def test_build_contract_7(self): """ return from JSON-RPC is: {'state': 'HALT, BREAK', 'script': '4d0004ababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababa bababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababab abababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababa bababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababab abababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababa bababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababab abababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababa bababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababab abababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababa bababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababab abababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababa babababababababababababababababababababababababababababababababababababababababababababababababababababababababababababab046b657931057075745f356780a1a5b87921dda4603b502ada749890cb ca3434', 'stack': [{'type': 'Integer', 'value': '1'}], 'gas_consumed': '11.151'} """ with self.assertRaises(TypeError): wallet = self.GetWallet1() arguments = [ "neo/SmartContract/tests/StorageTest.py", "True", "False", "070705", "05", "put_5", "key1", self.big_str ] tx, result, total_ops, engine = BuildAndRun( arguments, wallet, False, invocation_test_mode=False)
def test_debug_contract_1(self): wallet = self.GetWallet1() arguments = [ "neo/SmartContract/tests/BreakpointTest.py", "True", "False", "True", "02", "01", "1", ] dbg = VMDebugger # dbg.end = MagicMock(return_value=None) dbg.start = MagicMock(return_value=None) tx, result, total_ops, engine = BuildAndRun( arguments, wallet, False, min_fee=Fixed8.FromDecimal(.0004)) debugger = engine._vm_debugger context = debugger.get_context() context.print_file() self.assertIsInstance(debugger, VMDebugger) self.assertIsInstance(context, DebugContext) self.assertEqual(debugger.index, 29) self.assertEqual(context.method.name, 'Main') self.assertEqual(context.line, 11)
def test_debug_contract_2(self): wallet = self.GetWallet1() arguments = [ "neo/SmartContract/tests/BreakpointTest.py", "True", "False", "True", "02", "01", "4", ] dbg = VMDebugger dbg.start = MagicMock(return_value=None) tx, result, total_ops, engine = BuildAndRun( arguments, wallet, False, min_fee=Fixed8.FromDecimal(.0004), enable_debugger=True) debugger = engine._vm_debugger context = debugger.get_context() context.print() self.assertEqual(debugger.index, 157) self.assertEqual(context.method.name, 'another_method') self.assertEqual(context.line, 38)
def test_build_contract_5(self): """ return from JSON-RPC is: {'state': 'HALT, BREAK', 'script': '4d0004ababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababa bababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababab abababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababa bababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababab abababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababa bababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababab abababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababa bababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababab abababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababa bababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababab abababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababababa babababababababababababababababababababababababababababababababababababababababababababababababababababababababababababab046b657931057075745f356780a1a5b87921dda4603b502ada749890cb ca3434', 'stack': [{'type': 'Integer', 'value': '1'}], 'gas_consumed': '11.151'} """ wallet = self.GetWallet1() arguments = [ "neo/SmartContract/tests/StorageTest.py", "True", "False", "True", "070705", "05", "put_5", "key1", self.big_str ] tx, result, total_ops, engine = BuildAndRun(arguments, wallet, False) expected_cost = Fixed8(1046600000) expected_gas = Fixed8.FromDecimal(1.0) self.assertEqual(expected_cost, engine.GasConsumed()) self.assertEqual(tx.Gas, expected_gas)
def do_build(self, arguments): print(arguments) print('4.2 ----4 -> Starting core process %s' % self.Wallet) print('4.3 ----4 -> Completed Blockchain deafault pause') Blockchain.Default().Pause() BuildAndRun(arguments, self.Wallet) Blockchain.Default().Resume()
