script, wallet, outputs): # print("invoke script %s " % script) bc = GetBlockchain() sn = bc._db.snapshot() accounts = DBCollection(bc._db, sn, DBPrefix.ST_Account, AccountState) assets = DBCollection(bc._db, sn, DBPrefix.ST_Asset, AssetState) validators = DBCollection(bc._db, sn, DBPrefix.ST_Validator, ValidatorState) contracts = DBCollection(bc._db, sn, DBPrefix.ST_Contract, ContractState) storages = DBCollection(bc._db, sn, DBPrefix.ST_Storage, StorageItem) tx = InvocationTransaction() tx.Version = 1 tx.outputs = outputs tx.inputs = [] tx.scripts = [] tx.Script = binascii.unhexlify(script) script_table = CachedScriptTable(contracts) service = StateMachine(accounts, validators, assets, contracts, storages, None) if len(outputs) < 1: contract = wallet.GetDefaultContract() tx.Attributes = [ TransactionAttribute(usage=TransactionAttributeUsage.Script, data=Crypto.ToScriptHash( contract.Script).Data) ] wallet_tx = wallet.MakeTransaction(tx=tx) if wallet_tx: context = ContractParametersContext(wallet_tx) wallet.Sign(context) if context.Completed: wallet_tx.scripts = context.GetScripts() engine = ApplicationEngine(trigger_type=TriggerType.Application, container=wallet_tx, table=script_table, service=service, gas=wallet_tx.Gas, testMode=True) engine.LoadScript(wallet_tx.Script, False) try: # drum roll? success = engine.Execute() if success: service.TestCommit() if len(service.notifications) > 0: for n in service.notifications: Blockchain.Default().OnNotify(n) consumed = engine.GasConsumed() - Fixed8.FromDecimal(10) consumed.value = int(consumed.value) net_fee = None tx_gas = None if consumed < Fixed8.One(): net_fee = Fixed8.FromDecimal(.001) tx_gas = Fixed8.Zero() else: tx_gas = consumed net_fee = Fixed8.Zero() #set the amount of gas the tx will need wallet_tx.Gas = tx_gas #reset the wallet outputs wallet_tx.outputs = outputs wallet_tx.Attributes = [] return wallet_tx, net_fee, engine.EvaluationStack.Items, engine.ops_processed else: print("error executing contract.....") # tx.Gas = Fixed8.One() # tx.Attributes = [] # return tx, [] return None, [] except Exception as e: print("COULD NOT EXECUTE %s " % e) return None, []
def test_deploy_and_invoke(deploy_script, invoke_args, wallet): bc = GetBlockchain() sn = bc._db.snapshot() accounts = DBCollection(bc._db, sn, DBPrefix.ST_Account, AccountState) assets = DBCollection(bc._db, sn, DBPrefix.ST_Asset, AssetState) validators = DBCollection(bc._db, sn, DBPrefix.ST_Validator, ValidatorState) contracts = DBCollection(bc._db, sn, DBPrefix.ST_Contract, ContractState) storages = DBCollection(bc._db, sn, DBPrefix.ST_Storage, StorageItem) dtx = InvocationTransaction() dtx.Version = 1 dtx.outputs = [] dtx.inputs = [] dtx.scripts = [] dtx.Script = binascii.unhexlify(deploy_script) dtx = wallet.MakeTransaction(tx=dtx) context = ContractParametersContext(dtx) wallet.Sign(context) dtx.scripts = context.GetScripts() script_table = CachedScriptTable(contracts) service = StateMachine(accounts, validators, assets, contracts, storages, None) contract = wallet.GetDefaultContract() dtx.Attributes = [ TransactionAttribute(usage=TransactionAttributeUsage.Script, data=Crypto.ToScriptHash(contract.Script)) ] engine = ApplicationEngine(trigger_type=TriggerType.Application, container=dtx, table=script_table, service=service, gas=dtx.Gas, testMode=True) engine.LoadScript(dtx.Script, False) #first we will execute the test deploy #then right after, we execute the test invoke try: d_success = engine.Execute() if d_success: items = engine.EvaluationStack.Items contract_state = None for i in items: if type(i) is ContractState: contract_state = i break elif type(i) is InteropInterface: item = i.GetInterface('neo.whatever') if type(item) is ContractState: contract_state = item break shash = contract_state.Code.ScriptHash() invoke_args, neo_to_attach, gas_to_attach = get_asset_attachments( invoke_args) invoke_args.reverse() sb = ScriptBuilder() # print("neo, gas %s %s " % (neo_to_attach,gas_to_attach.ToString())) sb = ScriptBuilder() for p in invoke_args: item = parse_param(p) if type(item) is list: item.reverse() listlength = len(item) for listitem in item: sb.push(listitem) sb.push(listlength) sb.Emit(PACK) else: sb.push(item) sb.EmitAppCall(shash.Data) out = sb.ToArray() outputs = [] if neo_to_attach: output = TransactionOutput( AssetId=Blockchain.SystemShare().Hash, Value=neo_to_attach, script_hash=contract_state.Code.ScriptHash(), ) outputs.append(output) if gas_to_attach: output = TransactionOutput( AssetId=Blockchain.SystemCoin().Hash, Value=gas_to_attach, script_hash=contract_state.Code.ScriptHash()) outputs.append(output) itx = InvocationTransaction() itx.Version = 1 itx.outputs = outputs itx.inputs = [] itx.scripts = [] itx.Attributes = [] itx.Script = binascii.unhexlify(out) if len(outputs) < 1: contract = wallet.GetDefaultContract() itx.Attributes = [ TransactionAttribute( usage=TransactionAttributeUsage.Script, data=Crypto.ToScriptHash(contract.Script).Data) ] itx = wallet.MakeTransaction(tx=itx) context = ContractParametersContext(itx) wallet.Sign(context) itx.scripts = context.GetScripts() # print("tx: %s " % json.dumps(itx.ToJson(), indent=4)) engine = ApplicationEngine(trigger_type=TriggerType.Application, container=itx, table=script_table, service=service, gas=itx.Gas, testMode=True) engine.LoadScript(itx.Script, False) i_success = engine.Execute() if i_success: service.TestCommit() if len(service.notifications) > 0: for n in service.notifications: Blockchain.Default().OnNotify(n) consumed = engine.GasConsumed() - Fixed8.FromDecimal(10) consumed.value = int(consumed.value) if consumed < Fixed8.One(): consumed = Fixed8.FromDecimal(.001) total_ops = engine.ops_processed # set the amount of gas the tx will need itx.Gas = consumed itx.Attributes = [] result = engine.ResultsForCode(contract_state.Code) return itx, result, total_ops else: print("error executing invoke contract...") else: print("error executing deploy contract.....") except Exception as e: print("COULD NOT EXECUTE %s " % e) traceback.print_stack() traceback.print_exc() return None, []
def GetStates(self, prefix, classref): return DBCollection(self._db, None, prefix, classref)
def GetAllSpentCoins(self): coins = DBCollection(self._db, DBPrefix.ST_SpentCoin, SpentCoinState) return coins.Keys
def ShowAllContracts(self): contracts = DBCollection(self._db, DBPrefix.ST_Contract, ContractState) keys = contracts.Keys return keys
def GetAllSpentCoins(self): sn = self._db.snapshot() coins = DBCollection(self._db, sn, DBPrefix.ST_SpentCoin, SpentCoinState) return coins.Keys
def test_deploy_and_invoke(deploy_script, invoke_args, wallet, from_addr=None, min_fee=DEFAULT_MIN_FEE, invocation_test_mode=True, debug_map=None): bc = GetBlockchain() sn = bc._db.snapshot() accounts = DBCollection(bc._db, sn, DBPrefix.ST_Account, AccountState) assets = DBCollection(bc._db, sn, DBPrefix.ST_Asset, AssetState) validators = DBCollection(bc._db, sn, DBPrefix.ST_Validator, ValidatorState) contracts = DBCollection(bc._db, sn, DBPrefix.ST_Contract, ContractState) storages = DBCollection(bc._db, sn, DBPrefix.ST_Storage, StorageItem) if settings.USE_DEBUG_STORAGE: debug_storage = DebugStorage.instance() debug_sn = debug_storage.db.snapshot() storages = DBCollection(debug_storage.db, debug_sn, DBPrefix.ST_Storage, StorageItem) storages.DebugStorage = True dtx = InvocationTransaction() dtx.Version = 1 dtx.outputs = [] dtx.inputs = [] dtx.scripts = [] dtx.Script = binascii.unhexlify(deploy_script) if from_addr is not None: from_addr = lookup_addr_str(wallet, from_addr) dtx = wallet.MakeTransaction(tx=dtx, from_addr=from_addr) context = ContractParametersContext(dtx) wallet.Sign(context) dtx.scripts = context.GetScripts() script_table = CachedScriptTable(contracts) service = StateMachine(accounts, validators, assets, contracts, storages, None) contract = wallet.GetDefaultContract() dtx.Attributes = [ TransactionAttribute(usage=TransactionAttributeUsage.Script, data=Crypto.ToScriptHash(contract.Script, unhex=False)) ] to_dispatch = [] engine = ApplicationEngine(trigger_type=TriggerType.Application, container=dtx, table=script_table, service=service, gas=dtx.Gas, testMode=True) engine.LoadScript(dtx.Script, False) # first we will execute the test deploy # then right after, we execute the test invoke d_success = engine.Execute() if d_success: items = engine.EvaluationStack.Items contract_state = None for i in items: if type(i) is ContractState: contract_state = i break elif type(i) is InteropInterface: item = i.GetInterface() if type(item) is ContractState: contract_state = item break shash = contract_state.Code.ScriptHash() invoke_args, neo_to_attach, gas_to_attach = get_asset_attachments( invoke_args) invoke_args.reverse() # print("neo, gas %s %s " % (neo_to_attach,gas_to_attach.ToString())) sb = ScriptBuilder() for p in invoke_args: item = parse_param(p, wallet) if type(item) is list: item.reverse() listlength = len(item) for listitem in item: subitem = parse_param(listitem, wallet) sb.push(subitem) sb.push(listlength) sb.Emit(PACK) else: sb.push(item) sb.EmitAppCall(shash.Data) out = sb.ToArray() outputs = [] if neo_to_attach: output = TransactionOutput( AssetId=Blockchain.SystemShare().Hash, Value=neo_to_attach, script_hash=contract_state.Code.ScriptHash(), ) outputs.append(output) if gas_to_attach: output = TransactionOutput( AssetId=Blockchain.SystemCoin().Hash, Value=gas_to_attach, script_hash=contract_state.Code.ScriptHash()) outputs.append(output) itx = InvocationTransaction() itx.Version = 1 itx.outputs = outputs itx.inputs = [] itx.scripts = [] itx.Attributes = [] itx.Script = binascii.unhexlify(out) if len(outputs) < 1: contract = wallet.GetDefaultContract() itx.Attributes = [ TransactionAttribute(usage=TransactionAttributeUsage.Script, data=Crypto.ToScriptHash( contract.Script, unhex=False).Data) ] itx = wallet.MakeTransaction(tx=itx, from_addr=from_addr) context = ContractParametersContext(itx) wallet.Sign(context) itx.scripts = context.GetScripts() # print("tx: %s " % json.dumps(itx.ToJson(), indent=4)) engine = ApplicationEngine(trigger_type=TriggerType.Application, container=itx, table=script_table, service=service, gas=itx.Gas, testMode=invocation_test_mode) engine.LoadScript(itx.Script, False) engine.LoadDebugInfoForScriptHash(debug_map, shash.Data) # call execute in its own blocking thread # reactor.stop() i_success = engine.Execute() service.ExecutionCompleted(engine, i_success) to_dispatch = to_dispatch + service.events_to_dispatch for event in to_dispatch: events.emit(event.event_type, event) if i_success: service.TestCommit() if len(service.notifications) > 0: for n in service.notifications: # print("NOTIFICATION : %s " % n) Blockchain.Default().OnNotify(n) logger.info("Used %s Gas " % engine.GasConsumed().ToString()) consumed = engine.GasConsumed() - Fixed8.FromDecimal(10) consumed = consumed.Ceil() if consumed <= Fixed8.Zero(): consumed = min_fee total_ops = engine.ops_processed # set the amount of gas the tx will need itx.Gas = consumed itx.Attributes = [] result = engine.EvaluationStack.Items return itx, result, total_ops, engine else: print("error executing invoke contract...") else: print("error executing deploy contract.....") service.ExecutionCompleted(engine, False, 'error') return None, [], 0, None
