MyEMS / myems

from core.useractivity import access_control, api_key_control

class Reporting:

    def __init__(self):

        """Initializes Class"""

        pass

    @staticmethod

    def on_options(req, resp):

        _ = req

        resp.status = falcon.HTTP_200

    ####################################################################################################################

    # PROCEDURES

    # Step 1: valid parameters

    # Step 2: query the microgrid list

    # Step 3: query load energy data in 7 days

    # Step 4: query load energy data in this month

    # Step 5: query load energy data in this year

    # Step 6: construct the report

    ####################################################################################################################

    @staticmethod

    def on_get(req, resp):

        if 'API-KEY' not in req.headers or \

                not isinstance(req.headers['API-KEY'], str) or \

                len(str.strip(req.headers['API-KEY'])) == 0:

            access_control(req)

        else:

            api_key_control(req)

        user_uuid = req.params.get('useruuid')

        ################################################################################################################

        # Step 1: valid parameters

        ################################################################################################################

        if user_uuid is None:

            raise falcon.HTTPError(status=falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_USER_UUID')

        else:

            user_uuid = str.strip(user_uuid)

            if len(user_uuid) != 36:

                raise falcon.HTTPError(status=falcon.HTTP_400, title='API.BAD_REQUEST',

                                       description='API.INVALID_USER_UUID')

        ################################################################################################################

        # Step 2: query the microgrid list

        ################################################################################################################

        cnx_user = mysql.connector.connect(**config.myems_user_db)

        cursor_user = cnx_user.cursor()

        cursor_user.execute(" SELECT id, is_admin, privilege_id "

                            " FROM tbl_users "

                            " WHERE uuid = %s ", (user_uuid,))

        row_user = cursor_user.fetchone()

        if row_user is None:

            if cursor_user:

                cursor_user.close()

            if cnx_user:

                cnx_user.close()

            raise falcon.HTTPError(status=falcon.HTTP_404, title='API.NOT_FOUND',

                                   description='API.USER_NOT_FOUND')

        user = {'id': row_user[0], 'is_admin': row_user[1], 'privilege_id': row_user[2]}

        # Get microgrids

        cnx_system_db = mysql.connector.connect(**config.myems_system_db)

        cursor_system_db = cnx_system_db.cursor()

        query = (" SELECT m.id, m.name, m.uuid, "

                 "        m.address, m.postal_code, m.latitude, m.longitude, "

                 "        m.rated_capacity, m.rated_power, m.serial_number, m.description "

                 " FROM tbl_microgrids m, tbl_microgrids_users mu "

                 " WHERE m.id = mu.microgrid_id AND mu.user_id = %s "

                 " ORDER BY id ")

        cursor_system_db.execute(query, (user['id'],))

        rows_microgrids = cursor_system_db.fetchall()

        microgrid_list = list()

        microgrid_names = list()

        if rows_microgrids is not None and len(rows_microgrids) > 0:

            for row in rows_microgrids:

                meta_result = {"id": row[0],

                               "name": row[1],

                               "uuid": row[2],

                               "address": row[3],

                               "postal_code": row[4],

                               "latitude": row[5],

                               "longitude": row[6],

                               "rated_capacity": row[7],

                               "rated_power": row[8],

                               "serial_number": row[9],

                               "description": row[10]}

                microgrid_list.append(meta_result)

                microgrid_names.append(row[1])

        ################################################################################################################

        # Step 3: query load energy data in 7 days

        ################################################################################################################

        timezone_offset = int(config.utc_offset[1:3]) * 60 + int(config.utc_offset[4:6])

        if config.utc_offset[0] == '-':

            timezone_offset = -timezone_offset

        reporting = dict()

        reporting['load_7_days'] = dict()

        reporting['load_this_month'] = dict()

        reporting['load_this_year'] = dict()

        end_datetime_utc = datetime.utcnow()

        end_datetime_local = datetime.utcnow() + timedelta(minutes=timezone_offset)

        period_type = 'daily'

        start_datetime_local = end_datetime_local.replace(hour=0, minute=0, second=0, microsecond=0) - timedelta(days=6)

        start_datetime_utc = start_datetime_local - timedelta(minutes=timezone_offset)

        print('start_datetime_local:' + start_datetime_local.isoformat())

        print('end_datetime_local:' + end_datetime_local.isoformat())

        print('start_datetime_utc:' + start_datetime_utc.isoformat())

        print('end_datetime_utc:' + end_datetime_utc.isoformat())

        cnx_energy_db = mysql.connector.connect(**config.myems_energy_db)

        cursor_energy_db = cnx_energy_db.cursor()

        reporting['load_7_days'] = dict()

        reporting['load_7_days']['timestamps_array'] = list()

        reporting['load_7_days']['values_array'] = list()

        for microgrid in microgrid_list:

            timestamps = list()

            values = list()

            query = (" SELECT start_datetime_utc, actual_value "

                     " FROM tbl_microgrid_load_hourly "

                     " WHERE microgrid_id = %s "

                     " AND start_datetime_utc >= %s "

                     " AND start_datetime_utc < %s "

                     " ORDER BY start_datetime_utc ")

            cursor_energy_db.execute(query, (microgrid['id'], start_datetime_utc, end_datetime_utc))

            rows_load_hourly = cursor_energy_db.fetchall()

            rows_load_periodically = utilities.aggregate_hourly_data_by_period(rows_load_hourly,

                                                                                    start_datetime_utc,

                                                                                    end_datetime_utc,

                                                                                    period_type)

            for row_load_periodically in rows_load_periodically:

                current_datetime_local = row_load_periodically[0].replace(tzinfo=timezone.utc) + \

                                         timedelta(minutes=timezone_offset)

                if period_type == 'hourly':

                    current_datetime = current_datetime_local.isoformat()[0:19]

                elif period_type == 'daily':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'weekly':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'monthly':

                    current_datetime = current_datetime_local.isoformat()[0:7]

                elif period_type == 'yearly':

                    current_datetime = current_datetime_local.isoformat()[0:4]

                actual_value = Decimal(0.0) if row_load_periodically[1] is None else row_load_periodically[1]

                timestamps.append(current_datetime)

                values.append(actual_value)

            reporting['load_7_days']['timestamps_array'].append(timestamps)

            reporting['load_7_days']['values_array'].append(values)

        ################################################################################################################

        # Step 4: query load energy data in this month

        ################################################################################################################

        end_datetime_utc = datetime.utcnow()

        end_datetime_local = datetime.utcnow() + timedelta(minutes=timezone_offset)

        period_type = 'daily'

        start_datetime_local = end_datetime_local.replace(day=1, hour=0, minute=0, second=0, microsecond=0)

        start_datetime_utc = start_datetime_local - timedelta(minutes=timezone_offset)

        print('start_datetime_local:' + start_datetime_local.isoformat())

        print('end_datetime_local:' + end_datetime_local.isoformat())

        print('start_datetime_utc:' + start_datetime_utc.isoformat())

        print('end_datetime_utc:' + end_datetime_utc.isoformat())

        reporting['load_this_month'] = dict()

        reporting['load_this_month']['timestamps_array'] = list()

        reporting['load_this_month']['values_array'] = list()

        for microgrid in microgrid_list:

            timestamps = list()

            values = list()

            query = (" SELECT start_datetime_utc, actual_value "

                     " FROM tbl_microgrid_load_hourly "

                     " WHERE microgrid_id = %s "

                     " AND start_datetime_utc >= %s "

                     " AND start_datetime_utc < %s "