def worker(self): self.chain.Pause() BuildAndRun(self.args, wallet=self.wallet, verbose=True) self.chain.Resume() avm_path = self.scPath.replace('.py', '.avm') self.args[0] = avm_path from_addr = None current_height = 0 code = LoadContract(args=self.args) # /scripts/sc.avm 0710 02 True False False if code: script = generate_deploy_script( code.Script, "myTestSmartContract", # name "test", # version "", # author "", # email "", # description code.ContractProperties, code.ReturnTypeBigInteger, code.ParameterList) if script is not None: tx, fee, results, num_ops = test_invoke(script, self.wallet, [], from_addr=from_addr) if tx is not None and results is not None: print("Test deploy invoke successful") print("Deploy Invoke TX GAS cost: %s " % (tx.Gas.value / Fixed8.D)) print("Deploy Invoke TX Fee: %s " % (fee.value / Fixed8.D)) print("-------------------------") while not self.isSynced: self.show_state() time.sleep(1) result = InvokeContract(self.wallet, tx, Fixed8.Zero(), from_addr=from_addr) print("Result: ", result.ToJson(), self.isSynced) print("Result: ", tx.ToJson()) current_height = self.chain.Height + 1 print("Script:", script) # we expect the transaction to be included in the next block: while current_height > self.chain.Height: self.show_state() time.sleep(5) self.twist.stop()
def execute(self, arguments): if len(arguments) < 6: print("Please specify the required parameters") return None, None, None, None Blockchain.Default().Pause() try: tx, result, total_ops, engine = BuildAndRun(arguments, PromptData.Wallet) except TypeError: print(f'run `{CommandSC().command_desc().command} {self.command_desc().command} help` to see supported queries') Blockchain.Default().Resume() return None, None, None, None Blockchain.Default().Resume() return tx, result, total_ops, engine
def test_build_contract_6(self): """ return from JSON-RPC is: {"state":"HALT, BREAK", "result":{"script":"05ababababab046b657931057075745f3867e2cea0ae062d6f13ce53b799e0d4fa6eaa147c38", "gas_consumed":"9.715","stack":[{"type":"Integer","value":"1"}]}} """ wallet = self.GetWallet1() arguments = ["neo/SmartContract/tests/StorageTest.py", "test", "070705", "05", "True", "False", "put_9", "key1", "b'ababababab'"] tx, result, total_ops, engine = BuildAndRun(arguments, wallet, False) expected_cost = Fixed8.FromDecimal(9.762) expected_gas = Fixed8.FromDecimal(.0001) self.assertEqual(expected_cost, engine.GasConsumed()) self.assertEqual(tx.Gas, expected_gas)
def test_build_contract_4(self): """ return from JSON-RPC is: {'state': 'HALT, BREAK', 'script': '06abababababab046b6579310b7075745f616e645f6765746780a1a5b87921dda4603b502ada749890cbca3434', 'stack': [{'type': 'ByteArray', 'value': 'abababababab'}], 'gas_consumed': '1.18'} """ wallet = self.GetWallet1() arguments = ["neo/SmartContract/tests/StorageTest.py", "test", "070705", "05", "True", "False", "put_and_get", "key1", self.big_str] tx, result, total_ops, engine = BuildAndRun(arguments, wallet, False) expected_cost = Fixed8.FromDecimal(2.153) expected_fee = Fixed8.FromDecimal(.0001) self.assertEqual(expected_cost, engine.GasConsumed()) self.assertEqual(tx.Gas, expected_fee)
def test_build_contract_2(self): """ return from JSON-RPC is: {'state': 'HALT, BREAK', 'script': '06abababababab046b657931057075745f356780a1a5b87921dda4603b502ada749890cbca3434', 'stack': [{'type': 'Integer', 'value': '1'}], 'gas_consumed':'6.151'} """ wallet = self.GetWallet1() arguments = ["neo/SmartContract/tests/StorageTest.py", "test", "070705", "05", True, False, "put_5", "key1", "b'abababababab'"] tx, result, total_ops, engine = BuildAndRun(arguments, wallet, False) expected_cost = Fixed8.FromDecimal(6.151) expected_fee = Fixed8.FromDecimal(.001) self.assertEqual(expected_cost, engine.GasConsumed()) self.assertEqual(tx.Gas, expected_fee) self.assertEqual(bool(result), True)
def test_build_contract(self): """ return from JSON-RPC is: {'state': 'HALT, BREAK', 'script': '01ab066b6579313233037075746780a1a5b87921dda4603b502ada749890cbca3434', 'stack': [{'type': 'Integer', 'value': '1'}], 'gas_consumed': '1.056'} """ wallet = self.GetWallet1() arguments = ["neo/SmartContract/tests/StorageTest.py", "test", "070705", "05", "True", "False", "put", "key1", "b'ab'", "--from-addr=" + self.wallet_1_addr] tx, result, total_ops, engine = BuildAndRun(arguments, wallet, False, min_fee=Fixed8.FromDecimal(.0004)) expected_cost = Fixed8(103900000) expected_fee = Fixed8.FromDecimal(.0004) self.assertEqual(expected_cost, engine.GasConsumed()) self.assertEqual(tx.Gas, expected_fee) self.assertEqual(bool(result), True)
def do_build(self, arguments): BuildAndRun(arguments, self.Wallet)
def do_build(self, arguments): Blockchain.Default().Pause() BuildAndRun(arguments, self.Wallet) Blockchain.Default().Resume()
