def command_create(state, bindings, pargs): """controller command to create a contract """ interp = os.environ.get("PDO_INTERPRETER", "gipsy") parser = argparse.ArgumentParser(prog='create') parser.add_argument('-c', '--contract-class', help='Name of the contract class', required=True, type=str) parser.add_argument( '-i', '--interpreter', help='Name of the interpreter used to evaluate the contract', default=interp) parser.add_argument('-s', '--contract-source', help='File that contains contract source code', required=True, type=str) parser.add_argument('-p', '--pservice-group', help='Name of the provisioning service group to use', default="default") parser.add_argument('-e', '--eservice-group', help='Name of the enclave service group to use', default="default") parser.add_argument('-f', '--save-file', help='File where contract data is stored', type=str) parser.add_argument('--symbol', help='binding symbol for result', type=str) options = parser.parse_args(pargs) contract_class = options.contract_class contract_source = options.contract_source # ---------- load the invoker's keys ---------- try: keyfile = state.get(['Key', 'FileName']) keypath = state.get(['Key', 'SearchPath']) client_keys = ServiceKeys.read_from_file(keyfile, keypath) except Exception as e: raise Exception('unable to load client keys; {0}'.format(str(e))) # ---------- read the contract source code ---------- try: source_path = state.get(['Contract', 'SourceSearchPath']) contract_code = ContractCode.create_from_file( contract_class, contract_source, source_path, interpreter=options.interpreter) except Exception as e: raise Exception('unable to load contract source; {0}'.format(str(e))) logger.debug('Loaded contract code for %s', contract_class) # ---------- set up the enclave clients ---------- eservice_clients = get_eservice_list(state, options.eservice_group) if len(eservice_clients) == 0: raise Exception('unable to locate enclave services in the group %s', options.eservice_group) preferred_eservice_client = get_eservice( state, eservice_group=options.eservice_group) if preferred_eservice_client.interpreter != options.interpreter: raise Exception( 'enclave interpreter does not match requested contract interpreter %s', options.interpreter) # ---------- set up the provisioning service clients ---------- pservice_clients = get_pservice_list(state, options.pservice_group) if len(pservice_clients) == 0: raise Exception( 'unable to locate provisioning services in the group %s', options.pservice_group) # ---------- register contract ---------- data_directory = state.get(['Contract', 'DataDirectory']) ledger_config = state.get(['Sawtooth']) try: provisioning_service_keys = [pc.identity for pc in pservice_clients] contract_id = register_contract(ledger_config, client_keys, contract_code, provisioning_service_keys) logger.debug('Registered contract with class %s and id %s', contract_class, contract_id) contract_state = ContractState.create_new_state(contract_id) contract = Contract(contract_code, contract_state, contract_id, client_keys.identity) # must fix this later contract.extra_data[ 'preferred-enclave'] = preferred_eservice_client.enclave_id contract_file = "{0}_{1}.pdo".format(contract_class, contract.short_id) if options.save_file: contract_file = options.save_file contract.save_to_file(contract_file, data_dir=data_directory) except Exception as e: raise Exception('failed to register the contract; {0}'.format(str(e))) # provision the encryption keys to all of the enclaves try: encrypted_state_encryption_keys = __add_enclave_secrets( ledger_config, contract.contract_id, client_keys, eservice_clients, pservice_clients) for enclave_id in encrypted_state_encryption_keys: encrypted_key = encrypted_state_encryption_keys[enclave_id] contract.set_state_encryption_key(enclave_id, encrypted_key) contract.save_to_file(contract_file, data_dir=data_directory) except Exception as e: raise Exception('failed to provisioning the enclaves; {0}'.format( str(e))) # create the initial contract state try: __create_contract(ledger_config, client_keys, preferred_eservice_client, eservice_clients, contract) contract.contract_state.save_to_cache(data_dir=data_directory) contract.save_to_file(contract_file, data_dir=data_directory) except Exception as e: raise Exception( 'failed to create the initial contract state; {0}'.format(str(e))) if contract_id and options.symbol: bindings.bind(options.symbol, contract_id)