                     " ORDER BY start_datetime_utc ")

            cursor_energy_db.execute(query, (microgrid['id'], start_datetime_utc, end_datetime_utc))

            rows_load_hourly = cursor_energy_db.fetchall()

            rows_load_periodically = utilities.aggregate_hourly_data_by_period(rows_load_hourly,

                                                                                    start_datetime_utc,

                                                                                    end_datetime_utc,

                                                                                    period_type)

            for row_load_periodically in rows_load_periodically:

                current_datetime_local = row_load_periodically[0].replace(tzinfo=timezone.utc) + \

                                         timedelta(minutes=timezone_offset)

                if period_type == 'hourly':

                    current_datetime = current_datetime_local.isoformat()[0:19]

                elif period_type == 'daily':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'weekly':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'monthly':

                    current_datetime = current_datetime_local.isoformat()[0:7]

                elif period_type == 'yearly':

                    current_datetime = current_datetime_local.isoformat()[0:4]

                actual_value = Decimal(0.0) if row_load_periodically[1] is None else row_load_periodically[1]

                timestamps.append(current_datetime)

                values.append(actual_value)

            reporting['load_this_month']['timestamps_array'].append(timestamps)

            reporting['load_this_month']['values_array'].append(values)

        ################################################################################################################

        # Step 5: query load energy data in this year

        ################################################################################################################

        end_datetime_utc = datetime.utcnow()

        end_datetime_local = datetime.utcnow() + timedelta(minutes=timezone_offset)

        period_type = 'monthly'

        start_datetime_local = end_datetime_local.replace(month=1, day=1, hour=0, minute=0, second=0, microsecond=0)

        start_datetime_utc = start_datetime_local - timedelta(minutes=timezone_offset)

        print('start_datetime_local:' + start_datetime_local.isoformat())

        print('end_datetime_local:' + end_datetime_local.isoformat())

        print('start_datetime_utc:' + start_datetime_utc.isoformat())

        print('end_datetime_utc:' + end_datetime_utc.isoformat())

        reporting['load_this_year'] = dict()

        reporting['load_this_year']['timestamps_array'] = list()

        reporting['load_this_year']['values_array'] = list()

        for microgrid in microgrid_list:

            timestamps = list()

            values = list()

            query = (" SELECT start_datetime_utc, actual_value "

                     " FROM tbl_microgrid_load_hourly "

                     " WHERE microgrid_id = %s "

                     " AND start_datetime_utc >= %s "

                     " AND start_datetime_utc < %s "

                     " ORDER BY start_datetime_utc ")

            cursor_energy_db.execute(query, (microgrid['id'], start_datetime_utc, end_datetime_utc))

            rows_load_hourly = cursor_energy_db.fetchall()

            rows_load_periodically = utilities.aggregate_hourly_data_by_period(rows_load_hourly,

                                                                                    start_datetime_utc,

                                                                                    end_datetime_utc,

                                                                                    period_type)

            for row_load_periodically in rows_load_periodically:

                current_datetime_local = row_load_periodically[0].replace(tzinfo=timezone.utc) + \

                                         timedelta(minutes=timezone_offset)

                if period_type == 'hourly':

                    current_datetime = current_datetime_local.isoformat()[0:19]

                elif period_type == 'daily':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'weekly':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'monthly':

                    current_datetime = current_datetime_local.isoformat()[0:7]

                elif period_type == 'yearly':

                    current_datetime = current_datetime_local.isoformat()[0:4]

                actual_value = Decimal(0.0) if row_load_periodically[1] is None else row_load_periodically[1]

                timestamps.append(current_datetime)

                values.append(actual_value)

            reporting['load_this_year']['timestamps_array'].append(timestamps)

            reporting['load_this_year']['values_array'].append(values)

        ################################################################################################################

        # Step 6: construct the report

        ################################################################################################################

        if cursor_user:

            cursor_user.close()

        if cnx_user:

            cnx_user.close()

        if cursor_system_db:

            cursor_system_db.close()

        if cnx_system_db:

            cnx_system_db.close()

        if cursor_energy_db:

            cursor_energy_db.close()

        if cnx_energy_db:

            cnx_energy_db.close()

        result = dict()

        result['microgrid_names'] = microgrid_names

        result['reporting'] = reporting

        resp.text = json.dumps(result)

from core.useractivity import access_control, api_key_control

class Reporting:

    def __init__(self):

        """Initializes Class"""

        pass

    @staticmethod

    def on_options(req, resp):

        _ = req

        resp.status = falcon.HTTP_200

    ####################################################################################################################

    # PROCEDURES

    # Step 1: valid parameters

    # Step 2: query the microgrid list

    # Step 3: query grid sell energy data in 7 days

    # Step 4: query grid sell energy data in this month

    # Step 5: query grid sell energy data in this year

    # Step 6: construct the report

    ####################################################################################################################

    @staticmethod

    def on_get(req, resp):

        if 'API-KEY' not in req.headers or \

                not isinstance(req.headers['API-KEY'], str) or \

                len(str.strip(req.headers['API-KEY'])) == 0:

            access_control(req)

        else:

            api_key_control(req)

        user_uuid = req.params.get('useruuid')

        ################################################################################################################

        # Step 1: valid parameters

        ################################################################################################################

        if user_uuid is None:

            raise falcon.HTTPError(status=falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_USER_UUID')

        else:

            user_uuid = str.strip(user_uuid)

            if len(user_uuid) != 36:

                raise falcon.HTTPError(status=falcon.HTTP_400, title='API.BAD_REQUEST',

                                       description='API.INVALID_USER_UUID')

        ################################################################################################################

        # Step 2: query the microgrid list

        ################################################################################################################

        cnx_user = mysql.connector.connect(**config.myems_user_db)

        cursor_user = cnx_user.cursor()

        cursor_user.execute(" SELECT id, is_admin, privilege_id "

                            " FROM tbl_users "

                            " WHERE uuid = %s ", (user_uuid,))

        row_user = cursor_user.fetchone()

        if row_user is None:

            if cursor_user:

                cursor_user.close()

            if cnx_user:

                cnx_user.close()

            raise falcon.HTTPError(status=falcon.HTTP_404, title='API.NOT_FOUND',

                                   description='API.USER_NOT_FOUND')

        user = {'id': row_user[0], 'is_admin': row_user[1], 'privilege_id': row_user[2]}

        # Get microgrids

        cnx_system_db = mysql.connector.connect(**config.myems_system_db)

        cursor_system_db = cnx_system_db.cursor()

        query = (" SELECT m.id, m.name, m.uuid, "

                 "        m.address, m.postal_code, m.latitude, m.longitude, "

                 "        m.rated_capacity, m.rated_power, m.serial_number, m.description "

                 " FROM tbl_microgrids m, tbl_microgrids_users mu "

                 " WHERE m.id = mu.microgrid_id AND mu.user_id = %s "

                 " ORDER BY id ")

        cursor_system_db.execute(query, (user['id'],))

        rows_microgrids = cursor_system_db.fetchall()

        microgrid_list = list()

        microgrid_names = list()

        if rows_microgrids is not None and len(rows_microgrids) > 0:

            for row in rows_microgrids:

                meta_result = {"id": row[0],

                               "name": row[1],

                               "uuid": row[2],

                               "address": row[3],

                               "postal_code": row[4],

                               "latitude": row[5],

                               "longitude": row[6],

                               "rated_capacity": row[7],

                               "rated_power": row[8],

                               "serial_number": row[9],

                               "description": row[10]}

                microgrid_list.append(meta_result)

                microgrid_names.append(row[1])

        ################################################################################################################