class PromptInterface(object): go_on = True _walletdb_loop = None Wallet = None _known_things = [] commands = [ 'quit', 'help', 'block {index/hash} (tx)', 'header {index/hash}', 'tx {hash}', 'asset {assetId}', 'asset search {query}', 'contract {contract hash}', 'contract search {query}', 'notifications {block_number or address}', 'mem', 'nodes', 'state', 'config debug {on/off}', 'config sc-events {on/off}', 'build {path/to/file.py} (test {params} {returntype} {needs_storage} {needs_dynamic_invoke} {test_params})', 'load_run {path/to/file.avm} (test {params} {returntype} {needs_storage} {needs_dynamic_invoke} {test_params})', 'import wif {wif}', 'import nep2 {nep2_encrypted_key}', 'import contract {path/to/file.avm} {params} {returntype} {needs_storage} {needs_dynamic_invoke}', 'import contract_addr {contract_hash} {pubkey}', 'import watch_addr {address}', 'import token {token_contract_hash}', 'export wif {address}', 'export nep2 {address}', 'open wallet {path}', 'create wallet {path}', 'wallet {verbose}', 'wallet claim', 'wallet migrate', 'wallet rebuild {start block}', 'wallet delete_addr {addr}', 'wallet alias {addr} {title}', 'wallet tkn_send {token symbol} {address_from} {address to} {amount} ', 'wallet tkn_send_from {token symbol} {address_from} {address to} {amount}', 'wallet tkn_approve {token symbol} {address_from} {address to} {amount}', 'wallet tkn_allowance {token symbol} {address_from} {address to}', 'wallet tkn_mint {token symbol} {mint_to_addr} (--attach-neo={amount}, --attach-gas={amount})', 'wallet unspent', 'wallet close', 'withdraw_request {asset_name} {contract_hash} {to_addr} {amount}', 'withdraw holds # lists all current holds', 'withdraw completed # lists completed holds eligible for cleanup', 'withdraw cancel # cancels current holds', 'witdraw cleanup # cleans up completed holds', 'withdraw # withdraws the first hold availabe', 'withdraw all # withdraw all holds available', 'send {assetId or name} {address} {amount} (--from-addr={addr})', 'sign {transaction in JSON format}', 'testinvoke {contract hash} {params} (--attach-neo={amount}, --attach-gas={amount})', 'debugstorage {on/off/reset}' ] history = FileHistory(FILENAME_PROMPT_HISTORY) token_style = None start_height = None start_dt = None def __init__(self): self.input_parser = InputParser() self.start_height = Blockchain.Default().Height self.start_dt = datetime.datetime.utcnow() self.token_style = style_from_dict({ Token.Command: preferences.token_style['Command'], Token.Neo: preferences.token_style['Neo'], Token.Default: preferences.token_style['Default'], Token.Number: preferences.token_style['Number'], }) def get_bottom_toolbar(self, cli=None): out = [] try: out = [(Token.Command, '[%s] Progress: ' % settings.net_name), (Token.Number, str(Blockchain.Default().Height)), (Token.Neo, '/'), (Token.Number, str(Blockchain.Default().HeaderHeight))] except Exception as e: pass return out def get_completer(self): standard_completions = [ 'block', 'tx', 'header', 'mem', 'neo', 'gas', 'help', 'state', 'nodes', 'exit', 'quit', 'config', 'import', 'export', 'open', 'wallet', 'contract', 'asset', 'wif', 'watch_addr', 'contract_addr', 'testinvoke', 'tkn_send', 'tkn_mint', 'tkn_send_from', 'tkn_approve', 'tkn_allowance', 'build', 'notifications', ] if self.Wallet: for addr in self.Wallet.Addresses: if addr not in self._known_things: self._known_things.append(addr) for alias in self.Wallet.NamedAddr: if alias.Title not in self._known_things: self._known_things.append(alias.Title) for tkn in self.Wallet.GetTokens().values(): if tkn.symbol not in self._known_things: self._known_things.append(tkn.symbol) all_completions = standard_completions + self._known_things completer = WordCompleter(all_completions) return completer def quit(self): print('Shutting down. This may take a bit...') self.go_on = False self.do_close_wallet() reactor.stop() def help(self): tokens = [] for c in self.commands: tokens.append((Token.Command, "%s\n" % c)) print_tokens(tokens, self.token_style) def do_open(self, arguments): if self.Wallet: self.do_close_wallet() item = get_arg(arguments) if item and item == 'wallet': path = get_arg(arguments, 1) if path: if not os.path.exists(path): print("Wallet file not found") return passwd = prompt("[password]> ", is_password=True) password_key = to_aes_key(passwd) try: print(path) self.Wallet = UserWallet.Open(path, password_key) self._walletdb_loop = task.LoopingCall( self.Wallet.ProcessBlocks) self._walletdb_loop.start(1) print("Opened wallet at bleeepp blooop %s" % path) except Exception as e: print("Could not open wallet: %s" % e) else: print("Please specify a path") else: print("Please specify something to open") def do_create(self, arguments): item = get_arg(arguments) if item and item == 'wallet': path = get_arg(arguments, 1) if path: if os.path.exists(path): print("File already exists") return passwd1 = prompt("[password]> ", is_password=True) passwd2 = prompt("[password again]> ", is_password=True) if passwd1 != passwd2 or len(passwd1) < 10: print( "Please provide matching passwords that are at least 10 characters long" ) return password_key = to_aes_key(passwd1) try: self.Wallet = UserWallet.Create(path=path, password=password_key) contract = self.Wallet.GetDefaultContract() key = self.Wallet.GetKey(contract.PublicKeyHash) print("Wallet %s" % json.dumps(self.Wallet.ToJson(), indent=4)) print("Pubkey %s" % key.PublicKey.encode_point(True)) except Exception as e: print("Exception creating wallet: %s" % e) self.Wallet = None if os.path.isfile(path): try: os.remove(path) except Exception as e: print("Could not remove {}: {}".format(path, e)) return if self.Wallet: self._walletdb_loop = task.LoopingCall( self.Wallet.ProcessBlocks) self._walletdb_loop.start(1) else: print("Please specify a path") def do_close_wallet(self): if self.Wallet: path = self.Wallet._path self._walletdb_loop.stop() self._walletdb_loop = None self.Wallet.Close() self.Wallet = None print("Closed wallet %s" % path) def do_import(self, arguments): item = get_arg(arguments) if not item: print("Please specify something to import") return if item == 'wif': if not self.Wallet: print("Please open a wallet before importing WIF") return wif = get_arg(arguments, 1) if not wif: print("Please supply a valid WIF key") return try: prikey = KeyPair.PrivateKeyFromWIF(wif) key = self.Wallet.CreateKey(prikey) print("Imported key: %s" % wif) print("Pubkey: %s\n" % key.PublicKey.encode_point(True).hex()) print("Wallet: %s" % json.dumps(self.Wallet.ToJson(), indent=4)) except ValueError as e: print(str(e)) except Exception as e: print(str(e)) return elif item == 'nep2': if not self.Wallet: print("Please open a wallet before importing a NEP2 key") return nep2_key = get_arg(arguments, 1) if not nep2_key: print("Please supply a valid NEP2 encrypted private key") return nep2_passwd = prompt("[key password]> ", is_password=True) try: prikey = KeyPair.PrivateKeyFromNEP2(nep2_key, nep2_passwd) key = self.Wallet.CreateKey(prikey) print("Imported NEP2 key: %s" % nep2_key) print("Pubkey: %s\n" % key.PublicKey.encode_point(True).hex()) print("Wallet: %s" % json.dumps(self.Wallet.ToJson(), indent=4)) except ValueError as e: print(str(e)) except Exception as e: print(str(e)) return elif item == 'contract': return self.load_smart_contract(arguments) elif item == 'contract_addr': return ImportContractAddr(self.Wallet, arguments[1:]) elif item == 'watch_addr': return ImportWatchAddr(self.Wallet, get_arg(arguments, 1)) elif item == 'multisig_addr': return ImportMultiSigContractAddr(self.Wallet, arguments[1:]) elif item == 'token': return ImportToken(self.Wallet, get_arg(arguments, 1)) else: print("Import of '%s' not implemented" % item) def do_build(self, arguments): BuildAndRun(arguments, self.Wallet) def do_load_n_run(self, arguments): LoadAndRun(arguments, self.Wallet) def do_export(self, arguments): item = get_arg(arguments) if item == 'wif': if not self.Wallet: return print("Please open a wallet") address = get_arg(arguments, 1) if not address: return print("Please specify an address") passwd = prompt("[wallet password]> ", is_password=True) if not self.Wallet.ValidatePassword(passwd): return print("Incorrect password") keys = self.Wallet.GetKeys() for key in keys: if key.GetAddress() == address: export = key.Export() print("WIF key export: %s" % export) return elif item == 'nep2': if not self.Wallet: return print("Please open a wallet") address = get_arg(arguments, 1) if not address: return print("Please specify an address") passwd = prompt("[wallet password]> ", is_password=True) if not self.Wallet.ValidatePassword(passwd): return print("Incorrect password") nep2_passwd1 = prompt("[key password]> ", is_password=True) if len(nep2_passwd1) < 10: return print( "Please provide a password with at least 10 characters") nep2_passwd2 = prompt("[key password again]> ", is_password=True) if nep2_passwd1 != nep2_passwd2: return print("Passwords do not match") keys = self.Wallet.GetKeys() for key in keys: export = key.ExportNEP2(nep2_passwd1) print("NEP2 key export: %s" % export) return print("Command export %s not found" % item) def make_withdraw_request(self, arguments): if not self.Wallet: print("Please open a wallet") return if len(arguments) == 4: RequestWithdrawFrom(self.Wallet, arguments[0], arguments[1], arguments[2], arguments[3]) else: print( "Incorrect arg length. Use 'withdraw_request {asset_id} {contract_hash} {to_addr} {amount}'" ) def do_withdraw(self, arguments): if not self.Wallet: print("Please open a wallet") return item = get_arg(arguments, 0) if item: if item == 'holds': PrintHolds(self.Wallet) elif item == 'delete_holds': index_to_delete = -1 if get_arg(arguments, 1) and int(get_arg(arguments, 1)) > -1: index_to_delete = int(get_arg(arguments, 1)) DeleteHolds(self.Wallet, index_to_delete) elif item == 'cancel_holds': if len(arguments) > 1: CancelWithdrawalHolds(self.Wallet, get_arg(arguments, 1)) else: print("Please specify contract hash to cancel holds for") elif item == 'completed': ShowCompletedHolds(self.Wallet) elif item == 'cleanup': CleanupCompletedHolds(self.Wallet) elif