# standard imports import json import logging from typing import Tuple # third party imports import celery from sqlalchemy.orm.session import Session # local imports from cic_ussd.balance import compute_operational_balance from cic_ussd.chain import Chain from cic_ussd.db.models.account import Account from cic_ussd.db.models.base import SessionBase from cic_ussd.db.enum import AccountStatus from cic_ussd.operations import save_to_in_memory_ussd_session_data from cic_ussd.phone_number import process_phone_number, E164Format from cic_ussd.processor import retrieve_token_symbol from cic_ussd.redis import create_cached_data_key, get_cached_data from cic_ussd.transactions import OutgoingTransactionProcessor logg = logging.getLogger(__file__) def is_valid_recipient(state_machine_data: Tuple[str, dict, Account, Session]) -> bool: """This function checks that a user exists, is not the initiator of the transaction, has an active account status and is authorized to perform standard transactions. :param state_machine_data: A tuple containing user input, a ussd session and user object. :type state_machine_data: tuple :return: A user's validity :rtype: bool """ user_input, ussd_session, user, session = state_machine_data phone_number = process_phone_number(user_input, E164Format.region) session = SessionBase.bind_session(session=session) recipient = Account.get_by_phone_number(phone_number=phone_number, session=session) SessionBase.release_session(session=session) is_not_initiator = phone_number != user.phone_number has_active_account_status = user.get_account_status() == AccountStatus.ACTIVE.name return is_not_initiator and has_active_account_status and recipient is not None def is_valid_transaction_amount(state_machine_data: Tuple[str, dict, Account, Session]) -> bool: """This function checks that the transaction amount provided is valid as per the criteria for the transaction being attempted. :param state_machine_data: A tuple containing user input, a ussd session and user object. :type state_machine_data: tuple :return: A transaction amount's validity :rtype: bool """ user_input, ussd_session, user, session = state_machine_data try: return int(user_input) > 0 except ValueError: return False def has_sufficient_balance(state_machine_data: Tuple[str, dict, Account, Session]) -> bool: """This function checks that the transaction amount provided is valid as per the criteria for the transaction being attempted. :param state_machine_data: A tuple containing user input, a ussd session and user object. :type state_machine_data: tuple :return: An account balance's validity :rtype: bool """ user_input, ussd_session, user, session = state_machine_data # get cached balance key = create_cached_data_key( identifier=bytes.fromhex(user.blockchain_address[2:]), salt=':cic.balances_data' ) cached_balance = get_cached_data(key=key) operational_balance = compute_operational_balance(balances=json.loads(cached_balance)) return int(user_input) <= operational_balance def save_recipient_phone_to_session_data(state_machine_data: Tuple[str, dict, Account, Session]): """This function saves the phone number corresponding the intended recipients blockchain account. :param state_machine_data: A tuple containing user input, a ussd session and user object. :type state_machine_data: str """ user_input, ussd_session, user, session = state_machine_data session_data = ussd_session.get('session_data') or {} recipient_phone_number = process_phone_number(phone_number=user_input, region=E164Format.region) session_data['recipient_phone_number'] = recipient_phone_number save_to_in_memory_ussd_session_data( queue='cic-ussd', session=session, session_data=session_data, ussd_session=ussd_session) def retrieve_recipient_metadata(state_machine_data: Tuple[str, dict, Account, Session]): """ :param state_machine_data: :type state_machine_data: :return: :rtype: """ user_input, ussd_session, user, session = state_machine_data recipient_phone_number = process_phone_number(phone_number=user_input, region=E164Format.region) recipient = Account.get_by_phone_number(phone_number=recipient_phone_number, session=session) blockchain_address = recipient.blockchain_address # retrieve and cache account's metadata s_query_person_metadata = celery.signature( 'cic_ussd.tasks.metadata.query_person_metadata', [blockchain_address] ) s_query_person_metadata.apply_async(queue='cic-ussd') def save_transaction_amount_to_session_data(state_machine_data: Tuple[str, dict, Account, Session]): """This function saves the phone number corresponding the intended recipients blockchain account. :param state_machine_data: A tuple containing user input, a ussd session and user object. :type state_machine_data: str """ user_input, ussd_session, user, session = state_machine_data session_data = ussd_session.get('session_data') or {} session_data['transaction_amount'] = user_input save_to_in_memory_ussd_session_data( queue='cic-ussd', session=session, session_data=session_data, ussd_session=ussd_session) def process_transaction_request(state_machine_data: Tuple[str, dict, Account, Session]): """This function saves the phone number corresponding the intended recipients blockchain account. :param state_machine_data: A tuple containing user input, a ussd session and user object. :type state_machine_data: str """ user_input, ussd_session, user, session = state_machine_data # retrieve token symbol chain_str = Chain.spec.__str__() # get user from phone number recipient_phone_number = ussd_session.get('session_data').get('recipient_phone_number') recipient = Account.get_by_phone_number(phone_number=recipient_phone_number, session=session) to_address = recipient.blockchain_address from_address = user.blockchain_address amount = int(ussd_session.get('session_data').get('transaction_amount')) token_symbol = retrieve_token_symbol(chain_str=chain_str) outgoing_tx_processor = OutgoingTransactionProcessor(chain_str=chain_str, from_address=from_address, to_address=to_address) outgoing_tx_processor.process_outgoing_transfer_transaction(amount=amount, token_symbol=token_symbol)