        # Step 3: query grid sell energy data in 7 days

        ################################################################################################################

        timezone_offset = int(config.utc_offset[1:3]) * 60 + int(config.utc_offset[4:6])

        if config.utc_offset[0] == '-':

            timezone_offset = -timezone_offset

        reporting = dict()

        reporting['grid_sell_7_days'] = dict()

        reporting['grid_sell_this_month'] = dict()

        reporting['grid_sell_this_year'] = dict()

        end_datetime_utc = datetime.utcnow()

        end_datetime_local = datetime.utcnow() + timedelta(minutes=timezone_offset)

        period_type = 'daily'

        start_datetime_local = end_datetime_local.replace(hour=0, minute=0, second=0, microsecond=0) - timedelta(days=6)

        start_datetime_utc = start_datetime_local - timedelta(minutes=timezone_offset)

        print('start_datetime_local:' + start_datetime_local.isoformat())

        print('end_datetime_local:' + end_datetime_local.isoformat())

        print('start_datetime_utc:' + start_datetime_utc.isoformat())

        print('end_datetime_utc:' + end_datetime_utc.isoformat())

        cnx_energy_db = mysql.connector.connect(**config.myems_energy_db)

        cursor_energy_db = cnx_energy_db.cursor()

        reporting['grid_sell_7_days'] = dict()

        reporting['grid_sell_7_days']['timestamps_array'] = list()

        reporting['grid_sell_7_days']['values_array'] = list()

        for microgrid in microgrid_list:

            timestamps = list()

            values = list()

            query = (" SELECT start_datetime_utc, actual_value "

                     " FROM tbl_microgrid_grid_sell_hourly "

                     " WHERE microgrid_id = %s "

                     " AND start_datetime_utc >= %s "

                     " AND start_datetime_utc < %s "

                     " ORDER BY start_datetime_utc ")

            cursor_energy_db.execute(query, (microgrid['id'], start_datetime_utc, end_datetime_utc))

            rows_grid_sell_hourly = cursor_energy_db.fetchall()

            rows_grid_sell_periodically = utilities.aggregate_hourly_data_by_period(rows_grid_sell_hourly,

                                                                                    start_datetime_utc,

                                                                                    end_datetime_utc,

                                                                                    period_type)

            for row_grid_sell_periodically in rows_grid_sell_periodically:

                current_datetime_local = row_grid_sell_periodically[0].replace(tzinfo=timezone.utc) + \

                                         timedelta(minutes=timezone_offset)

                if period_type == 'hourly':

                    current_datetime = current_datetime_local.isoformat()[0:19]

                elif period_type == 'daily':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'weekly':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'monthly':

                    current_datetime = current_datetime_local.isoformat()[0:7]

                elif period_type == 'yearly':

                    current_datetime = current_datetime_local.isoformat()[0:4]

                actual_value = Decimal(0.0) if row_grid_sell_periodically[1] is None else row_grid_sell_periodically[1]

                timestamps.append(current_datetime)

                values.append(actual_value)

            reporting['grid_sell_7_days']['timestamps_array'].append(timestamps)

            reporting['grid_sell_7_days']['values_array'].append(values)

        ################################################################################################################

        # Step 4: query grid sell energy data in this month

        ################################################################################################################

        end_datetime_utc = datetime.utcnow()

        end_datetime_local = datetime.utcnow() + timedelta(minutes=timezone_offset)

        period_type = 'daily'

        start_datetime_local = end_datetime_local.replace(day=1, hour=0, minute=0, second=0, microsecond=0)

        start_datetime_utc = start_datetime_local - timedelta(minutes=timezone_offset)

        print('start_datetime_local:' + start_datetime_local.isoformat())

        print('end_datetime_local:' + end_datetime_local.isoformat())

        print('start_datetime_utc:' + start_datetime_utc.isoformat())

        print('end_datetime_utc:' + end_datetime_utc.isoformat())

        reporting['grid_sell_this_month'] = dict()

        reporting['grid_sell_this_month']['timestamps_array'] = list()

        reporting['grid_sell_this_month']['values_array'] = list()

        for microgrid in microgrid_list:

            timestamps = list()

            values = list()

            query = (" SELECT start_datetime_utc, actual_value "

                     " FROM tbl_microgrid_grid_sell_hourly "

                     " WHERE microgrid_id = %s "

                     " AND start_datetime_utc >= %s "

                     " AND start_datetime_utc < %s "

                     " ORDER BY start_datetime_utc ")

            cursor_energy_db.execute(query, (microgrid['id'], start_datetime_utc, end_datetime_utc))

            rows_grid_sell_hourly = cursor_energy_db.fetchall()

            rows_grid_sell_periodically = utilities.aggregate_hourly_data_by_period(rows_grid_sell_hourly,

                                                                                    start_datetime_utc,

                                                                                    end_datetime_utc,

                                                                                    period_type)

            for row_grid_sell_periodically in rows_grid_sell_periodically:

                current_datetime_local = row_grid_sell_periodically[0].replace(tzinfo=timezone.utc) + \

                                         timedelta(minutes=timezone_offset)

                if period_type == 'hourly':

                    current_datetime = current_datetime_local.isoformat()[0:19]

                elif period_type == 'daily':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'weekly':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'monthly':

                    current_datetime = current_datetime_local.isoformat()[0:7]

                elif period_type == 'yearly':

                    current_datetime = current_datetime_local.isoformat()[0:4]

                actual_value = Decimal(0.0) if row_grid_sell_periodically[1] is None else row_grid_sell_periodically[1]

                timestamps.append(current_datetime)

                values.append(actual_value)

            reporting['grid_sell_this_month']['timestamps_array'].append(timestamps)

            reporting['grid_sell_this_month']['values_array'].append(values)

        ################################################################################################################

        # Step 5: query grid sell energy data in this year

        ################################################################################################################

        end_datetime_utc = datetime.utcnow()

        end_datetime_local = datetime.utcnow() + timedelta(minutes=timezone_offset)

        period_type = 'monthly'

        start_datetime_local = end_datetime_local.replace(month=1, day=1, hour=0, minute=0, second=0, microsecond=0)

        start_datetime_utc = start_datetime_local - timedelta(minutes=timezone_offset)

        print('start_datetime_local:' + start_datetime_local.isoformat())

        print('end_datetime_local:' + end_datetime_local.isoformat())

        print('start_datetime_utc:' + start_datetime_utc.isoformat())

        print('end_datetime_utc:' + end_datetime_utc.isoformat())

        reporting['grid_sell_this_year'] = dict()

        reporting['grid_sell_this_year']['timestamps_array'] = list()

        reporting['grid_sell_this_year']['values_array'] = list()

        for microgrid in microgrid_list:

            timestamps = list()

            values = list()

            query = (" SELECT start_datetime_utc, actual_value "

                     " FROM tbl_microgrid_grid_sell_hourly "

                     " WHERE microgrid_id = %s "

                     " AND start_datetime_utc >= %s "

                     " AND start_datetime_utc < %s "

                     " ORDER BY start_datetime_utc ")

            cursor_energy_db.execute(query, (microgrid['id'], start_datetime_utc, end_datetime_utc))

            rows_grid_sell_hourly = cursor_energy_db.fetchall()

            rows_grid_sell_periodically = utilities.aggregate_hourly_data_by_period(rows_grid_sell_hourly,

                                                                                    start_datetime_utc,

                                                                                    end_datetime_utc,

                                                                                    period_type)

            for row_grid_sell_periodically in rows_grid_sell_periodically:

                current_datetime_local = row_grid_sell_periodically[0].replace(tzinfo=timezone.utc) + \

