cic-internal-integration/apps/cic-ussd/cic_ussd/state_machine/logic/user.py

229 lines
7.7 KiB
Python

# standard imports
import json
import logging
from typing import Tuple
# third-party imports
import celery
from cic_types.models.person import Person, generate_metadata_pointer
from cic_types.models.person import generate_vcard_from_contact_data, manage_identity_data
# local imports
from cic_ussd.chain import Chain
from cic_ussd.db.models.user import User
from cic_ussd.error import UserMetadataNotFoundError
from cic_ussd.metadata import blockchain_address_to_metadata_pointer
from cic_ussd.operations import save_to_in_memory_ussd_session_data
from cic_ussd.redis import get_cached_data
logg = logging.getLogger(__file__)
def change_preferred_language_to_en(state_machine_data: Tuple[str, dict, User]):
"""This function changes the user's preferred language to english.
:param state_machine_data: A tuple containing user input, a ussd session and user object.
:type state_machine_data: tuple
"""
user_input, ussd_session, user = state_machine_data
user.preferred_language = 'en'
User.session.add(user)
User.session.commit()
def change_preferred_language_to_sw(state_machine_data: Tuple[str, dict, User]):
"""This function changes the user's preferred language to swahili.
:param state_machine_data: A tuple containing user input, a ussd session and user object.
:type state_machine_data: tuple
"""
user_input, ussd_session, user = state_machine_data
user.preferred_language = 'sw'
User.session.add(user)
User.session.commit()
def update_account_status_to_active(state_machine_data: Tuple[str, dict, User]):
"""This function sets user's account to active.
:param state_machine_data: A tuple containing user input, a ussd session and user object.
:type state_machine_data: tuple
"""
user_input, ussd_session, user = state_machine_data
user.activate_account()
User.session.add(user)
User.session.commit()
def process_gender_user_input(user: User, user_input: str):
"""
:param user:
:type user:
:param user_input:
:type user_input:
:return:
:rtype:
"""
if user.preferred_language == 'en':
if user_input == '1':
gender = 'Male'
else:
gender = 'Female'
else:
if user_input == '1':
gender = 'Mwanaume'
else:
gender = 'Mwanamke'
return gender
def save_metadata_attribute_to_session_data(state_machine_data: Tuple[str, dict, User]):
"""This function saves first name data to the ussd session in the redis cache.
:param state_machine_data: A tuple containing user input, a ussd session and user object.
:type state_machine_data: tuple
"""
user_input, ussd_session, user = state_machine_data
# get current menu
current_state = ussd_session.get('state')
# define session data key from current state
key = ''
if 'given_name' in current_state:
key = 'given_name'
elif 'family_name' in current_state:
key = 'family_name'
elif 'gender' in current_state:
key = 'gender'
user_input = process_gender_user_input(user=user, user_input=user_input)
elif 'location' in current_state:
key = 'location'
elif 'products' in current_state:
key = 'products'
# check if there is existing session data
if ussd_session.get('session_data'):
session_data = ussd_session.get('session_data')
session_data[key] = user_input
else:
session_data = {
key: user_input
}
save_to_in_memory_ussd_session_data(queue='cic-ussd', session_data=session_data, ussd_session=ussd_session)
def format_user_metadata(metadata: dict, user: User):
"""
:param metadata:
:type metadata:
:param user:
:type user:
:return:
:rtype:
"""
gender = metadata.get('gender')
given_name = metadata.get('given_name')
family_name = metadata.get('family_name')
location = {
"area_name": metadata.get('location')
}
products = []
if metadata.get('products'):
products = metadata.get('products').split(',')
phone_number = user.phone_number
date_registered = int(user.created.replace().timestamp())
blockchain_address = user.blockchain_address
chain_spec = f'{Chain.spec.common_name()}:{Chain.spec.network_id()}'
identities = manage_identity_data(
blockchain_address=blockchain_address,
blockchain_type=Chain.spec.engine(),
chain_spec=chain_spec
)
return {
"date_registered": date_registered,
"gender": gender,
"identities": identities,
"location": location,
"products": products,
"vcard": generate_vcard_from_contact_data(
family_name=family_name,
given_name=given_name,
tel=phone_number
)
}
def save_complete_user_metadata(state_machine_data: Tuple[str, dict, User]):
"""This function persists elements of the user metadata stored in session data
:param state_machine_data: A tuple containing user input, a ussd session and user object.
:type state_machine_data: tuple
"""
user_input, ussd_session, user = state_machine_data
# get session data
metadata = ussd_session.get('session_data')
# format metadata appropriately
user_metadata = format_user_metadata(metadata=metadata, user=user)
blockchain_address = user.blockchain_address
s_create_user_metadata = celery.signature(
'cic_ussd.tasks.metadata.create_user_metadata',
[blockchain_address, user_metadata]
)
s_create_user_metadata.apply_async(queue='cic-ussd')
def edit_user_metadata_attribute(state_machine_data: Tuple[str, dict, User]):
user_input, ussd_session, user = state_machine_data
blockchain_address = user.blockchain_address
key = generate_metadata_pointer(
identifier=blockchain_address_to_metadata_pointer(blockchain_address=user.blockchain_address),
cic_type='cic.person'
)
user_metadata = get_cached_data(key=key)
if not user_metadata:
raise UserMetadataNotFoundError(f'Expected user metadata but found none in cache for key: {blockchain_address}')
given_name = ussd_session.get('session_data').get('given_name')
family_name = ussd_session.get('session_data').get('family_name')
gender = ussd_session.get('session_data').get('gender')
location = ussd_session.get('session_data').get('location')
products = ussd_session.get('session_data').get('products')
# validate user metadata
person = Person()
user_metadata = json.loads(user_metadata)
deserialized_person = person.deserialize(person_data=user_metadata)
# edit specific metadata attribute
if given_name:
deserialized_person.given_name = given_name
elif family_name:
deserialized_person.family_name = family_name
elif gender:
deserialized_person.gender = gender
elif location:
# get existing location metadata:
location_data = user_metadata.get('location')
location_data['area_name'] = location
deserialized_person.location = location_data
elif products:
deserialized_person.products = products
edited_metadata = deserialized_person.serialize()
s_edit_user_metadata = celery.signature(
'cic_ussd.tasks.metadata.edit_user_metadata',
[blockchain_address, edited_metadata, 'pgp']
)
s_edit_user_metadata.apply_async(queue='cic-ussd')
def get_user_metadata(state_machine_data: Tuple[str, dict, User]):
user_input, ussd_session, user = state_machine_data
blockchain_address = user.blockchain_address
s_get_user_metadata = celery.signature(
'cic_ussd.tasks.metadata.query_user_metadata',
[blockchain_address]
)
s_get_user_metadata.apply_async(queue='cic-ussd')