def setup_verified_test(session):
    # Setup
    blocks = [
        Block(blockhash="0x1", number=1, parenthash="", is_current=False),
        Block(blockhash="0x2", number=2, parenthash="", is_current=True),
    ]
    users = [
        User(
            blockhash="0x1",
            blocknumber=1,
            user_id=1,
            is_current=True,
            wallet="0xFakeWallet1",
            created_at=datetime.now(),
            updated_at=datetime.now(),
            is_verified=False,
        ),
        User(
            blockhash="0x2",
            blocknumber=2,
            user_id=2,
            is_current=True,
            wallet="0xFakeWallet2",
            created_at=datetime.now(),
            updated_at=datetime.now(),
            is_verified=True,
        ),
    ]

    challenges = [
        Challenge(
            id="referrals",
            type=ChallengeType.aggregate,
            active=True,
            amount="1",
            step_count=5,
        ),
        Challenge(
            id="ref-v",
            type=ChallengeType.aggregate,
            active=True,
            amount="1",
            step_count=500,
        ),
    ]

    # Wipe any existing challenges in the DB from running migrations, etc
    session.query(Challenge).delete()
    session.commit()
    session.add_all(blocks)
    session.commit()
    session.add_all(users)
    session.add_all(challenges)
    session.commit()

    redis_conn = redis.Redis.from_url(url=REDIS_URL)
    bus = ChallengeEventBus(redis_conn)
    bus.register_listener(DEFAULT_EVENT, referral_challenge_manager)
    bus.register_listener(DEFAULT_EVENT, verified_referral_challenge_manager)
    return bus
Beispiel #2
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def update_user(current_user, email):

    if not current_user.admin:
        return ResponseGenerator.not_authorized()

    user = User.query.filter_by(email=email).first()
    data = request.get_json()

    if not user:
        return ResponseGenerator.not_found()

    if data['admin'] == "True":
        admin = True
    else:
        admin = False

    user.name = data['name']
    user.password = data['password']
    user.email = data['email']
    user.admin = admin
    update_user = User(name=user.name,
                       email=user.email,
                       password=user.password,
                       admin=user.admin)

    User.update(update_user)

    return ResponseGenerator.generate_response(
        f"{update_user.name} has been successfully updated", 200)
Beispiel #3
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def delete_user(current_user, email):

    if not current_user.admin:
        return ResponseGenerator.not_authorized()

    user = User.query.filter_by(email=email).first()

    if not user:
        return ResponseGenerator.not_found()

    User.delete(user)

    return ResponseGenerator.generate_response(
        f"{user.name} deleted successfully from DB.", 200)
Beispiel #4
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 def addSampleUser(self):
     user1 = User(
         name="テストユーザー1",
         encrypted_password=bcrypt.generate_password_hash(
             "password").decode('utf-8'),
     )
     user2 = User(
         name="テストユーザー2",
         encrypted_password=bcrypt.generate_password_hash(
             "password2").decode('utf-8'),
     )
     db.session.add(user1)
     db.session.add(user2)
     db.session.commit()
     return user1, user2
Beispiel #5
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def login():
    auth = request.authorization

    if not auth or not auth.username or not auth.password:
        # return make_response('Could not verify', 401, {'WWW-Authenticate' : 'Basic realm="Login required"'})
        return ResponseGenerator.mandatory_field(["email", "password"], 401)

    user = User.query.filter_by(email=auth.username).first()

    if not user:
        return make_response(
            'Could not verify', 401,
            {'WWW-Authenticate': 'Basic realm="Login required"'})

    if User.check_password(user, auth.password):
        token = jwt.encode(
            {
                'email': user.email,
                'exp':
                datetime.datetime.utcnow() + datetime.timedelta(minutes=30)
            }, Configuration.SECRET_KEY)
        return jsonify({'token': token.decode('UTF-8')})

    return make_response('Could not verify', 401,
                         {'WWW-Authenticate': 'Basic realm="Login required"'})
Beispiel #6
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async def authenticate(email: str, password: str):
    user = await User.find_by_email(email)