item == 'all': WithdrawAll(self.Wallet) else: WithdrawOne(self.Wallet) def do_notifications(self, arguments): if NotificationDB.instance() is None: print("No notification DB Configured") return item = get_arg(arguments, 0) events = [] if len(item) == 34: addr = item events = NotificationDB.instance().get_by_addr(addr) else: try: block_height = int(item) if block_height < Blockchain.Default().Height: events = NotificationDB.instance().get_by_block( block_height) else: print("Block %s not found" % block_height) return except Exception as e: print("Could not parse block height %s" % e) return if len(events): [print(json.dumps(e.ToJson(), indent=4)) for e in events] else: print("No events found for %s" % item) def show_wallet(self, arguments): if not self.Wallet: print("Please open a wallet") return item = get_arg(arguments) if not item: print("Wallet %s " % json.dumps(self.Wallet.ToJson(), indent=4)) return if item in ['v', '--v', 'verbose']: print("Wallet %s " % json.dumps(self.Wallet.ToJson(verbose=True), indent=4)) return elif item == 'migrate' and self.Wallet is not None: self.Wallet.Migrate() print("Migrated wallet") elif item == 'delete_addr': addr_to_delete = get_arg(arguments, 1) DeleteAddress(self, self.Wallet, addr_to_delete) elif item == 'delete_token': token_to_delete = get_arg(arguments, 1) DeleteToken(self.Wallet, token_to_delete) elif item == 'close': self.do_close_wallet() elif item == 'claim': ClaimGas(self.Wallet, True, arguments[1:]) elif item == 'rebuild': self.Wallet.Rebuild() try: item2 = int(get_arg(arguments, 1)) if item2 and item2 > 0: print("Restarting at %s" % item2) self.Wallet._current_height = item2 except Exception as e: pass elif item == 'tkn_send': token_send(self.Wallet, arguments[1:]) elif item == 'tkn_send_from': token_send_from(self.Wallet, arguments[1:]) elif item == 'tkn_approve': token_approve_allowance(self.Wallet, arguments[1:]) elif item == 'tkn_allowance': token_get_allowance(self.Wallet, arguments[1:], verbose=True) elif item == 'tkn_mint': token_mint(self.Wallet, arguments[1:]) elif item == 'tkn_register': token_crowdsale_register(self.Wallet, arguments[1:]) elif item == 'unspent': ShowUnspentCoins(self.Wallet, arguments[1:]) elif item == 'alias': if len(arguments) == 3: AddAlias(self.Wallet, arguments[1], arguments[2]) else: print("Please supply an address and title") else: print("Wallet: '{}' is an invalid parameter".format(item)) def do_send(self, arguments): construct_and_send(self, self.Wallet, arguments) def do_sign(self, arguments): jsn = get_arg(arguments) parse_and_sign(self, self.Wallet, jsn) def show_state(self): height = Blockchain.Default().Height headers = Blockchain.Default().HeaderHeight diff = height - self.start_height now = datetime.datetime.utcnow() difftime = now - self.start_dt mins = difftime / datetime.timedelta(minutes=1) bpm = 0 if diff > 0 and mins > 0: bpm = diff / mins out = "Progress: %s / %s\n" % (height, headers) out += "Block-cache length %s\n" % Blockchain.Default().BlockCacheCount out += "Blocks since program start %s\n" % diff out += "Time elapsed %s mins\n" % mins out += "Blocks per min %s \n" % bpm tokens = [(Token.Number, out)] print_tokens(tokens, self.token_style) def show_nodes(self): if len(NodeLeader.Instance().Peers) > 0: out = "" for peer in NodeLeader.Instance().Peers: out += "Peer %s - IO: %s\n" % (peer.Name(), peer.IOStats()) print_tokens([(Token.Number, out)], self.token_style) else: print("Not connected yet\n") def show_block(self, args): item = get_arg(args) txarg = get_arg(args, 1) if item is not None: block = Blockchain.Default().GetBlock(item) if block is not None: bjson = json.dumps(block.ToJson(), indent=4) tokens = [(Token.Number, bjson)] print_tokens(tokens, self.token_style) print('\n') if txarg and 'tx' in txarg: for tx in block.FullTransactions: print(json.dumps(tx.ToJson(), indent=4)) else: print("Could not locate block %s" % item) else: print("please specify a block") def show_header(self, args): item = get_arg(args) if item is not None: header = Blockchain.Default().GetHeaderBy(item) if header is not None: print(json.dumps(header.ToJson(), indent=4)) else: print("Could not locate header %s\n" % item) else: print("Please specify a header") def show_tx(self, args): if len(args): try: txid = UInt256.ParseString(get_arg(args)) tx, height = Blockchain.Default().GetTransaction(txid) if height > -1: jsn = tx.ToJson() jsn['height'] = height jsn['unspents'] = [ uns.ToJson(tx.outputs.index(uns)) for uns in Blockchain.Default().GetAllUnspent(txid) ] tokens = [(Token.Command, json.dumps(jsn, indent=4))] print_tokens(tokens, self.token_style) print('\n') except Exception as e: print("Could not find transaction from args: %s (%s)" % (e, args)) else: print("Please specify a TX hash") def show_account_state(self, args): item = get_arg(args) if item is not None: account = Blockchain.Default().GetAccountState( item, print_all_accounts=True) if account is not None: bjson = json.dumps(account.ToJson(), indent=4) tokens = [(Token.Number, bjson)] print_tokens(tokens, self.token_style) print('\n') else: print("Account %s not found" % item) else: print("Please specify an account address") def show_asset_state(self, args): item = get_arg(args) if item is not None: if item == 'search': query = get_arg(args, 1) results = Blockchain.Default().SearchAssetState(query) print("Found %s results for %s" % (len(results), query)) for asset in results: bjson = json.dumps(asset.ToJson(), indent=4) tokens = [(Token.Number, bjson)] print_tokens(tokens, self.token_style) print('\n') return asset = Blockchain.Default().GetAssetState(item) if asset is not None: bjson = json.dumps(asset.ToJson(), indent=4) tokens = [(Token.Number, bjson)] print_tokens(tokens, self.token_style) print('\n') else: print("Asset %s not found" % item) else: print("Please specify an asset hash") def show_contract_state(self, args): item = get_arg(args) if item is not None: if item.lower() == 'all': contracts = Blockchain.Default().ShowAllContracts() print("Contracts: %s" % contracts) elif item.lower() == 'search': query = get_arg(args, 1) if query: contracts = Blockchain.Default().SearchContracts( query=query) print("Found %s results for %s" % (len(contracts), query)) for contract in contracts: bjson = json.dumps(contract.ToJson(), indent=4) tokens = [(Token.Number, bjson)] print_tokens(tokens, self.token_style) print('\n') else: print("Please specify a search query") else: contract = Blockchain.Default().GetContract(item) if contract is not None: contract.DetermineIsNEP5() jsn = contract.ToJson() bjson = json.dumps(jsn, indent=4) tokens = [(Token.Number, bjson)] print_tokens(tokens, self.token_style) print('\n') else: print("Please specify a contract") def test_invoke_contract(self, args): if not self.Wallet: print("Please open a wallet") return if args and len(args) > 0: tx, fee, results, num_ops = TestInvokeContract(self.Wallet, args) if tx is not None and results is not None: print( "\n-------------------------------------------------------------------------------------------------------------------------------------" ) print("Test invoke successful") print("Total operations: %s" % num_ops) print("Results %s" % [str(item) for item in results]) print("Invoke TX GAS cost: %s" % (tx.Gas.value / Fixed8.D)) print("Invoke TX fee: %s" % (fee.value / Fixed8.D)) print( "-------------------------------------------------------------------------------------------------------------------------------------\n" ) print( "Enter your password to continue and invoke on the network\n" ) passwd = prompt("[password]> ", is_password=True) if not self.Wallet.ValidatePassword(passwd): return print("Incorrect password") result = InvokeContract(self.Wallet, tx, fee) return else: print("Error testing contract invoke") return print("Please specify a contract to invoke") def load_smart_contract(self, args): if not self.Wallet: print("Please open a wallet") return function_code = LoadContract(args[1:]) if function_code: contract_script = GatherContractDetails(function_code, self) if contract_script is not None: tx, fee, results, num_ops = test_invoke( contract_script, self.Wallet, []) if tx is not None and results is not None: print( "\n-------------------------------------------------------------------------------------------------------------------------------------" ) print("Test deploy invoke successful") print("Total operations executed: %s" % num_ops) print("Results %s " % [str(item) for item in results]) print("Deploy Invoke TX GAS cost: %s" % (tx.Gas.value / Fixed8.D)) print("Deploy Invoke TX fee: %s" % (fee.value / Fixed8.D)) print( "-------------------------------------------------------------------------------------------------------------------------------------\n" ) print( "Enter your password to continue and deploy this contract" ) passwd = prompt("[password]> ", is_password=True) if not self.Wallet.ValidatePassword(passwd): return print("Incorrect password") result = InvokeContract(self.Wallet, tx, Fixed8.Zero()) return else: print("Test invoke failed") print("TX is %s, results are %s" % (tx, results)) return def show_mem(self): process = psutil.Process(os.getpid()) total = process.memory_info().rss totalmb = total / (1024 * 1024) out = "Total: %s MB\n" % totalmb out += "Total buffers: %s\n" % StreamManager.TotalBuffers() print_tokens([(Token.Number, out)], self.token_style) def handle_debug_storage(self, args): what = get_arg(args) if what == 'on': settings.USE_DEBUG_STORAGE = True print("Debug storage on") elif what == 'off': settings.USE_DEBUG_STORAGE = False print("Debug