def Persist(self, block): self._persisting_block = block sn = self._db.snapshot() accounts = DBCollection(self._db, sn, DBPrefix.ST_Account, AccountState) unspentcoins = DBCollection(self._db, sn, DBPrefix.ST_Coin, UnspentCoinState) spentcoins = DBCollection(self._db, sn, DBPrefix.ST_SpentCoin, SpentCoinState) assets = DBCollection(self._db, sn, DBPrefix.ST_Asset, AssetState) validators = DBCollection(self._db, sn, DBPrefix.ST_Validator, ValidatorState) contracts = DBCollection(self._db, sn, DBPrefix.ST_Contract, ContractState) storages = DBCollection(self._db, sn, DBPrefix.ST_Storage, StorageItem) amount_sysfee = self.GetSysFeeAmount( block.PrevHash) + block.TotalFees().value amount_sysfee_bytes = amount_sysfee.to_bytes(8, 'little') to_dispatch = [] with self._db.write_batch() as wb: wb.put(DBPrefix.DATA_Block + block.Hash.ToBytes(), amount_sysfee_bytes + block.Trim()) for tx in block.Transactions: wb.put(DBPrefix.DATA_Transaction + tx.Hash.ToBytes(), block.IndexBytes() + tx.ToArray()) # go through all outputs and add unspent coins to them unspentcoinstate = UnspentCoinState.FromTXOutputsConfirmed( tx.outputs) unspentcoins.Add(tx.Hash.ToBytes(), unspentcoinstate) # go through all the accounts in the tx outputs for output in tx.outputs: account = accounts.GetAndChange( output.AddressBytes, AccountState(output.ScriptHash)) if account.HasBalance(output.AssetId): account.AddToBalance(output.AssetId, output.Value) else: account.SetBalanceFor(output.AssetId, output.Value) # go through all tx inputs unique_tx_input_hashes = [] for input in tx.inputs: if input.PrevHash not in unique_tx_input_hashes: unique_tx_input_hashes.append(input.PrevHash) for txhash in unique_tx_input_hashes: prevTx, height = self.GetTransaction(txhash.ToBytes()) coin_refs_by_hash = [ coinref for coinref in tx.inputs if coinref.PrevHash.ToBytes() == txhash.ToBytes() ] for input in coin_refs_by_hash: uns = unspentcoins.GetAndChange( input.PrevHash.ToBytes()) uns.OrEqValueForItemAt(input.PrevIndex, CoinState.Spent) if prevTx.outputs[input.PrevIndex].AssetId.ToBytes( ) == Blockchain.SystemShare().Hash.ToBytes(): sc = spentcoins.GetAndChange( input.PrevHash.ToBytes(), SpentCoinState(input.PrevHash, height, [])) sc.Items.append( SpentCoinItem(input.PrevIndex, block.Index)) output = prevTx.outputs[input.PrevIndex] acct = accounts.GetAndChange( prevTx.outputs[input.PrevIndex].AddressBytes, AccountState(output.ScriptHash)) assetid = prevTx.outputs[input.PrevIndex].AssetId acct.SubtractFromBalance( assetid, prevTx.outputs[input.PrevIndex].Value) # do a whole lotta stuff with tx here... if tx.Type == TransactionType.RegisterTransaction: asset = AssetState(tx.Hash, tx.AssetType, tx.Name, tx.Amount, Fixed8(0), tx.Precision, Fixed8(0), Fixed8(0), UInt160(data=bytearray(20)), tx.Owner, tx.Admin, tx.Admin, block.Index + 2 * 2000000, False) assets.Add(tx.Hash.ToBytes(), asset) elif tx.Type == TransactionType.IssueTransaction: txresults = [ result for result in tx.GetTransactionResults() if result.Amount.value < 0 ] for result in txresults: asset = assets.GetAndChange(result.AssetId.ToBytes()) asset.Available = asset.Available - result.Amount elif tx.Type == TransactionType.ClaimTransaction: for input in tx.Claims: sc = spentcoins.TryGet(input.PrevHash.ToBytes()) if sc and sc.HasIndex(input.PrevIndex): sc.DeleteIndex(input.PrevIndex) spentcoins.GetAndChange(input.PrevHash.ToBytes()) elif tx.Type == TransactionType.EnrollmentTransaction: newvalidator = ValidatorState(pub_key=tx.PublicKey) validators.GetAndChange(tx.PublicKey.ToBytes(), newvalidator) elif tx.Type == TransactionType.StateTransaction: # @TODO Implement persistence for State Descriptors pass elif tx.Type == TransactionType.PublishTransaction: contract = ContractState(tx.Code, tx.NeedStorage, tx.Name, tx.CodeVersion, tx.Author, tx.Email, tx.Description) contracts.GetAndChange(tx.Code.ScriptHash().ToBytes(), contract) elif tx.Type == TransactionType.InvocationTransaction: script_table = CachedScriptTable(contracts) service = StateMachine(accounts, validators, assets, contracts, storages, wb) engine = ApplicationEngine( trigger_type=TriggerType.Application, container=tx, table=script_table, service=service, gas=tx.Gas, testMode=False) engine.LoadScript(tx.Script, False) try: success = engine.Execute() service.ExecutionCompleted(engine, success) except Exception as e: service.ExecutionCompleted(engine, False, e) to_dispatch = to_dispatch + service.events_to_dispatch else: if tx.Type != b'\x00' and tx.Type != 128: logger.info("TX Not Found %s " % tx.Type) # do save all the accounts, unspent, coins, validators, assets, etc # now sawe the current sys block # filter out accounts to delete then commit for key, account in accounts.Current.items(): if not account.IsFrozen and len( account.Votes) == 0 and account.AllBalancesZeroOrLess( ): accounts.Remove(key) accounts.Commit(wb) # filte out unspent coins to delete then commit for key, unspent in unspentcoins.Current.items(): if unspent.IsAllSpent: unspentcoins.Remove(key) unspentcoins.Commit(wb) # filter out spent coins to delete then commit to db for key, spent in spentcoins.Current.items(): if len(spent.Items) == 0: spentcoins.Remove(key) spentcoins.Commit(wb) # commit validators validators.Commit(wb) # commit assets assets.Commit(wb) # commit contracts contracts.Commit(wb) sn.close() wb.put(DBPrefix.SYS_CurrentBlock, block.Hash.ToBytes() + block.IndexBytes()) self._current_block_height = block.Index self._persisting_block = None self.TXProcessed += len(block.Transactions) for event in to_dispatch: events.emit(event.event_type, event)
def test_deploy_and_invoke(deploy_script, invoke_args, wallet, from_addr=None, min_fee=DEFAULT_MIN_FEE, invocation_test_mode=True, debug_map=None, invoke_attrs=None, owners=None): bc = GetBlockchain() accounts = DBCollection(bc._db, DBPrefix.ST_Account, AccountState) assets = DBCollection(bc._db, DBPrefix.ST_Asset, AssetState) validators = DBCollection(bc._db, DBPrefix.ST_Validator, ValidatorState) contracts = DBCollection(bc._db, DBPrefix.ST_Contract, ContractState) storages = DBCollection(bc._db, DBPrefix.ST_Storage, StorageItem) if settings.USE_DEBUG_STORAGE: debug_storage = DebugStorage.instance() storages = DBCollection(debug_storage.db, DBPrefix.ST_Storage, StorageItem) storages.DebugStorage = True dtx = InvocationTransaction() dtx.Version = 1 dtx.outputs = [] dtx.inputs = [] dtx.scripts = [] dtx.Script = binascii.unhexlify(deploy_script) if from_addr is not None: from_addr = PromptUtils.lookup_addr_str(wallet, from_addr) try: dtx = wallet.MakeTransaction(tx=dtx, from_addr=from_addr) except ValueError: pass context = ContractParametersContext(dtx) wallet.Sign(context) dtx.scripts = context.GetScripts() script_table = CachedScriptTable(contracts) service = StateMachine(accounts, validators, assets, contracts, storages, None) contract = wallet.GetDefaultContract() dtx.Attributes = [ TransactionAttribute(usage=TransactionAttributeUsage.Script, data=Crypto.ToScriptHash(contract.Script, unhex=False)) ] dtx.Attributes = make_unique_script_attr(dtx.Attributes) to_dispatch = [] engine = ApplicationEngine(trigger_type=TriggerType.Application, container=dtx, table=script_table, service=service, gas=dtx.Gas, testMode=True) engine.LoadScript(dtx.Script) # first we will execute the test deploy # then right after, we execute the test invoke d_success = engine.Execute() if d_success: items = engine.ResultStack.Items contract_state = None for i in items: if type(i) is ContractState: contract_state = i break elif type(i) is InteropInterface: item = i.GetInterface() if type(item) is ContractState: contract_state = item break shash = contract_state.Code.ScriptHash() invoke_args, neo_to_attach, gas_to_attach = PromptUtils.get_asset_attachments( invoke_args) invoke_args, no_parse_addresses = PromptUtils.get_parse_addresses( invoke_args) invoke_args.reverse() if '--i' in invoke_args: invoke_args = [] for index, iarg in enumerate(contract_state.Code.ParameterList): param, abort = PromptUtils.gather_param(index, iarg) if abort: return None, [], 0, None else: invoke_args.append(param) invoke_args.reverse() sb = ScriptBuilder() for p in invoke_args: item = PromptUtils.parse_param(p, wallet, parse_addr=no_parse_addresses) if type(item) is list: item.reverse() listlength = len(item) for listitem in item: subitem = PromptUtils.parse_param( listitem, wallet, parse_addr=no_parse_addresses) if type(subitem) is list: subitem.reverse() for listitem2 in subitem: subsub = PromptUtils.parse_param( listitem2, wallet, parse_addr=no_parse_addresses) sb.push(subsub) sb.push(len(subitem)) sb.Emit(PACK) else: sb.push(subitem) sb.push(listlength) sb.Emit(PACK) else: sb.push(item) sb.EmitAppCall(shash.Data) out = sb.ToArray() outputs = [] if neo_to_attach: output = TransactionOutput( AssetId=Blockchain.SystemShare().Hash, Value=neo_to_attach, script_hash=contract_state.Code.ScriptHash(), ) outputs.append(output) if gas_to_attach: output = TransactionOutput( AssetId=Blockchain.SystemCoin().Hash, Value=gas_to_attach, script_hash=contract_state.Code.ScriptHash()) outputs.append(output) itx = InvocationTransaction() itx.Version = 1 itx.outputs = outputs itx.inputs = [] itx.scripts = [] itx.Attributes = deepcopy(invoke_attrs) if invoke_attrs else [] itx.Script = binascii.unhexlify(out) if len(outputs) < 1 and not owners: contract = wallet.GetDefaultContract() itx.Attributes.append( TransactionAttribute(usage=TransactionAttributeUsage.Script, data=contract.ScriptHash)) itx.Attributes = make_unique_script_attr(itx.Attributes) try: itx = wallet.MakeTransaction(tx=itx, from_addr=from_addr) except ValueError: pass context = ContractParametersContext(itx) wallet.Sign(context) if owners: owners = list(owners) for owner in owners: itx.Attributes.append( TransactionAttribute( usage=TransactionAttributeUsage.Script, data=owner)) itx.Attributes = make_unique_script_attr(itx.Attributes) context = ContractParametersContext(itx, isMultiSig=True) if context.Completed: itx.scripts = context.GetScripts() else: logger.warn( "Not gathering signatures for test build. For a non-test invoke that would occur here." ) # if not gather_signatures(context, itx, owners): # return None, [], 0, None # print("gathered signatures %s " % itx.scripts) engine = ApplicationEngine(trigger_type=TriggerType.Application, container=itx, table=script_table, service=service, gas=itx.Gas, testMode=invocation_test_mode) engine.invocation_args = invoke_args engine.LoadScript(itx.Script) engine.LoadDebugInfoForScriptHash(debug_map, shash.Data) i_success = engine.Execute() service.ExecutionCompleted(engine, i_success) to_dispatch = to_dispatch + service.events_to_dispatch for event in to_dispatch: events.emit(event.event_type, event) if i_success: service.TestCommit() if len(service.notifications) > 0: for n in service.notifications: Blockchain.Default().OnNotify(n) logger.info("Used %s Gas " % engine.GasConsumed().ToString()) consumed = engine.GasConsumed() - Fixed8.FromDecimal(10) consumed = consumed.Ceil() if consumed <= Fixed8.Zero(): consumed = min_fee total_ops = engine.ops_processed # set the amount of gas the tx will need itx.Gas = consumed itx.Attributes = [] result = engine.ResultStack.Items return itx, result, total_ops, engine else: print("error executing invoke contract...") else: print("error executing deploy contract.....") service.ExecutionCompleted(engine, False, 'error') return None, [], 0, None
def test_deploy_and_invoke(deploy_script, invoke_args, wallet, from_addr=None, min_fee=DEFAULT_MIN_FEE, invocation_test_mode=True, debug_map=None): bc = GetBlockchain() sn = bc._db.snapshot() accounts = DBCollection(bc._db, sn, DBPrefix.ST_Account, AccountState) assets = DBCollection(bc._db, sn, DBPrefix.ST_Asset, AssetState) validators = DBCollection(bc._db, sn, DBPrefix.ST_Validator, ValidatorState) contracts = DBCollection(bc._db, sn, DBPrefix.ST_Contract, ContractState) storages = DBCollection(bc._db, sn, DBPrefix.ST_Storage, StorageItem) if settings.USE_DEBUG_STORAGE: debug_storage = DebugStorage.instance() debug_sn = debug_storage.db.snapshot() storages = DBCollection(debug_storage.db, debug_sn, DBPrefix.ST_Storage, StorageItem) storages.DebugStorage = True dtx = InvocationTransaction() dtx.Version = 1 dtx.outputs = [] dtx.inputs = [] dtx.scripts = [] dtx.Script = binascii.unhexlify(deploy_script) if from_addr is not None: from_addr = lookup_addr_str(wallet, from_addr) dtx = wallet.MakeTransaction(tx=dtx, from_addr=from_addr) context = ContractParametersContext(dtx) wallet.Sign(context) dtx.scripts = context.GetScripts() script_table = CachedScriptTable(contracts) service = StateMachine(accounts, validators, assets, contracts, storages, None) contract = wallet.GetDefaultContract() dtx.Attributes = [TransactionAttribute(usage=TransactionAttributeUsage.Script, data=Crypto.ToScriptHash(contract.Script, unhex=False))] to_dispatch = [] engine = ApplicationEngine( trigger_type=TriggerType.Application, container=dtx, table=script_table, service=service, gas=dtx.Gas, testMode=True ) engine.LoadScript(dtx.Script, False) # first we will execute the test deploy # then right after, we execute the test invoke d_success = engine.Execute() if d_success: items = engine.EvaluationStack.Items contract_state = None for i in items: if type(i) is ContractState: contract_state = i break elif type(i) is InteropInterface: item = i.GetInterface() if type(item) is ContractState: contract_state = item break shash = contract_state.Code.ScriptHash() invoke_args, neo_to_attach, gas_to_attach = get_asset_attachments(invoke_args) invoke_args.reverse() sb = ScriptBuilder() for p in invoke_args: item = parse_param(p, wallet) if type(item) is list: item.reverse() listlength = len(item) for listitem in item: subitem = parse_param(listitem, wallet) sb.push(subitem) sb.push(listlength) sb.Emit(PACK) else: sb.push(item) sb.EmitAppCall(shash.Data) out = sb.ToArray() outputs = [] if neo_to_attach: output = TransactionOutput(AssetId=Blockchain.SystemShare().Hash, Value=neo_to_attach, script_hash=contract_state.Code.ScriptHash(), ) outputs.append(output) if