    if user and User.verify_hash(password, user.password):
        return user

    raise UnauthorisedException("Username and/or password is incorrect")
def create_user():
    form_data = flask.request.json
    username: str = form_data.get('username')
    password: str = form_data.get('password')
    profile: str = form_data.get('profile')
    watchword: str = form_data.get('watchword')
    if watchword != WATCH_WORD:
        return flask.jsonify({"result": False, "message": "合言葉が違います"}), 401
    # TODO:有効な文字列か確認。
    if not username:
        return flask.jsonify({"result": False, "message": "ユーザー名は必須です"}), 400
    if len(username) > 30:
        return flask.jsonify({"result": False, "message": "ユーザー名が長すぎます"}), 400
    if not password:
        return flask.jsonify({"result": False, "message": "パスワードは必須です"}), 400
    if len(password.encode('utf-8')) > 50:
        return flask.jsonify({"result": False, "message": "パスワードが長すぎます"}), 400
    if User.query.filter_by(name=username).one_or_none():
        return flask.jsonify({
            "result": False,
            "message": "ユーザー名が利用されています"
        }), 409
    hashed_password = bcrypt.generate_password_hash(password).decode('utf-8')
    user: User = User(name=username,
                      encrypted_password=hashed_password,
                      profile=profile)
    db.session.add(user)
    db.session.commit()
    access_token: str = create_access_token(identity=user)
    return flask.jsonify({
        "result": True,
        "message": "ユーザー(" + username + ")を作成しました。",
        "data": user.to_json(),
        'token': access_token
    }), 201
Beispiel #8
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class TestUserLogin(unittest.TestCase):

    def setUp(self):
        self.__user = User('user_id', 'user_name')

    def test_should_set_correct_user_login(self):
        self.assertEqual(self.__user.user_id, "user_id", "Wrong User Id")
        self.assertEqual(self.__user.name, "user_name", "Wrong User Id")

    def test_should_return_dict(self):
        data = self.__user.to_dict()
        self.assertEqual("user_id", data["id"], "Wrong User Login Dict Return")
        self.assertEqual("user_name", data["name"], "Wrong User Login Dict Return")
Beispiel #9
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def create_user():

    data = request.get_json()
    email = data['email']
    user = User.query.filter_by(email=email).first()

    if user:
        return ResponseGenerator.error_response(
            f"Already {email} exist in DB. Try using other email address", 409)

    if data['admin'] == "True":
        admin = True
    else:
        admin = False

    new_user = User(name=data['name'],
                    email=data['email'],
                    password=data['password'],
                    admin=admin)
    User.save(new_user)

    return ResponseGenerator.generate_response(data, 200)
    def get_users(self) -> list:
        self.__logger.info("Getting users from configuration")

        users = list()

        for document in self.__user_collection.find():
            user_id = str(document['_id'])
            name = str(document['name'])

            user = User(user_id, name)
            users.append(user)

        return users
Beispiel #11
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def create_user(offset: int) -> User:
    return User(
        blockhash="0x1",
        blocknumber=BLOCK_NUMBER,
        txhash="xyz",
        user_id=offset,
        is_current=True,
        handle=f"TestHandle-{offset}",
        handle_lc=f"testhandle-{offset}",
        wallet="0x1",
        is_creator=False,
        is_verified=False,
        name=f"test_name_{offset}",
        created_at=datetime.now(),
        updated_at=datetime.now(),
    )
Beispiel #12
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 def add_new_user(self):
     """
     Method to add new user record into the database
     """
     new_record = User(full_name=self.full_name,
                       job_title=self.job_title,
                       image_string=self.image_string,
                       department=self.department,
                       branch_code=self.branch_code,
                       access_level=self.access_level,
                       till_o_balance=self.till_o_balance,
                       till_c_balance=self.till_c_balance,
                       email=self.email,
                       password=self.encrypted_password,
                       lock=self.lock)
     session.add(new_record)
     session.commit()
Beispiel #13
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 def post():
     try:
         username, password, email = (
             request.json.get("username").strip(),
             request.json.get("password").strip(),
             request.json.get("email").strip(),
         )
     except Exception as e:
         logger.info(f"Credentials or email is wrong. {str(e)}")
         return error.INVALID_INPUT
     if username is None or password is None or email is None:
         return error.INVALID_INPUT
     user = User.query.filter_by(email=email).first()
     if user is not None:
         return error.ALREADY_EXIST
     user = User(username=username, password=password, email=email)
     db.session.add(user)
     db.session.commit()
     return {"status": "registration completed."}
Beispiel #14
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def handle_create_user(
    session: Session,
    transaction: ParsedTx,
    instruction: ParsedTxInstr,
    db_models: Dict,
    metadata_dictionary: Dict,
    records: List[Any],
):
    instruction_data: CreateUserData = instruction["data"]
    # Validate that the user row doesn't already exist - error if it does
    user_id = instruction_data["user_id"]
    # TODO: validate uniqueness on handle
    replica_set = list(instruction_data["replica_set"])