Storage off") elif what == 'reset': DebugStorage.instance().reset() print("Reset debug storage") else: print("Please specify on|off|reset") def configure(self, args): what = get_arg(args) if what == 'debug': c1 = get_arg(args, 1).lower() if c1 is not None: if c1 == 'on' or c1 == '1': print("Debug logging is now enabled") settings.set_loglevel(logging.DEBUG) if c1 == 'off' or c1 == '0': print("Debug logging is now disabled") settings.set_loglevel(logging.INFO) else: print("Cannot configure log. Please specify on|off") elif what == 'sc-events': c1 = get_arg(args, 1).lower() if c1 is not None: if c1 == 'on' or c1 == '1': print("Smart contract event logging is now enabled") settings.set_log_smart_contract_events(True) if c1 == 'off' or c1 == '0': print("Smart contract event logging is now disabled") settings.set_log_smart_contract_events(False) else: print("Cannot configure log. Please specify on|off") else: print( "Cannot configure %s try 'config sc-events on|off' or 'config debug on|off'", what) def run(self): dbloop = task.LoopingCall(Blockchain.Default().PersistBlocks) dbloop.start(.1) Blockchain.Default().PersistBlocks() tokens = [(Token.Neo, 'NEO'), (Token.Default, ' cli. Type '), (Token.Command, '\'help\' '), (Token.Default, 'to get started')] print_tokens(tokens, self.token_style) print('\n') while self.go_on: try: result = prompt( "neo> ", completer=self.get_completer(), history=self.history, get_bottom_toolbar_tokens=self.get_bottom_toolbar, style=self.token_style, refresh_interval=3) except EOFError: # Control-D pressed: quit return self.quit() except KeyboardInterrupt: # Control-C pressed: do nothing continue try: command, arguments = self.input_parser.parse_input(result) if command is not None and len(command) > 0: command = command.lower() if command == 'quit' or command == 'exit': self.quit() elif command == 'help': self.help() elif command == 'create': self.do_create(arguments) elif command == 'open': self.do_open(arguments) elif command == 'build': self.do_build(arguments) elif command == 'load_run': self.do_load_n_run(arguments) elif command == 'import': self.do_import(arguments) elif command == 'export': self.do_export(arguments) elif command == 'wallet': self.show_wallet(arguments) elif command == 'send': self.do_send(arguments) elif command == 'sign': self.do_sign(arguments) elif command == 'block': self.show_block(arguments) elif command == 'tx': self.show_tx(arguments) elif command == 'header': self.show_header(arguments) elif command == 'account': self.show_account_state(arguments) elif command == 'asset': self.show_asset_state(arguments) elif command == 'contract': self.show_contract_state(arguments) elif command == 'testinvoke': self.test_invoke_contract(arguments) elif command == 'withdraw_request': self.make_withdraw_request(arguments) elif command == 'withdraw': self.do_withdraw(arguments) elif command == 'notifications': self.do_notifications(arguments) elif command == 'mem': self.show_mem() elif command == 'nodes' or command == 'node': self.show_nodes() elif command == 'state': self.show_state() elif command == 'debugstorage': self.handle_debug_storage(arguments) elif command == 'config': self.configure(arguments) elif command is None: print("Please specify a command") else: print("Command %s not found" % command) except Exception as e: print("Could not execute command: %s" % e) traceback.print_stack() traceback.print_exc() # Setup depending on command line arguments. By default, the testnet settings are already loaded. settings.setup_privnet() # Instantiate the blockchain and subscribe to notifications blockchain = LevelDBBlockchain(settings.LEVELDB_PATH) Blockchain.RegisterBlockchain(blockchain) # Try to set up a notification db if NotificationDB.instance(): NotificationDB.instance().start() # Start the prompt interface #cli = PromptInterface() # Run things #reactor.suggestThreadPoolSize(15) #reactor.callInThread(cli.run) NodeLeader.Instance().Start() while True: f = open("com.txt", "r") file_input = f.read() f.close() #test 020707 07 True False 2 key value25 if (file_input != ""): neo_args = file_input.split(';') print(neo_args) path = "privnet1" nargs = [ '/Users/jacksonroberts/Desktop/TicketChain/test/RegisterPart.py' ] nargs.extend(neo_args) #print(nargs) Wallet = UserWallet.Open(path, to_aes_key("123123123123")) tx, result, total_ops, engine = BuildAndRun(nargs, Wallet) print(str(result)) f = open("com.txt", "w") f.close() f = open("out.txt", "w") f.write(result) f.close() time.sleep(1) NotificationDB.close() Blockchain.Default().Dispose() NodeLeader.Instance().Shutdown()