def LocalMain(commands, config): # ---------- load the contract ---------- try: ledger_config = config['Sawtooth'] contract_config = config['Contract'] service_config = config['Service'] key_config = config['Key'] except KeyError as ke: logger.error('missing configuration section %s', str(ke)) sys.exit(-1) # ---------- load the invoker's keys ---------- try: keyfile = key_config['FileName'] keypath = key_config['SearchPath'] client_keys = ServiceKeys.read_from_file(keyfile, keypath) except KeyError as ke: logger.error('missing configuration parameter %s', str(ke)) sys.exit(-1) except Exception as e: logger.error('unable to load client keys; %s', str(e)) sys.exit(-1) # ---------- read the contract source code ---------- try: contract_name = contract_config['Name'] data_directory = contract_config['DataDirectory'] save_file = contract_config['SaveFile'] source_file = contract_config['SourceFile'] source_path = contract_config['SourceSearchPath'] contract_code = ContractCode.create_from_scheme_file( contract_name, source_file, source_path) except KeyError as ke: logger.error('missing configuration parameter %s', str(ke)) sys.exit(-1) except Exception as e: logger.error('unable to load contract source; %s', str(e)) sys.exit(-1) logger.info('Loaded contract data for %s', contract_name) # ---------- set up the enclave clients ---------- try: enclaveclients = [] for url in service_config['EnclaveServiceURLs']: enclaveclients.append(EnclaveServiceClient(url)) except Exception as e: logger.error('unable to setup enclave services; %s', str(e)) sys.exit(-1) # ---------- set up the provisioning service clients ---------- # This is a dictionary of provisioning service public key : client pairs try: provclients = [] for url in service_config['ProvisioningServiceURLs']: provclients.append(ProvisioningServiceClient(url)) except Exception as e: logger.error('unable to setup provisioning services; %s', str(e)) sys.exit(-1) logger.debug("All enclaveclients: %s", enclaveclients) logger.debug("All provclients: %s", provclients) # process the commands to create & register the contract if 'register' in commands: try: provisioning_service_keys = [pc.identity for pc in provclients] contract_id = register_contract(ledger_config, client_keys, contract_code, provisioning_service_keys) logger.info('Registered contract %s with id %s', contract_name, contract_id) contract_state = ContractState.create_new_state(contract_id) contract = Contract(contract_code, contract_state, contract_id, client_keys.identity) contract.save_to_file(save_file, data_dir=data_directory) except Exception as e: logger.error('failed to register the contract; %s', str(e)) sys.exit(-1) else: # need to read the contract from the contract file contract = Contract.read_from_file(ledger_config, contract_name, data_directory) if 'addenclave' in commands: encrypted_state_encryption_keys = AddEnclaveSecrets( ledger_config, contract.contract_id, client_keys, enclaveclients, provclients) for enclave_id in encrypted_state_encryption_keys: encrypted_key = encrypted_state_encryption_keys[enclave_id] contract.set_state_encryption_key(enclave_id, encrypted_key) contract.save_to_file(save_file, data_dir=data_directory) logger.info( 'Successfully added enclave secrets to ledger for contract %s', contract_code.name) if 'create' in commands: CreateContract(ledger_config, client_keys, enclaveclients, contract) contract.contract_state.save_to_cache(data_dir=data_directory) contract.save_to_file(save_file, data_dir=data_directory) print('export CONTRACTID={0}'.format(contract.contract_id))
def CreateAndRegisterContract(config, contract_info, creator_keys): ledger_config = config.get('Sawtooth') contract_config = config.get('Contract') contract_creator_id = creator_keys.identity contract_name = contract_info['Name'] source_file = contract_info['Source'] search_path = contract_config['SourceSearchPath'] contract_code = ContractCode.create_from_scheme_file( contract_name, source_file, search_path=search_path) # -------------------------------------------------- logger.info('register the contract') # -------------------------------------------------- pservice_urls = contract_info.get("ProvisioningServices") provisioning_services = list( map(lambda url: ProvisioningServiceClient(url), pservice_urls)) provisioning_service_keys = list( map(lambda svc: svc.identity, provisioning_services)) contract_id = register_contract(ledger_config, creator_keys, contract_code, provisioning_service_keys) logger.info('registered the contract as %s', contract_id) contract_state = ContractState.create_new_state(contract_id) contract = Contract(contract_code, contract_state, contract_id, contract_creator_id) # -------------------------------------------------- logger.info('provision enclaves') # -------------------------------------------------- eservice_urls = contract_info.get("EnclaveServices") enclave_services = list( map(lambda url: GetEnclaveServiceByURL(url), eservice_urls)) for eservice in enclave_services: secret_list = [] for pservice in provisioning_services: message = pcrypto.string_to_byte_array(eservice.enclave_id + contract_id) signature = creator_keys.sign(message) secret = pservice.get_secret(eservice.enclave_id, contract_id, creator_keys.verifying_key, signature) secret_list.append(secret) secretinfo = eservice.verify_secrets(contract_id, contract_creator_id, secret_list) encrypted_state_encryption_key = secretinfo[ 'encrypted_state_encryption_key'] signature = secretinfo['signature'] txnid = add_enclave_to_contract(ledger_config, creator_keys, contract_id, eservice.enclave_id, secret_list, encrypted_state_encryption_key, signature) contract.set_state_encryption_key(eservice.enclave_id, encrypted_state_encryption_key) # -------------------------------------------------- logger.info('create the initial contract state') # -------------------------------------------------- eservice = random.choice(enclave_services) initialize_request = contract.create_initialize_request( creator_keys, eservice) initialize_response = initialize_request.evaluate() if initialize_response.status is False: emessage = initialize_response.result logger.warn('initialization for contract %s failed; %s', contract_name, emessage) raise Exception('initialization failed; {}'.format(emessage)) contract.set_state(initialize_response.encrypted_state) logger.info('initial state created') # -------------------------------------------------- logger.info('save the initial state in the ledger') # -------------------------------------------------- txnid = initialize_response.submit_initialize_transaction(ledger_config, wait=30) return contract
def command_create(state, bindings, pargs): """controller command to create a contract """ default_interpreter = state.get(['Contract', 'Interpreter']) default_replicas = state.get(['Replication', 'NumProvableReplicas'], 2) default_duration = state.get(['Replication', 'Duration'], 120) parser = argparse.ArgumentParser(prog='create') parser.add_argument('-c', '--contract-class', help='Name of the contract class', required=False, type=str) parser.add_argument('-e', '--eservice-group', help='Name of the enclave service group to use', default="default") parser.add_argument('-f', '--save-file', help='File where contract data is stored', type=str) parser.add_argument('-i', '--interpreter', help='Interpreter used to evaluate the contract', default=default_interpreter) parser.add_argument('-p', '--pservice-group', help='Name of the provisioning service group to use', default="default") parser.add_argument('-s', '--contract-source', help='File that contains contract source code', required=True, type=str) parser.add_argument('--symbol', help='binding symbol for result', type=str) parser.add_argument('--state-replicas', help='Number of authoritative replicas of the state', default=default_replicas) parser.add_argument('--state-duration', help='Duration required for state replicas', default=default_duration) parser.add_argument( '--extra-data', help='Simple string that can save extra data with the contract file', type=str) options = parser.parse_args(pargs) contract_class = options.contract_class contract_source = options.contract_source # ---------- load the invoker's keys ---------- try: keyfile = state.private_key_file keypath = state.get(['Key', 'SearchPath']) client_keys = ServiceKeys.read_from_file(keyfile, keypath) except Exception as e: raise Exception('unable to load client keys; {0}'.format(str(e))) # ---------- read the contract source code ---------- try: source_path = state.get(['Contract', 'SourceSearchPath']) contract_code = ContractCode.create_from_file( contract_class, contract_source, source_path, interpreter=options.interpreter) except Exception as e: raise Exception('unable to load contract source; {0}'.format(str(e))) logger.debug('Loaded contract code for %s', contract_class) # ---------- set up the enclave clients ---------- eservice_clients = get_eservice_list(state, options.eservice_group) if len(eservice_clients) == 0: raise Exception('unable to locate enclave services in the group %s', options.eservice_group) preferred_eservice_client = get_eservice( state, eservice_group=options.eservice_group) if preferred_eservice_client.interpreter != options.interpreter: raise Exception( 'enclave interpreter does not match requested contract interpreter %s', options.interpreter) # ---------- set up the provisioning service clients ---------- pservice_clients = get_pservice_list(state, options.pservice_group) if len(pservice_clients) == 0: raise Exception( 'unable to locate provisioning services in the group %s', options.pservice_group) # ---------- register contract ---------- data_directory = state.get(['Contract', 'DataDirectory']) ledger_config = state.get(['Ledger']) try: extra_params = { 'num_provable_replicas': options.state_replicas, 'availability_duration': options.state_duration, } if options.extra_data: extra_params['extra_data'] = options.extra_data provisioning_service_keys = [pc.identity for pc in pservice_clients] contract_id = register_contract(ledger_config, client_keys, contract_code, provisioning_service_keys) logger.debug('Registered contract with class %s and id %s', contract_class, contract_id) contract_state = ContractState.create_new_state(contract_id) contract = Contract(contract_code, contract_state, contract_id, client_keys.identity, **extra_params) # must fix this later contract.extra_data[ 'preferred-enclave'] = preferred_eservice_client.enclave_id contract_file = "{0}_{1}.pdo".format(contract_class, contract.short_id) if options.save_file: contract_file = options.save_file contract.save_to_file(contract_file, data_dir=data_directory) except Exception as e: raise Exception('failed to register the contract; {0}'.format(str(e))) # provision the encryption keys to all of the enclaves try: encrypted_state_encryption_keys = __add_enclave_secrets( ledger_config, contract.contract_id, client_keys, eservice_clients, pservice_clients) for enclave_id in encrypted_state_encryption_keys: encrypted_key = encrypted_state_encryption_keys[enclave_id] contract.set_state_encryption_key(enclave_id, encrypted_key) contract.save_to_file(contract_file, data_dir=data_directory) except Exception as e: raise Exception('failed to provisioning the enclaves; {0}'.format( str(e))) # create the initial contract state try: __create_contract(ledger_config, client_keys, preferred_eservice_client, eservice_clients, contract) contract.save_to_file(contract_file, data_dir=data_directory) except Exception as e: raise Exception( 'failed to create the initial contract state; {0}'.format(str(e))) if contract_id and options.symbol: bindings.bind(options.symbol, contract_id)
def command_create(state, bindings, pargs) : """controller command to create a contract """ parser = argparse.ArgumentParser(prog='create') parser.add_argument('-c', '--contract-class', help='Name of the contract class', required = True, type=str) parser.add_argument('-s', '--contract-source', help='File that contains contract source code', required=True, type=str) parser.add_argument('-f', '--save-file', help='File where contract data is stored', type=str) options = parser.parse_args(pargs) contract_class = options.contract_class contract_source = options.contract_source contract_file = "{0}.pdo".format(contract_class) if options.save_file : contract_file = options.save_file # ---------- load the invoker's keys ---------- try : keyfile = state.get(['Key', 'FileName']) keypath = state.get(['Key', 'SearchPath']) client_keys = ServiceKeys.read_from_file(keyfile, keypath) except Exception as e : raise Exception('unable to load client keys; {0}'.format(str(e))) # ---------- read the contract source code ---------- try : source_path = state.get(['Contract', 'SourceSearchPath']) contract_code = ContractCode.create_from_scheme_file(contract_class, contract_source, source_path) except Exception as e : raise Exception('unable to load contract source; {0}'.format(str(e))) logger.info('Loaded contract code for %s', contract_class) # ---------- set up the enclave clients ---------- try : eservice_urls = state.get(['Service', 'EnclaveServiceURLs'], []) if len(eservice_urls) == 0 : raise Exception('no enclave services specified') enclaveclients = [] for url in eservice_urls : enclaveclients.append(EnclaveServiceClient(url)) except Exception as e : raise Exception('unable to contact enclave services; {0}'.format(str(e))) # ---------- set up the provisioning service clients ---------- # This is a dictionary of provisioning service public key : client pairs try : pservice_urls = state.get(['Service', 'ProvisioningServiceURLs']) if len(pservice_urls) == 0 : raise Exception('no provisioning services specified') provclients = [] for url in pservice_urls : provclients.append(ProvisioningServiceClient(url)) except Exception as e : raise Exception('unable to contact provisioning services; {0}'.format(str(e))) # ---------- register contract ---------- data_directory = state.get(['Contract', 'DataDirectory']) ledger_config = state.get(['Sawtooth']) try : provisioning_service_keys = [pc.identity for pc in provclients] contract_id = register_contract( ledger_config, client_keys, contract_code, provisioning_service_keys) logger.info('Registered contract with class %s and id %s', contract_class, contract_id) contract_state = ContractState.create_new_state(contract_id) contract = Contract(contract_code, contract_state, contract_id, client_keys.identity) contract.save_to_file(contract_file, data_dir=data_directory) except Exception as e : raise Exception('failed to register the contract; {0}'.format(str(e))) # provision the encryption keys to all of the enclaves try : encrypted_state_encryption_keys = __add_enclave_secrets( ledger_config, contract.contract_id, client_keys, enclaveclients, provclients) for enclave_id in encrypted_state_encryption_keys : encrypted_key = encrypted_state_encryption_keys[enclave_id] contract.set_state_encryption_key(enclave_id, encrypted_key) contract.save_to_file(contract_file, data_dir=data_directory) except Exception as e : raise Exception('failed to provisioning the enclaves; {0}'.format(str(e))) # create the initial contract state try : __create_contract(ledger_config, client_keys, enclaveclients, contract) contract.contract_state.save_to_cache(data_dir = data_directory) contract.save_to_file(contract_file, data_dir=data_directory) except Exception as e : raise Exception('failed to create the initial contract state; {0}'.format(str(e)))