    eth_address = Web3.toChecksumAddress(
        f"0x{bytes(list(instruction_data['eth_address'])).hex()}")
    metadata_multihash = instruction_data.get("metadata")

    user = User(
        blockhash=None,
        blocknumber=None,
        slot=transaction["result"]["slot"],
        user_storage_account=str(
            instruction.get("account_names_map").get("user")),
        user_authority_account=str(instruction_data.get("user_authority")),
        txhash=transaction["tx_sig"],
        user_id=user_id,
        is_current=True,
        wallet=eth_address,
        metadata_multihash=metadata_multihash,
        primary_id=replica_set[0],
        secondary_ids=[replica_set[1], replica_set[2]],
        created_at=datetime.utcfromtimestamp(
            transaction["result"]["blockTime"]),
        updated_at=datetime.utcfromtimestamp(
            transaction["result"]["blockTime"]),
    )

    user_metadata = metadata_dictionary.get(instruction_data["metadata"], {})
    update_user_model_metadata(session, user, user_metadata)
    records.append(user)
    db_models["users"][user_id].append(user)
Beispiel #15
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 def newUser(self, role):
     """
     Function to register a new user.
     """
     try:
         uname = input(Input.username.value)
         passwrd = input(Input.password.value)
         empId = str(uuid.uuid4())
         newuser = User(username=uname,
                        password=encrypt_message(passwrd),
                        emp_id=empId,
                        type=role,
                        updated_at=datetime.now(),
                        is_deleted="false")
         session.add(newuser)
         session.commit()
         print(Input.new_user_created.value)
         return True
     except exc.SQLAlchemyError as e:
         print("Error creating new employee : {}".format(e))
         return False
Beispiel #16
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 def setUp(self):
     self.emp_id = '123'
     self.booking_dummy_data = [
         booking(booking_id='test',
                 emp_id='test',
                 cab_number='test',
                 source='test',
                 destination='test',
                 arrival_time='test',
                 departure_time='test',
                 created_at=datetime.now() - timedelta(days=1),
                 updated_at=datetime.now(),
                 canceled='0')
     ]
     self.user_dummy_data = [
         User(username='******',
              emp_id='emp',
              password='******',
              type='type',
              updated_at=datetime.now(),
              deleted_at="",
              is_deleted='false')
     ]
     self.routes_dummy_data = [
         routes(cab_number='123',
                route_id='1',
                stop_name='abcd',
                stage=4,
                time='2020-06-08 15:36:50',
                available_seats=2,
                updated_at='2020-06-08 15:36:50',
                is_deleted='False')
     ]
     self.cab_dummy_data = [
         cab(cab_number='123',
             capacity='4',
             is_deleted='False',
             updated_at='2020-06-08 15:36:50',
             deleted_at="")
     ]
Beispiel #17
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def test_referral_challenge(app):
    redis_conn = redis.Redis.from_url(url=REDIS_URL)

    with app.app_context():
        db = get_db()

    block = Block(blockhash="0x1", number=BLOCK_NUMBER)
    referrer = User(
        blockhash="0x1",
        blocknumber=BLOCK_NUMBER,
        txhash="xyz",
        user_id=1,
        is_current=True,
        handle="Referrer",
        handle_lc="referrer",
        wallet="0x1",
        is_creator=False,
        is_verified=False,
        name="referrer_name",
        created_at=datetime.now(),
        updated_at=datetime.now(),
    )

    with db.scoped_session() as session:
        # Setup
        bus = ChallengeEventBus(redis_conn)
        bus.register_listener(ChallengeEvent.referred_signup,
                              referred_challenge_manager)
        bus.register_listener(ChallengeEvent.referral_signup,
                              referral_challenge_manager)
        bus.register_listener(ChallengeEvent.referral_signup,
                              verified_referral_challenge_manager)
        session.add(block)
        session.flush()
        session.add(referrer)
        session.flush()
        # set challenge as active for purposes of test
        session.query(Challenge).filter(
            or_(
                Challenge.id == "referred",
                Challenge.id == "referrals",
                Challenge.id == "ref-v",
            )).update({
                "active": True,
                "starting_block": BLOCK_NUMBER
            })