gas_to_attach: output = TransactionOutput(AssetId=Blockchain.SystemCoin().Hash, Value=gas_to_attach, script_hash=contract_state.Code.ScriptHash()) outputs.append(output) itx = InvocationTransaction() itx.Version = 1 itx.outputs = outputs itx.inputs = [] itx.scripts = [] itx.Attributes = [] itx.Script = binascii.unhexlify(out) if len(outputs) < 1: contract = wallet.GetDefaultContract() itx.Attributes = [TransactionAttribute(usage=TransactionAttributeUsage.Script, data=Crypto.ToScriptHash(contract.Script, unhex=False).Data)] itx = wallet.MakeTransaction(tx=itx, from_addr=from_addr) context = ContractParametersContext(itx) wallet.Sign(context) itx.scripts = context.GetScripts() # print("tx: %s " % json.dumps(itx.ToJson(), indent=4)) engine = ApplicationEngine( trigger_type=TriggerType.Application, container=itx, table=script_table, service=service, gas=itx.Gas, testMode=invocation_test_mode ) engine.LoadScript(itx.Script, False) engine.LoadDebugInfoForScriptHash(debug_map, shash.Data) # call execute in its own blocking thread # reactor.stop() i_success = engine.Execute() service.ExecutionCompleted(engine, i_success) to_dispatch = to_dispatch + service.events_to_dispatch for event in to_dispatch: events.emit(event.event_type, event) if i_success: service.TestCommit() if len(service.notifications) > 0: for n in service.notifications: # print("NOTIFICATION : %s " % n) Blockchain.Default().OnNotify(n) logger.info("Used %s Gas " % engine.GasConsumed().ToString()) consumed = engine.GasConsumed() - Fixed8.FromDecimal(10) consumed = consumed.Ceil() if consumed <= Fixed8.Zero(): consumed = min_fee total_ops = engine.ops_processed # set the amount of gas the tx will need itx.Gas = consumed itx.Attributes = [] result = engine.EvaluationStack.Items return itx, result, total_ops, engine else: print("error executing invoke contract...") else: print("error executing deploy contract.....") service.ExecutionCompleted(engine, False, 'error') return None, [], 0, None
def test_invoke(script, wallet): bc = GetBlockchain() sn = bc._db.snapshot() accounts = DBCollection(bc._db, sn, DBPrefix.ST_Account, AccountState) assets = DBCollection(bc._db, sn, DBPrefix.ST_Asset, AssetState) validators = DBCollection(bc._db, sn, DBPrefix.ST_Validator, ValidatorState) contracts = DBCollection(bc._db, sn, DBPrefix.ST_Contract, ContractState) storages = DBCollection(bc._db, sn, DBPrefix.ST_Storage, StorageItem) tx = InvocationTransaction() tx.Version = 1 tx.outputs = [] tx.inputs = [] tx.scripts = [] tx.Script = binascii.unhexlify(script) script_table = CachedScriptTable(contracts) service = StateMachine(accounts, validators, assets, contracts, storages, None) contract = wallet.GetDefaultContract() tx.Attributes = [ TransactionAttribute(usage=TransactionAttributeUsage.Script, data=Crypto.ToScriptHash(contract.Script)) ] engine = ApplicationEngine(trigger_type=TriggerType.Application, container=tx, table=script_table, service=service, gas=tx.Gas, testMode=True) engine.LoadScript(tx.Script, False) try: # drum roll? success = engine.Execute() if success: service.TestCommit() consumed = engine.GasConsumed() - Fixed8.FromDecimal(10) consumed.value = int(consumed.value) if consumed < Fixed8.One(): consumed = Fixed8.One() #set the amount of gas the tx will need tx.Gas = consumed #remove the attributes that are used to add a verification script to the tx tx.Attributes = [] return tx, engine.EvaluationStack.Items else: print("error executing contract.....") except Exception as e: print("COULD NOT EXECUTE %s " % e) return None, []