                                         timedelta(minutes=timezone_offset)

                if period_type == 'hourly':

                    current_datetime = current_datetime_local.isoformat()[0:19]

                elif period_type == 'daily':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'weekly':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'monthly':

                    current_datetime = current_datetime_local.isoformat()[0:7]

                elif period_type == 'yearly':

                    current_datetime = current_datetime_local.isoformat()[0:4]

                actual_value = Decimal(0.0) if row_grid_sell_periodically[1] is None else row_grid_sell_periodically[1]

                timestamps.append(current_datetime)

                values.append(actual_value)

            reporting['grid_sell_this_year']['timestamps_array'].append(timestamps)

            reporting['grid_sell_this_year']['values_array'].append(values)

        ################################################################################################################

        # Step 6: construct the report

        ################################################################################################################

        if cursor_user:

            cursor_user.close()

        if cnx_user:

            cnx_user.close()

        if cursor_system_db:

            cursor_system_db.close()

        if cnx_system_db:

            cnx_system_db.close()

        if cursor_energy_db:

            cursor_energy_db.close()

        if cnx_energy_db:

            cnx_energy_db.close()

        result = dict()

        result['microgrid_names'] = microgrid_names

        result['reporting'] = reporting

        resp.text = json.dumps(result)

from core.useractivity import access_control, api_key_control

class Reporting:

    def __init__(self):

        """Initializes Class"""

        pass

    @staticmethod

    def on_options(req, resp):

        _ = req

        resp.status = falcon.HTTP_200

    ####################################################################################################################

    # PROCEDURES

    # Step 1: valid parameters

    # Step 2: query the microgrid list

    # Step 3: query photovoltaic energy data in 7 days

    # Step 4: query photovoltaic energy data in this month

    # Step 5: query photovoltaic energy data in this year

    # Step 6: construct the report

    ####################################################################################################################

    @staticmethod

    def on_get(req, resp):

        if 'API-KEY' not in req.headers or \

                not isinstance(req.headers['API-KEY'], str) or \

                len(str.strip(req.headers['API-KEY'])) == 0:

            access_control(req)

        else:

            api_key_control(req)

        user_uuid = req.params.get('useruuid')

        ################################################################################################################

        # Step 1: valid parameters

        ################################################################################################################

        if user_uuid is None:

            raise falcon.HTTPError(status=falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_USER_UUID')

        else:

            user_uuid = str.strip(user_uuid)

            if len(user_uuid) != 36:

                raise falcon.HTTPError(status=falcon.HTTP_400, title='API.BAD_REQUEST',

                                       description='API.INVALID_USER_UUID')

        ################################################################################################################

        # Step 2: query the microgrid list

        ################################################################################################################

        cnx_user = mysql.connector.connect(**config.myems_user_db)

        cursor_user = cnx_user.cursor()

        cursor_user.execute(" SELECT id, is_admin, privilege_id "

                            " FROM tbl_users "

                            " WHERE uuid = %s ", (user_uuid,))

        row_user = cursor_user.fetchone()

        if row_user is None:

            if cursor_user:

                cursor_user.close()

            if cnx_user:

                cnx_user.close()

            raise falcon.HTTPError(status=falcon.HTTP_404, title='API.NOT_FOUND',

                                   description='API.USER_NOT_FOUND')

        user = {'id': row_user[0], 'is_admin': row_user[1], 'privilege_id': row_user[2]}

        # Get microgrids

        cnx_system_db = mysql.connector.connect(**config.myems_system_db)

        cursor_system_db = cnx_system_db.cursor()

        query = (" SELECT m.id, m.name, m.uuid, "

                 "        m.address, m.postal_code, m.latitude, m.longitude, "

                 "        m.rated_capacity, m.rated_power, m.serial_number, m.description "

                 " FROM tbl_microgrids m, tbl_microgrids_users mu "

                 " WHERE m.id = mu.microgrid_id AND mu.user_id = %s "

                 " ORDER BY id ")

        cursor_system_db.execute(query, (user['id'],))

        rows_microgrids = cursor_system_db.fetchall()

        microgrid_list = list()

        microgrid_names = list()

        if rows_microgrids is not None and len(rows_microgrids) > 0:

            for row in rows_microgrids:

                meta_result = {"id": row[0],

                               "name": row[1],

                               "uuid": row[2],

                               "address": row[3],

                               "postal_code": row[4],

                               "latitude": row[5],

                               "longitude": row[6],

                               "rated_capacity": row[7],

                               "rated_power": row[8],

                               "serial_number": row[9],

                               "description": row[10]}

                microgrid_list.append(meta_result)

                microgrid_names.append(row[1])

        ################################################################################################################

        # Step 3: query photovoltaic energy data in 7 days

        ################################################################################################################

        timezone_offset = int(config.utc_offset[1:3]) * 60 + int(config.utc_offset[4:6])

        if config.utc_offset[0] == '-':

            timezone_offset = -timezone_offset

        reporting = dict()

        reporting['photovoltaic_7_days'] = dict()

        reporting['photovoltaic_this_month'] = dict()

        reporting['photovoltaic_this_year'] = dict()

        end_datetime_utc = datetime.utcnow()

        end_datetime_local = datetime.utcnow() + timedelta(minutes=timezone_offset)

        period_type = 'daily'

        start_datetime_local = end_datetime_local.replace(hour=0, minute=0, second=0, microsecond=0) - timedelta(days=6)

        start_datetime_utc = start_datetime_local - timedelta(minutes=timezone_offset)

        print('start_datetime_local:' + start_datetime_local.isoformat())

        print('end_datetime_local:' + end_datetime_local.isoformat())

        print('start_datetime_utc:' + start_datetime_utc.isoformat())

        print('end_datetime_utc:' + end_datetime_utc.isoformat())

        cnx_energy_db = mysql.connector.connect(**config.myems_energy_db)

        cursor_energy_db = cnx_energy_db.cursor()

        reporting['photovoltaic_7_days'] = dict()

        reporting['photovoltaic_7_days']['timestamps_array'] = list()

        reporting['photovoltaic_7_days']['values_array'] = list()

        for microgrid in microgrid_list:

            timestamps = list()

            values = list()

            query = (" SELECT start_datetime_utc, actual_value "

                     " FROM tbl_microgrid_photovoltaic_hourly "

                     " WHERE microgrid_id = %s "

                     " AND start_datetime_utc >= %s "

                     " AND start_datetime_utc < %s "

                     " ORDER BY start_datetime_utc ")

            cursor_energy_db.execute(query, (microgrid['id'], start_datetime_utc, end_datetime_utc))

            rows_photovoltaic_hourly = cursor_energy_db.fetchall()

            rows_photovoltaic_periodically = utilities.aggregate_hourly_data_by_period(rows_photovoltaic_hourly,

                                                                                      start_datetime_utc,

                                                                                      end_datetime_utc,

                                                                                      period_type)

            for row_photovoltaic_periodically in rows_photovoltaic_periodically:

                current_datetime_local = row_photovoltaic_periodically[0].replace(tzinfo=timezone.utc) + \

                                         timedelta(minutes=timezone_offset)

                if period_type == 'hourly':

                    current_datetime = current_datetime_local.isoformat()[0:19]

                elif period_type == 'daily':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'weekly':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'monthly':

                    current_datetime = current_datetime_local.isoformat()[0:7]

                elif period_type == 'yearly':

                    current_datetime = current_datetime_local.isoformat()[0:4]

                actual_value = Decimal(0.0) if row_photovoltaic_periodically[1] is None else row_photovoltaic_periodically[1]

                timestamps.append(current_datetime)

                values.append(actual_value)

            reporting['photovoltaic_7_days']['timestamps_array'].append(timestamps)

            reporting['photovoltaic_7_days']['values_array'].append(values)