        # Test:
        # Ensure a single referral from single signup
        # despite many challenge events
        dispatch_new_user_signup(referrer.user_id, 2, session, bus)
        for _ in range(0, 4):
            bus.dispatch(
                ChallengeEvent.referral_signup,
                BLOCK_NUMBER,
                referrer.user_id,
                {"referred_user_id": 2},
            )
            bus.dispatch(ChallengeEvent.referred_signup, BLOCK_NUMBER, 2)
        bus.flush()
        bus.process_events(session)

        challenges = (session.query(UserChallenge).filter(
            UserChallenge.user_id == referrer.user_id).all())
        assert len(challenges) == 1

        # Test:
        # Multiple signups
        # - Referrer is capped at 5
        # - Referred can keep going
        dispatch_new_user_signup(referrer.user_id, 3, session, bus)
        dispatch_new_user_signup(referrer.user_id, 4, session, bus)
        dispatch_new_user_signup(referrer.user_id, 5, session, bus)
        dispatch_new_user_signup(referrer.user_id, 6, session, bus)
        dispatch_new_user_signup(referrer.user_id, 7, session, bus)
        dispatch_new_user_signup(referrer.user_id, 8, session, bus)
        dispatch_new_user_signup(referrer.user_id, 9, session, bus)
        dispatch_new_user_signup(referrer.user_id, 10, session, bus)
        dispatch_new_user_signup(referrer.user_id, 11, session, bus)
        bus.flush()
        bus.process_events(session)
        challenges = (session.query(UserChallenge).filter(
            UserChallenge.user_id == referrer.user_id,
            UserChallenge.challenge_id == "referrals",
            UserChallenge.is_complete == True,
        ).all())
        assert len(challenges) == 5
        challenges = (session.query(UserChallenge).filter(
            UserChallenge.challenge_id == "referred",
            UserChallenge.is_complete == True,
        ).all())
        assert len(challenges) == 10

        # Test:
        # Ensure there are no verified user referrals created yet

        challenges = (session.query(UserChallenge).filter(
            UserChallenge.user_id == referrer.user_id,
            UserChallenge.challenge_id == "ref-v",
            UserChallenge.is_complete == True,
        ).all())
        assert len(challenges) == 0

        # Test: verified users
        # - Ensure that verified user referrals aren't counted
        #   for referrer credit
        # - Ensure that a verified user challenge exists

        verified_user = User(
            blockhash="0x1",
            blocknumber=BLOCK_NUMBER,
            txhash="xyz",
            user_id=12,
            is_current=True,
            handle="VerifiedReferrer",
            handle_lc="verifiedreferrer",
            wallet="0x1",
            is_creator=False,
            is_verified=True,
            name="referrer_name",
            created_at=datetime.now(),
            updated_at=datetime.now(),
        )
        session.add(verified_user)
        session.flush()

        dispatch_new_user_signup(verified_user.user_id, 13, session, bus)
        bus.flush()
        bus.process_events(session)

        # Ensure no regular referral created
        challenges = (session.query(UserChallenge).filter(
            UserChallenge.user_id == verified_user.user_id,
            UserChallenge.challenge_id == "referrals",
            UserChallenge.is_complete == True,
        ).all())
        assert len(challenges) == 0

        # Ensure one verified referral created
        challenges = (session.query(UserChallenge).filter(
            UserChallenge.user_id == verified_user.user_id,
            UserChallenge.challenge_id == "ref-v",
            UserChallenge.is_complete == True,
        ).all())
        assert len(challenges) == 1

        # Test: verified max count
        #  - Ensure with > 5000 verified referrals, we cap at 5000
        #  - No regular referrals are made

        for i in range(5010):
            dispatch_new_user_signup(verified_user.user_id, 14 + i, session,
                                     bus)
            if i % 500 == 0:
                bus.flush()
                bus.process_events(session)

        bus.flush()
        bus.process_events(session)

        # Ensure 5000 verified referral created
        challenges = (session.query(UserChallenge).filter(
            UserChallenge.user_id == verified_user.user_id,
            UserChallenge.challenge_id == "ref-v",
            UserChallenge.is_complete == True,
        ).all())
        assert len(challenges) == 5000