def echo_post(request): if walletinfo.Wallet is None: wallethandler() #print("Wallet %s " % json.dumps(walletinfo.Wallet.ToJson(), indent=4) #print("Wallet %s " % json.dumps(walletinfo.Wallet.ToJson(), indent=4)) #return json.dumps(walletinfo.Wallet.ToJson(), indent=4) body = json.loads(request.content.read().decode('utf-8')) print('2 ----2 -> Incomming Body %s' % body) returnvalue = 'Issue in creating wallet.Please try manual approach' failed_data = { "status": "failed", "reason": "Contract Not Deployed due to issues such as **smart_contract_location: not ending with .py and/or .avm .smart_contract_location link might not be raw url.Click raw button on your github file to get the correct url**. Issue might also be caused by insufficient balance in the wallet.Please try manual approach or chat with @sharedmocha#8871 on discord." } hash_json_failed = failed_data if (body['is_the_file__smartcontract_or_avm'] == "sc"): print("SMART CONTRACT ------- IN") sc_location = body['smart_contract_location'] r = requests.get(sc_location, allow_redirects=True) localtime = str(time.time()) # this removes the decimals temp_filename = localtime + sc_location filename = re.sub('[^ a-zA-Z0-9]', '', temp_filename) path = '/home/ubuntu/' + filename scname = path + '.py' avmname = '/' + path + '.avm' try: open(scname, 'wb').write(r.content) sc_args = [] sc_args.append(scname) BuildAndRun(sc_args, walletinfo.Wallet) except Exception as e: print('Exception creating file: %s' % e) return 'Issue Downloading and Saving your smart contract.Please try manual approach' else: sc_location = body['smart_contract_location'] r = requests.get(sc_location, allow_redirects=True) localtime = str(time.time()) # this removes the decimals temp_filename = localtime + sc_location filename = re.sub('[^ a-zA-Z0-9]', '', temp_filename) path = '/home/ubuntu/' + filename scname = path + '.py' avmname = '/' + path + '.avm' try: open(avmname, 'wb').write(r.content) except Exception as e: print('Exception creating file: %s' % e) return 'Issue Downloading and Saving your smart contract avm file.Please try manual approach' # Deploy samrt contract .... try: if (body['password'] != "nosforall"): return { "status": "failed", "reason": "Incorrect Password Provided." } args = [] args.append("contract") args.append(avmname) args.append(body['input_type']) args.append(body['output_type']) args.append(body['does_smart_contract_needsstorage']) args.append(body['does_smart_contract_needsdynamicinvoke']) args, from_addr = get_from_addr(args) function_code = LoadContract(args[1:]) failed_data = { "status": "failed", "reason": "Contract Not Deployed due to issues (or) Insufficient Balance.Please try manual approach." } function_code_json = function_code.ToJson() sc_hash = function_code_json['hash'] success_data = { "status": "success", "hash": sc_hash, "details": "Wait for few minutes before you try invoke on your smart contract." } hash_json_success = success_data userinputs_args = [] userinputs_args.append(body['smart_contract_name']) userinputs_args.append(body['smart_contract_version']) userinputs_args.append(body['smart_contract_author']) userinputs_args.append(body['smart_contract_creator_email']) userinputs_args.append(body['smart_contract_description']) if function_code: contract_script = GatherContractDetails(function_code, userinputs_args) if contract_script is not None: tx, fee, results, num_ops = test_invoke(contract_script, walletinfo.Wallet, [], from_addr=from_addr) if tx is not None and results is not None: print( "\n-------------------------------------------------------------------------------------------------------------------------------------" ) print("Test deploy invoke successful") print("Total operations executed: %s " % num_ops) print("Results:") print([item.GetInterface() for item in results]) print("Deploy Invoke TX GAS cost: %s " % (tx.Gas.value / Fixed8.D)) print("Deploy Invoke TX Fee: %s " % (fee.value / Fixed8.D)) print( "-------------------------------------------------------------------------------------------------------------------------------------\n" ) result = InvokeContract(walletinfo.Wallet, tx, Fixed8.Zero(), from_addr=from_addr) if result: return hash_json_success else: #return hash_json_failed return hash_json_failed #return result else: print("Test invoke failed") print("TX is %s, results are %s" % (tx, results)) return hash_json_failed except Exception as e: # print("Pubkey %s" % key.PublicKey.encode_point(True)) print('Exception creating wallet: %s' % e) walletinfo.Wallet = None return hash_json_failed # Open and Replace Wallet # Echo it # test return {'post-body': returnvalue}
from prompt import * from neo.Prompt.Commands.BuildNRun import BuildAndRun, LoadAndRun settings.setup_privnet() path = "privnet1" Wallet = UserWallet.Open(path, to_aes_key("123123123123")) BuildAndRun([ '/Users/jacksonroberts/Desktop/TicketChain/test/RegisterPart.py', 'test', '020707', '07', 'True', 'False', '1', '5', '2' ], Wallet) print("hi there")