        ################################################################################################################

        # Step 4: query photovoltaic energy data in this month

        ################################################################################################################

        end_datetime_utc = datetime.utcnow()

        end_datetime_local = datetime.utcnow() + timedelta(minutes=timezone_offset)

        period_type = 'daily'

        start_datetime_local = end_datetime_local.replace(day=1, hour=0, minute=0, second=0, microsecond=0)

        start_datetime_utc = start_datetime_local - timedelta(minutes=timezone_offset)

        print('start_datetime_local:' + start_datetime_local.isoformat())

        print('end_datetime_local:' + end_datetime_local.isoformat())

        print('start_datetime_utc:' + start_datetime_utc.isoformat())

        print('end_datetime_utc:' + end_datetime_utc.isoformat())

        reporting['photovoltaic_this_month'] = dict()

        reporting['photovoltaic_this_month']['timestamps_array'] = list()

        reporting['photovoltaic_this_month']['values_array'] = list()

        for microgrid in microgrid_list:

            timestamps = list()

            values = list()

            query = (" SELECT start_datetime_utc, actual_value "

                     " FROM tbl_microgrid_photovoltaic_hourly "

                     " WHERE microgrid_id = %s "

                     " AND start_datetime_utc >= %s "

                     " AND start_datetime_utc < %s "

                     " ORDER BY start_datetime_utc ")

            cursor_energy_db.execute(query, (microgrid['id'], start_datetime_utc, end_datetime_utc))

            rows_photovoltaic_hourly = cursor_energy_db.fetchall()

            rows_photovoltaic_periodically = utilities.aggregate_hourly_data_by_period(rows_photovoltaic_hourly,

                                                                                      start_datetime_utc,

                                                                                      end_datetime_utc,

                                                                                      period_type)

            for row_photovoltaic_periodically in rows_photovoltaic_periodically:

                current_datetime_local = row_photovoltaic_periodically[0].replace(tzinfo=timezone.utc) + \

                                         timedelta(minutes=timezone_offset)

                if period_type == 'hourly':

                    current_datetime = current_datetime_local.isoformat()[0:19]

                elif period_type == 'daily':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'weekly':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'monthly':

                    current_datetime = current_datetime_local.isoformat()[0:7]

                elif period_type == 'yearly':

                    current_datetime = current_datetime_local.isoformat()[0:4]

                actual_value = Decimal(0.0) if row_photovoltaic_periodically[1] is None else row_photovoltaic_periodically[1]

                timestamps.append(current_datetime)

                values.append(actual_value)

            reporting['photovoltaic_this_month']['timestamps_array'].append(timestamps)

            reporting['photovoltaic_this_month']['values_array'].append(values)

        ################################################################################################################

        # Step 5: query photovoltaic energy data in this year

        ################################################################################################################

        end_datetime_utc = datetime.utcnow()

        end_datetime_local = datetime.utcnow() + timedelta(minutes=timezone_offset)

        period_type = 'monthly'

        start_datetime_local = end_datetime_local.replace(month=1, day=1, hour=0, minute=0, second=0, microsecond=0)

        start_datetime_utc = start_datetime_local - timedelta(minutes=timezone_offset)

        print('start_datetime_local:' + start_datetime_local.isoformat())

        print('end_datetime_local:' + end_datetime_local.isoformat())

        print('start_datetime_utc:' + start_datetime_utc.isoformat())

        print('end_datetime_utc:' + end_datetime_utc.isoformat())

        reporting['photovoltaic_this_year'] = dict()

        reporting['photovoltaic_this_year']['timestamps_array'] = list()

        reporting['photovoltaic_this_year']['values_array'] = list()

        for microgrid in microgrid_list:

            timestamps = list()

            values = list()

            query = (" SELECT start_datetime_utc, actual_value "

                     " FROM tbl_microgrid_photovoltaic_hourly "

                     " WHERE microgrid_id = %s "

                     " AND start_datetime_utc >= %s "

                     " AND start_datetime_utc < %s "

                     " ORDER BY start_datetime_utc ")

            cursor_energy_db.execute(query, (microgrid['id'], start_datetime_utc, end_datetime_utc))

            rows_photovoltaic_hourly = cursor_energy_db.fetchall()

            rows_photovoltaic_periodically = utilities.aggregate_hourly_data_by_period(rows_photovoltaic_hourly,

                                                                                      start_datetime_utc,

                                                                                      end_datetime_utc,

                                                                                      period_type)

            for row_photovoltaic_periodically in rows_photovoltaic_periodically:

                current_datetime_local = row_photovoltaic_periodically[0].replace(tzinfo=timezone.utc) + \

                                         timedelta(minutes=timezone_offset)

                if period_type == 'hourly':

                    current_datetime = current_datetime_local.isoformat()[0:19]

                elif period_type == 'daily':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'weekly':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'monthly':

                    current_datetime = current_datetime_local.isoformat()[0:7]

                elif period_type == 'yearly':

                    current_datetime = current_datetime_local.isoformat()[0:4]

                actual_value = Decimal(0.0) if row_photovoltaic_periodically[1] is None else row_photovoltaic_periodically[1]

                timestamps.append(current_datetime)

                values.append(actual_value)

            reporting['photovoltaic_this_year']['timestamps_array'].append(timestamps)

            reporting['photovoltaic_this_year']['values_array'].append(values)

        ################################################################################################################

        # Step 6: construct the report

        ################################################################################################################

        if cursor_user:

            cursor_user.close()

        if cnx_user:

            cnx_user.close()

        if cursor_system_db:

            cursor_system_db.close()

        if cnx_system_db:

            cnx_system_db.close()

        if cursor_energy_db:

            cursor_energy_db.close()

        if cnx_energy_db:

            cnx_energy_db.close()

        result = dict()

        result['microgrid_names'] = microgrid_names

        result['reporting'] = reporting

        resp.text = json.dumps(result)

from core.useractivity import access_control, api_key_control

class Reporting:

    def __init__(self):

        """Initializes Class"""

        pass

    @staticmethod

    def on_options(req, resp):

        _ = req

        resp.status = falcon.HTTP_200

    ####################################################################################################################

    # PROCEDURES

    # Step 1: valid parameters

    # Step 2: query the microgrid list

    # Step 3: query evcharger energy data in 7 days

    # Step 4: query evcharger energy data in this month

    # Step 5: query evcharger energy data in this year

    # Step 6: construct the report

    ####################################################################################################################

    @staticmethod

    def on_get(req, resp):

        if 'API-KEY' not in req.headers or \

                not isinstance(req.headers['API-KEY'], str) or \

                len(str.strip(req.headers['API-KEY'])) == 0:

            access_control(req)

        else:

            api_key_control(req)

        user_uuid = req.params.get('useruuid')

        ################################################################################################################

        # Step 1: valid parameters

        ################################################################################################################

        if user_uuid is None:

            raise falcon.HTTPError(status=falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_USER_UUID')

        else:

            user_uuid = str.strip(user_uuid)

            if len(user_uuid) != 36:

                raise falcon.HTTPError(status=falcon.HTTP_400, title='API.BAD_REQUEST',

                                       description='API.INVALID_USER_UUID')

        ################################################################################################################

        # Step 2: query the microgrid list

        ################################################################################################################

        cnx_user = mysql.connector.connect(**config.myems_user_db)

        cursor_user = cnx_user.cursor()

        cursor_user.execute(" SELECT id, is_admin, privilege_id "

                            " FROM tbl_users "