        # Ensure no regular referral created
        challenges = (session.query(UserChallenge).filter(
            UserChallenge.user_id == verified_user.user_id,
            UserChallenge.challenge_id == "referrals",
            UserChallenge.is_complete == True,
        ).all())
        assert len(challenges) == 0
Beispiel #18
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 def setUp(self):
     self.__user = User("user_id", "user_password")
     self.__json_object_encoder = JsonObjectEncoder()
def setup_extra_metadata_test(session):
    blocks = [Block(blockhash="0x1", number=1, parenthash="", is_current=True)]
    users = [
        User(
            blockhash="0x1",
            blocknumber=1,
            user_id=1,
            is_current=True,
            wallet="0x38C68fF3926bf4E68289672F75ee1543117dD9B3",
            created_at=datetime.now(),
            updated_at=datetime.now(),
        )
    ]
    challenges = [
        # Test numeric challenges
        # Numeric 1 with default extra data, no completion
        Challenge(
            id="numeric_1",
            type=ChallengeType.numeric,
            active=True,
            amount="5",
            step_count=5,
        ),
        # Numeric 2 with some extra data
        Challenge(
            id="numeric_2",
            type=ChallengeType.numeric,
            active=True,
            amount="5",
            step_count=5,
        ),
    ]

    user_challenges = [
        UserChallenge(
            challenge_id="numeric_2",
            user_id=1,
            specifier="1",
            is_complete=False,
            current_step_count=5,
        ),
    ]

    session.query(Challenge).delete()
    session.commit()
    session.add_all(blocks)
    session.commit()
    session.add_all(users)
    session.commit()
    session.add_all(challenges)
    session.commit()
    session.add_all(user_challenges)
    session.commit()

    redis_conn = redis.Redis.from_url(url=REDIS_URL)
    bus = ChallengeEventBus(redis_conn)
    bus.register_listener(
        DEFAULT_EVENT, ChallengeManager("numeric_1", NumericCustomUpdater()))
    bus.register_listener(
        DEFAULT_EVENT, ChallengeManager("numeric_2", NumericCustomUpdater()))
    return bus
def setup_listen_streak_challenge(session):
    # Setup
    blocks = [
        Block(blockhash="0x1", number=1, parenthash="", is_current=False),
        Block(blockhash="0x2", number=2, parenthash="", is_current=True),
    ]
    users = [
        User(
            blockhash="0x1",
            blocknumber=1,
            user_id=1,
            is_current=True,
            wallet="0xFakeWallet1",
            created_at=datetime.now(),
            updated_at=datetime.now(),
            is_verified=False,
        ),
        User(
            blockhash="0x2",
            blocknumber=2,
            user_id=2,
            is_current=True,
            wallet="0xFakeWallet2",
            created_at=datetime.now(),
            updated_at=datetime.now(),
            is_verified=True,
        ),
    ]

    challenges = [
        Challenge(
            id="listen-streak",
            type=ChallengeType.numeric,
            active=True,
            amount="1",
            step_count=7,
        )
    ]

    user_challenges = [
        UserChallenge(
            challenge_id="listen-streak",
            user_id=1,
            specifier="1",
            is_complete=False,
            current_step_count=5,
        ),
        UserChallenge(
            challenge_id="listen-streak",
            user_id=2,
            specifier="2",
            is_complete=False,
            current_step_count=5,
        ),
    ]

    listen_streak_challenges = [
        ListenStreakChallenge(
            user_id=1,
            last_listen_date=datetime.now() - timedelta(hours=12),
            listen_streak=5,
        ),
        ListenStreakChallenge(
            user_id=2,
            last_listen_date=datetime.now() - timedelta(hours=50),
            listen_streak=5,
        ),
    ]