                            " WHERE uuid = %s ", (user_uuid,))

        row_user = cursor_user.fetchone()

        if row_user is None:

            if cursor_user:

                cursor_user.close()

            if cnx_user:

                cnx_user.close()

            raise falcon.HTTPError(status=falcon.HTTP_404, title='API.NOT_FOUND',

                                   description='API.USER_NOT_FOUND')

        user = {'id': row_user[0], 'is_admin': row_user[1], 'privilege_id': row_user[2]}

        # Get microgrids

        cnx_system_db = mysql.connector.connect(**config.myems_system_db)

        cursor_system_db = cnx_system_db.cursor()

        query = (" SELECT m.id, m.name, m.uuid, "

                 "        m.address, m.postal_code, m.latitude, m.longitude, "

                 "        m.rated_capacity, m.rated_power, m.serial_number, m.description "

                 " FROM tbl_microgrids m, tbl_microgrids_users mu "

                 " WHERE m.id = mu.microgrid_id AND mu.user_id = %s "

                 " ORDER BY id ")

        cursor_system_db.execute(query, (user['id'],))

        rows_microgrids = cursor_system_db.fetchall()

        microgrid_list = list()

        microgrid_names = list()

        if rows_microgrids is not None and len(rows_microgrids) > 0:

            for row in rows_microgrids:

                meta_result = {"id": row[0],

                               "name": row[1],

                               "uuid": row[2],

                               "address": row[3],

                               "postal_code": row[4],

                               "latitude": row[5],

                               "longitude": row[6],

                               "rated_capacity": row[7],

                               "rated_power": row[8],

                               "serial_number": row[9],

                               "description": row[10]}

                microgrid_list.append(meta_result)

                microgrid_names.append(row[1])

        ################################################################################################################

        # Step 3: query evcharger energy data in 7 days

        ################################################################################################################

        timezone_offset = int(config.utc_offset[1:3]) * 60 + int(config.utc_offset[4:6])

        if config.utc_offset[0] == '-':

            timezone_offset = -timezone_offset

        reporting = dict()

        reporting['evcharger_7_days'] = dict()

        reporting['evcharger_this_month'] = dict()

        reporting['evcharger_this_year'] = dict()

        end_datetime_utc = datetime.utcnow()

        end_datetime_local = datetime.utcnow() + timedelta(minutes=timezone_offset)

        period_type = 'daily'

        start_datetime_local = end_datetime_local.replace(hour=0, minute=0, second=0, microsecond=0) - timedelta(days=6)

        start_datetime_utc = start_datetime_local - timedelta(minutes=timezone_offset)

        print('start_datetime_local:' + start_datetime_local.isoformat())

        print('end_datetime_local:' + end_datetime_local.isoformat())

        print('start_datetime_utc:' + start_datetime_utc.isoformat())

        print('end_datetime_utc:' + end_datetime_utc.isoformat())

        cnx_energy_db = mysql.connector.connect(**config.myems_energy_db)

        cursor_energy_db = cnx_energy_db.cursor()

        reporting['evcharger_7_days'] = dict()

        reporting['evcharger_7_days']['timestamps_array'] = list()

        reporting['evcharger_7_days']['values_array'] = list()

        for microgrid in microgrid_list:

            timestamps = list()

            values = list()

            query = (" SELECT start_datetime_utc, actual_value "

                     " FROM tbl_microgrid_evcharger_hourly "

                     " WHERE microgrid_id = %s "

                     " AND start_datetime_utc >= %s "

                     " AND start_datetime_utc < %s "

                     " ORDER BY start_datetime_utc ")

            cursor_energy_db.execute(query, (microgrid['id'], start_datetime_utc, end_datetime_utc))

            rows_evcharger_hourly = cursor_energy_db.fetchall()

            rows_evcharger_periodically = utilities.aggregate_hourly_data_by_period(rows_evcharger_hourly,

                                                                                    start_datetime_utc,

                                                                                    end_datetime_utc,

                                                                                    period_type)

            for row_evcharger_periodically in rows_evcharger_periodically:

                current_datetime_local = row_evcharger_periodically[0].replace(tzinfo=timezone.utc) + \

                                         timedelta(minutes=timezone_offset)

                if period_type == 'hourly':

                    current_datetime = current_datetime_local.isoformat()[0:19]

                elif period_type == 'daily':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'weekly':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'monthly':

                    current_datetime = current_datetime_local.isoformat()[0:7]

                elif period_type == 'yearly':

                    current_datetime = current_datetime_local.isoformat()[0:4]

                actual_value = Decimal(0.0) if row_evcharger_periodically[1] is None else row_evcharger_periodically[1]

                timestamps.append(current_datetime)

                values.append(actual_value)

            reporting['evcharger_7_days']['timestamps_array'].append(timestamps)

            reporting['evcharger_7_days']['values_array'].append(values)

        ################################################################################################################

        # Step 4: query evcharger energy data in this month

        ################################################################################################################

        end_datetime_utc = datetime.utcnow()

        end_datetime_local = datetime.utcnow() + timedelta(minutes=timezone_offset)

        period_type = 'daily'

        start_datetime_local = end_datetime_local.replace(day=1, hour=0, minute=0, second=0, microsecond=0)

        start_datetime_utc = start_datetime_local - timedelta(minutes=timezone_offset)

        print('start_datetime_local:' + start_datetime_local.isoformat())

        print('end_datetime_local:' + end_datetime_local.isoformat())

        print('start_datetime_utc:' + start_datetime_utc.isoformat())

        print('end_datetime_utc:' + end_datetime_utc.isoformat())

        reporting['evcharger_this_month'] = dict()

        reporting['evcharger_this_month']['timestamps_array'] = list()

        reporting['evcharger_this_month']['values_array'] = list()

        for microgrid in microgrid_list:

            timestamps = list()

            values = list()

            query = (" SELECT start_datetime_utc, actual_value "

                     " FROM tbl_microgrid_evcharger_hourly "

                     " WHERE microgrid_id = %s "

                     " AND start_datetime_utc >= %s "

                     " AND start_datetime_utc < %s "

                     " ORDER BY start_datetime_utc ")

            cursor_energy_db.execute(query, (microgrid['id'], start_datetime_utc, end_datetime_utc))

            rows_evcharger_hourly = cursor_energy_db.fetchall()

            rows_evcharger_periodically = utilities.aggregate_hourly_data_by_period(rows_evcharger_hourly,

                                                                                    start_datetime_utc,

                                                                                    end_datetime_utc,

                                                                                    period_type)

            for row_evcharger_periodically in rows_evcharger_periodically:

                current_datetime_local = row_evcharger_periodically[0].replace(tzinfo=timezone.utc) + \

                                         timedelta(minutes=timezone_offset)

                if period_type == 'hourly':

                    current_datetime = current_datetime_local.isoformat()[0:19]

                elif period_type == 'daily':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'weekly':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'monthly':

                    current_datetime = current_datetime_local.isoformat()[0:7]

                elif period_type == 'yearly':

                    current_datetime = current_datetime_local.isoformat()[0:4]

                actual_value = Decimal(0.0) if row_evcharger_periodically[1] is None else row_evcharger_periodically[1]

                timestamps.append(current_datetime)

                values.append(actual_value)

            reporting['evcharger_this_month']['timestamps_array'].append(timestamps)

            reporting['evcharger_this_month']['values_array'].append(values)

        ################################################################################################################