    # Wipe any existing challenges in the DB from running migrations, etc
    session.query(Challenge).delete()
    session.commit()
    session.add_all(blocks)
    session.commit()
    session.add_all(users)
    session.add_all(challenges)
    session.commit()
    session.add_all(user_challenges)
    session.commit()
    session.add_all(listen_streak_challenges)
    session.commit()

    redis_conn = redis.Redis.from_url(url=REDIS_URL)
    bus = ChallengeEventBus(redis_conn)
    bus.register_listener(DEFAULT_EVENT, listen_streak_challenge_manager)
    return bus
Beispiel #21
0
def update_user_model_metadata(session: Session, user_record: User,
                               metadata_dict: Dict):
    if "profile_picture" in metadata_dict and metadata_dict["profile_picture"]:
        user_record.profile_picture = metadata_dict["profile_picture"]

    if ("profile_picture_sizes" in metadata_dict
            and metadata_dict["profile_picture_sizes"]):
        user_record.profile_picture = metadata_dict["profile_picture_sizes"]

    if "cover_photo" in metadata_dict and metadata_dict["cover_photo"]:
        user_record.cover_photo = metadata_dict["cover_photo"]

    if "cover_photo_sizes" in metadata_dict:
        user_record.cover_photo = metadata_dict["cover_photo_sizes"]

    if "bio" in metadata_dict and metadata_dict["bio"]:
        user_record.bio = metadata_dict["bio"]

    if "name" in metadata_dict and metadata_dict["name"]:
        user_record.name = metadata_dict["name"]

    if "location" in metadata_dict and metadata_dict["location"]:
        user_record.location = metadata_dict["location"]

    # Fields with no on-chain counterpart
    if ("profile_picture_sizes" in metadata_dict
            and metadata_dict["profile_picture_sizes"]):
        user_record.profile_picture = metadata_dict["profile_picture_sizes"]

    if ("collectibles" in metadata_dict and metadata_dict["collectibles"]
            and isinstance(metadata_dict["collectibles"], dict)
            and metadata_dict["collectibles"].items()):
        user_record.has_collectibles = True
    else:
        user_record.has_collectibles = False

    # TODO: implement
    # if "associated_wallets" in metadata_dict:
    #     update_user_associated_wallets(
    #         session: Session,
    #         update_task,
    #         user_record,
    #         metadata_dict["associated_wallets"],
    #         "eth",
    #     )

    # TODO: implement
    # if "associated_sol_wallets" in metadata_dict:
    #     update_user_associated_wallets(
    #         session: Session,
    #         update_task,
    #         user_record,
    #         metadata_dict["associated_sol_wallets"],
    #         "sol",
    #     )

    if "playlist_library" in metadata_dict and metadata_dict[
            "playlist_library"]:
        user_record.playlist_library = metadata_dict["playlist_library"]

    if "is_deactivated" in metadata_dict:
        user_record.is_deactivated = metadata_dict["is_deactivated"]

    # TODO: implement
    # if "events" in metadata_dict and metadata_dict["events"]:
    #     update_user_events(
    #         session: Session,
    #         user_record,
    #         metadata_dict["events"],
    #         update_task.challenge_event_bus,
    #     )

    # reconstructed endpoints from sp IDs in tx not /ipfs response
    if "creator_node_endpoint" in metadata_dict:
        user_record.creator_node_endpoint = metadata_dict[
            "creator_node_endpoint"]
Beispiel #22
0
 def setUp(self):
     self.__user = User('user_id', 'user_name')
Beispiel #23
0
 def test_should_get_user_by_id(self):
     user = User("user_id", "name")
     self.__user_business_instance.get_user_by_id.return_value = user
     self.__user_controller.get_user_by_id("user_id")
     self.assertTrue(self.__user_business_instance.get_user_by_id.called)
def setup_db(session):
    blocks = [Block(blockhash="0x1", number=1, parenthash="", is_current=True)]
    users = [
        User(
            blockhash="0x1",
            blocknumber=1,
            user_id=1,
            is_current=True,
            wallet="0x38C68fF3926bf4E68289672F75ee1543117dD9B3",
            created_at=datetime.now(),
            updated_at=datetime.now(),
        )
    ]
    challenges = [
        Challenge(
            id="boolean_challenge_1",
            type=ChallengeType.boolean,
            active=True,
            amount="5",
        ),
        Challenge(
            id="boolean_challenge_2",
            type=ChallengeType.boolean,
            active=True,
            amount="5",
        ),
        Challenge(
            id="boolean_challenge_3",
            type=ChallengeType.boolean,
            active=True,
            amount="5",
        ),
        # No progress on this, but active
        # should be returned
        Challenge(
            id="boolean_challenge_4",
            type=ChallengeType.boolean,
            active=True,
            amount="5",
        ),
        # Inactive, with no progress
        Challenge(
            id="boolean_challenge_5",
            type=ChallengeType.boolean,
            active=False,
            amount="5",
        ),
        # Inactive, WITH progress
        Challenge(
            id="boolean_challenge_6",
            type=ChallengeType.boolean,
            active=False,
            amount="5",
        ),
        Challenge(
            id="trending_challenge_1",
            type=ChallengeType.trending,
            active=True,
            amount="5",
        ),
        Challenge(
            id="aggregate_challenge_1",
            type=ChallengeType.aggregate,
            active=True,
            amount="5",
            step_count=3,
        ),
        Challenge(
            id="aggregate_challenge_2",
            type=ChallengeType.aggregate,
            active=True,
            amount="5",
            step_count=2,
        ),
        Challenge(
            id="aggregate_challenge_3",
            type=ChallengeType.aggregate,
            active=True,
            amount="5",
            step_count=2,
        ),
        Challenge(id="trending_1",
                  type=ChallengeType.trending,
                  active=True,
                  amount="5"),
        Challenge(id="trending_2",
                  type=ChallengeType.trending,
                  active=True,
                  amount="5"),
        Challenge(id="trending_3",
                  type=ChallengeType.trending,
                  active=True,
                  amount="5"),
    ]
    user_challenges = [
        # Finished the first challenge, disbursed
        UserChallenge(
            challenge_id="boolean_challenge_1",
            user_id=1,
            specifier="1",
            is_complete=True,
        ),
        # Did finish the second challenge, did not disburse
        UserChallenge(
            challenge_id="boolean_challenge_2",
            user_id=1,
            specifier="1",
            is_complete=True,
        ),
        # Did not finish challenge 3
        UserChallenge(
            challenge_id="boolean_challenge_3",
            user_id=1,
            specifier="1",
            is_complete=False,
        ),
        # Inactive challenge
        UserChallenge(
            challenge_id="boolean_challenge_6",
            user_id=1,
            specifier="1",
            is_complete=True,
        ),
        UserChallenge(
            challenge_id="aggregate_challenge_1",
            user_id=1,
            specifier="1-2",  # compound specifiers, like if user1 invites user2
            is_complete=True,
        ),
        # Ensure that a non-complete user-challenge isn't counted towards
        # aggregate challenge score
        UserChallenge(
            challenge_id="aggregate_challenge_1",
            user_id=1,
            specifier="1-3",
            is_complete=False,
        ),
        UserChallenge(
            challenge_id="aggregate_challenge_2",
            user_id=1,
            specifier="1-2",
            is_complete=True,
        ),
        UserChallenge(
            challenge_id="aggregate_challenge_2",
            user_id=1,
            specifier="1-3",
            is_complete=True,
        ),
        # Trending 1 should be finished and included
        UserChallenge(
            challenge_id="trending_1",
            user_id=1,
            specifier="06-01-2020",
            is_complete=True,
        ),
        # Trending 2 should not be included
        UserChallenge(
            challenge_id="trending_2",
            user_id=1,
            specifier="06-01-2020",
            is_complete=False,
        ),
    ]
    disbursements = [
        ChallengeDisbursement(
            challenge_id="boolean_challenge_1",
            user_id=1,
            amount="5",
            signature="1",
            slot=1,
            specifier="1",
        )
    ]

    # Wipe any existing challenges in the DB from running migrations, etc
    session.query(Challenge).delete()
    session.commit()
    session.add_all(blocks)
    session.commit()
    session.add_all(users)
    session.commit()
    session.add_all(challenges)
    session.commit()
    session.add_all(user_challenges)
    session.commit()
    session.add_all(disbursements)

    redis_conn = redis.Redis.from_url(url=REDIS_URL)
    bus = ChallengeEventBus(redis_conn)
    challenge_types = [
        "boolean_challenge_1",
        "boolean_challenge_2",
        "boolean_challenge_3",
        "boolean_challenge_4",
        "boolean_challenge_5",
        "boolean_challenge_6",
        "trending_challenge_1",
        "aggregate_challenge_1",
        "aggregate_challenge_2",
        "aggregate_challenge_3",
        "trending_1",
        "trending_2",
        "trending_3",
    ]
    for ct in challenge_types:
        bus.register_listener(
            DEFAULT_EVENT,
            ChallengeManager(ct, DefaultUpdater()),
        )
    return bus