        # Step 5: query evcharger energy data in this year

        ################################################################################################################

        end_datetime_utc = datetime.utcnow()

        end_datetime_local = datetime.utcnow() + timedelta(minutes=timezone_offset)

        period_type = 'monthly'

        start_datetime_local = end_datetime_local.replace(month=1, day=1, hour=0, minute=0, second=0, microsecond=0)

        start_datetime_utc = start_datetime_local - timedelta(minutes=timezone_offset)

        print('start_datetime_local:' + start_datetime_local.isoformat())

        print('end_datetime_local:' + end_datetime_local.isoformat())

        print('start_datetime_utc:' + start_datetime_utc.isoformat())

        print('end_datetime_utc:' + end_datetime_utc.isoformat())

        reporting['evcharger_this_year'] = dict()

        reporting['evcharger_this_year']['timestamps_array'] = list()

        reporting['evcharger_this_year']['values_array'] = list()

        for microgrid in microgrid_list:

            timestamps = list()

            values = list()

            query = (" SELECT start_datetime_utc, actual_value "

                     " FROM tbl_microgrid_evcharger_hourly "

                     " WHERE microgrid_id = %s "

                     " AND start_datetime_utc >= %s "

                     " AND start_datetime_utc < %s "

                     " ORDER BY start_datetime_utc ")

            cursor_energy_db.execute(query, (microgrid['id'], start_datetime_utc, end_datetime_utc))

            rows_evcharger_hourly = cursor_energy_db.fetchall()

            rows_evcharger_periodically = utilities.aggregate_hourly_data_by_period(rows_evcharger_hourly,

                                                                                    start_datetime_utc,

                                                                                    end_datetime_utc,

                                                                                    period_type)

            for row_evcharger_periodically in rows_evcharger_periodically:

                current_datetime_local = row_evcharger_periodically[0].replace(tzinfo=timezone.utc) + \

                                         timedelta(minutes=timezone_offset)

                if period_type == 'hourly':

                    current_datetime = current_datetime_local.isoformat()[0:19]

                elif period_type == 'daily':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'weekly':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'monthly':

                    current_datetime = current_datetime_local.isoformat()[0:7]

                elif period_type == 'yearly':

                    current_datetime = current_datetime_local.isoformat()[0:4]

                actual_value = Decimal(0.0) if row_evcharger_periodically[1] is None else row_evcharger_periodically[1]

                timestamps.append(current_datetime)

                values.append(actual_value)

            reporting['evcharger_this_year']['timestamps_array'].append(timestamps)

            reporting['evcharger_this_year']['values_array'].append(values)

        ################################################################################################################

        # Step 6: construct the report

        ################################################################################################################

        if cursor_user:

            cursor_user.close()

        if cnx_user:

            cnx_user.close()

        if cursor_system_db:

            cursor_system_db.close()

        if cnx_system_db:

            cnx_system_db.close()

        if cursor_energy_db:

            cursor_energy_db.close()

        if cnx_energy_db:

            cnx_energy_db.close()

        result = dict()

        result['microgrid_names'] = microgrid_names

        result['reporting'] = reporting

        resp.text = json.dumps(result)

from core.useractivity import access_control, api_key_control

class Reporting:

    def __init__(self):

        """Initializes Class"""

        pass

    @staticmethod

    def on_options(req, resp):

        _ = req

        resp.status = falcon.HTTP_200

    ####################################################################################################################

    # PROCEDURES

    # Step 1: valid parameters

    # Step 2: query the microgrid list

    # Step 3: query grid buy energy data in 7 days

    # Step 4: query grid buy energy data in this month

    # Step 5: query grid buy energy data in this year

    # Step 6: construct the report

    ####################################################################################################################

    @staticmethod

    def on_get(req, resp):

        if 'API-KEY' not in req.headers or \

                not isinstance(req.headers['API-KEY'], str) or \

                len(str.strip(req.headers['API-KEY'])) == 0:

            access_control(req)

        else:

            api_key_control(req)

        user_uuid = req.params.get('useruuid')

        ################################################################################################################

        # Step 1: valid parameters

        ################################################################################################################

        if user_uuid is None:

            raise falcon.HTTPError(status=falcon.HTTP_400, title='API.BAD_REQUEST', description='API.INVALID_USER_UUID')

        else:

            user_uuid = str.strip(user_uuid)

            if len(user_uuid) != 36:

                raise falcon.HTTPError(status=falcon.HTTP_400, title='API.BAD_REQUEST',

                                       description='API.INVALID_USER_UUID')

        ################################################################################################################

        # Step 2: query the microgrid list

        ################################################################################################################

        cnx_user = mysql.connector.connect(**config.myems_user_db)

        cursor_user = cnx_user.cursor()

        cursor_user.execute(" SELECT id, is_admin, privilege_id "

                            " FROM tbl_users "

                            " WHERE uuid = %s ", (user_uuid,))

        row_user = cursor_user.fetchone()

        if row_user is None:

            if cursor_user:

                cursor_user.close()

            if cnx_user:

                cnx_user.close()

            raise falcon.HTTPError(status=falcon.HTTP_404, title='API.NOT_FOUND',

                                   description='API.USER_NOT_FOUND')

        user = {'id': row_user[0], 'is_admin': row_user[1], 'privilege_id': row_user[2]}

        # Get microgrids

        cnx_system_db = mysql.connector.connect(**config.myems_system_db)

        cursor_system_db = cnx_system_db.cursor()

        query = (" SELECT m.id, m.name, m.uuid, "

                 "        m.address, m.postal_code, m.latitude, m.longitude, "

                 "        m.rated_capacity, m.rated_power, m.serial_number, m.description "

                 " FROM tbl_microgrids m, tbl_microgrids_users mu "

                 " WHERE m.id = mu.microgrid_id AND mu.user_id = %s "

                 " ORDER BY id ")

        cursor_system_db.execute(query, (user['id'],))

        rows_microgrids = cursor_system_db.fetchall()

        microgrid_list = list()

        microgrid_names = list()

        if rows_microgrids is not None and len(rows_microgrids) > 0:

            for row in rows_microgrids:

                meta_result = {"id": row[0],

                               "name": row[1],

                               "uuid": row[2],

                               "address": row[3],

                               "postal_code": row[4],

                               "latitude": row[5],

                               "longitude": row[6],

                               "rated_capacity": row[7],

                               "rated_power": row[8],

                               "serial_number": row[9],

                               "description": row[10]}

                microgrid_list.append(meta_result)

                microgrid_names.append(row[1])

        ################################################################################################################

        # Step 3: query grid buy energy data in 7 days

        ################################################################################################################

        timezone_offset = int(config.utc_offset[1:3]) * 60 + int(config.utc_offset[4:6])

        if config.utc_offset[0] == '-':

            timezone_offset = -timezone_offset

        reporting = dict()

        reporting['grid_buy_7_days'] = dict()

        reporting['grid_buy_this_month'] = dict()

        reporting['grid_buy_this_year'] = dict()

        end_datetime_utc = datetime.utcnow()

        end_datetime_local = datetime.utcnow() + timedelta(minutes=timezone_offset)

        period_type = 'daily'

        start_datetime_local = end_datetime_local.replace(hour=0, minute=0, second=0, microsecond=0) - timedelta(days=6)

        start_datetime_utc = start_datetime_local - timedelta(minutes=timezone_offset)

        print('start_datetime_local:' + start_datetime_local.isoformat())

        print('end_datetime_local:' + end_datetime_local.isoformat())

        print('start_datetime_utc:' + start_datetime_utc.isoformat())

        print('end_datetime_utc:' + end_datetime_utc.isoformat())

        cnx_energy_db = mysql.connector.connect(**config.myems_energy_db)

        cursor_energy_db = cnx_energy_db.cursor()

        reporting['grid_buy_7_days'] = dict()

        reporting['grid_buy_7_days']['timestamps_array'] = list()

        reporting['grid_buy_7_days']['values_array'] = list()

        for microgrid in microgrid_list:

            timestamps = list()

            values = list()

            query = (" SELECT start_datetime_utc, actual_value "

                     " FROM tbl_microgrid_grid_buy_hourly "

                     " WHERE microgrid_id = %s "

                     " AND start_datetime_utc >= %s "

                     " AND start_datetime_utc < %s "

                     " ORDER BY start_datetime_utc ")

            cursor_energy_db.execute(query, (microgrid['id'], start_datetime_utc, end_datetime_utc))

            rows_grid_buy_hourly = cursor_energy_db.fetchall()

            rows_grid_buy_periodically = utilities.aggregate_hourly_data_by_period(rows_grid_buy_hourly,

                                                                                    start_datetime_utc,

                                                                                    end_datetime_utc,

                                                                                    period_type)

            for row_grid_buy_periodically in rows_grid_buy_periodically:

                current_datetime_local = row_grid_buy_periodically[0].replace(tzinfo=timezone.utc) + \

                                         timedelta(minutes=timezone_offset)

                if period_type == 'hourly':

                    current_datetime = current_datetime_local.isoformat()[0:19]

                elif period_type == 'daily':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'weekly':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'monthly':

                    current_datetime = current_datetime_local.isoformat()[0:7]

                elif period_type == 'yearly':

                    current_datetime = current_datetime_local.isoformat()[0:4]

                actual_value = Decimal(0.0) if row_grid_buy_periodically[1] is None else row_grid_buy_periodically[1]

                timestamps.append(current_datetime)

                values.append(actual_value)

            reporting['grid_buy_7_days']['timestamps_array'].append(timestamps)

            reporting['grid_buy_7_days']['values_array'].append(values)

        ################################################################################################################

        # Step 4: query grid buy energy data in this month

        ################################################################################################################

        end_datetime_utc = datetime.utcnow()

        end_datetime_local = datetime.utcnow() + timedelta(minutes=timezone_offset)

        period_type = 'daily'

        start_datetime_local = end_datetime_local.replace(day=1, hour=0, minute=0, second=0, microsecond=0)

        start_datetime_utc = start_datetime_local - timedelta(minutes=timezone_offset)

        print('start_datetime_local:' + start_datetime_local.isoformat())

        print('end_datetime_local:' + end_datetime_local.isoformat())

        print('start_datetime_utc:' + start_datetime_utc.isoformat())

        print('end_datetime_utc:' + end_datetime_utc.isoformat())

        reporting['grid_buy_this_month'] = dict()

        reporting['grid_buy_this_month']['timestamps_array'] = list()

        reporting['grid_buy_this_month']['values_array'] = list()

        for microgrid in microgrid_list:

            timestamps = list()

            values = list()

            query = (" SELECT start_datetime_utc, actual_value "

                     " FROM tbl_microgrid_grid_buy_hourly "

                     " WHERE microgrid_id = %s "

                     " AND start_datetime_utc >= %s "

                     " AND start_datetime_utc < %s "

                     " ORDER BY start_datetime_utc ")

            cursor_energy_db.execute(query, (microgrid['id'], start_datetime_utc, end_datetime_utc))

            rows_grid_buy_hourly = cursor_energy_db.fetchall()

            rows_grid_buy_periodically = utilities.aggregate_hourly_data_by_period(rows_grid_buy_hourly,

                                                                                    start_datetime_utc,

                                                                                    end_datetime_utc,

                                                                                    period_type)

            for row_grid_buy_periodically in rows_grid_buy_periodically:

                current_datetime_local = row_grid_buy_periodically[0].replace(tzinfo=timezone.utc) + \

                                         timedelta(minutes=timezone_offset)

                if period_type == 'hourly':

                    current_datetime = current_datetime_local.isoformat()[0:19]

                elif period_type == 'daily':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'weekly':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'monthly':

                    current_datetime = current_datetime_local.isoformat()[0:7]

                elif period_type == 'yearly':

                    current_datetime = current_datetime_local.isoformat()[0:4]

                actual_value = Decimal(0.0) if row_grid_buy_periodically[1] is None else row_grid_buy_periodically[1]

                timestamps.append(current_datetime)

                values.append(actual_value)

            reporting['grid_buy_this_month']['timestamps_array'].append(timestamps)

            reporting['grid_buy_this_month']['values_array'].append(values)

        ################################################################################################################

        # Step 5: query grid buy energy data in this year

        ################################################################################################################

        end_datetime_utc = datetime.utcnow()

        end_datetime_local = datetime.utcnow() + timedelta(minutes=timezone_offset)

        period_type = 'monthly'

        start_datetime_local = end_datetime_local.replace(month=1, day=1, hour=0, minute=0, second=0, microsecond=0)

        start_datetime_utc = start_datetime_local - timedelta(minutes=timezone_offset)

        print('start_datetime_local:' + start_datetime_local.isoformat())

        print('end_datetime_local:' + end_datetime_local.isoformat())

        print('start_datetime_utc:' + start_datetime_utc.isoformat())

        print('end_datetime_utc:' + end_datetime_utc.isoformat())

        reporting['grid_buy_this_year'] = dict()

        reporting['grid_buy_this_year']['timestamps_array'] = list()

        reporting['grid_buy_this_year']['values_array'] = list()

        for microgrid in microgrid_list:

            timestamps = list()

            values = list()

            query = (" SELECT start_datetime_utc, actual_value "

                     " FROM tbl_microgrid_grid_buy_hourly "

                     " WHERE microgrid_id = %s "

                     " AND start_datetime_utc >= %s "

                     " AND start_datetime_utc < %s "

                     " ORDER BY start_datetime_utc ")

            cursor_energy_db.execute(query, (microgrid['id'], start_datetime_utc, end_datetime_utc))

            rows_grid_buy_hourly = cursor_energy_db.fetchall()

            rows_grid_buy_periodically = utilities.aggregate_hourly_data_by_period(rows_grid_buy_hourly,

                                                                                    start_datetime_utc,

                                                                                    end_datetime_utc,

                                                                                    period_type)

            for row_grid_buy_periodically in rows_grid_buy_periodically:

                current_datetime_local = row_grid_buy_periodically[0].replace(tzinfo=timezone.utc) + \

                                         timedelta(minutes=timezone_offset)

                if period_type == 'hourly':

                    current_datetime = current_datetime_local.isoformat()[0:19]

                elif period_type == 'daily':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'weekly':

                    current_datetime = current_datetime_local.isoformat()[0:10]

                elif period_type == 'monthly':

                    current_datetime = current_datetime_local.isoformat()[0:7]

                elif period_type == 'yearly':

                    current_datetime = current_datetime_local.isoformat()[0:4]

                actual_value = Decimal(0.0) if row_grid_buy_periodically[1] is None else row_grid_buy_periodically[1]

                timestamps.append(current_datetime)

                values.append(actual_value)

            reporting['grid_buy_this_year']['timestamps_array'].append(timestamps)

            reporting['grid_buy_this_year']['values_array'].append(values)

        ################################################################################################################

        # Step 6: construct the report

        ################################################################################################################

        if cursor_user:

            cursor_user.close()

        if cnx_user:

            cnx_user.close()

        if cursor_system_db:

            cursor_system_db.close()

        if cnx_system_db:

            cnx_system_db.close()

        if cursor_energy_db:

            cursor_energy_db.close()

        if cnx_energy_db:

            cnx_energy_db.close()

        result = dict()

        result['microgrid_names'] = microgrid_names

        result['reporting'] = reporting

        resp.text = json.dumps(result)