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test_message_conversion.py
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# SPDX-License-Identifier: Apache-2.0
# Copyright 2020 Contributors to OpenLEADR
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
# http://www.apache.org/licenses/LICENSE-2.0
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
from openleadr.utils import generate_id, group_targets_by_type
from openleadr.messaging import create_message, parse_message, validate_xml_schema
from openleadr import enums
from pprint import pprint
from termcolor import colored
from datetime import datetime, timezone, timedelta
import pytest
from pprint import pprint, pformat
from lxml import etree
from dataclasses import asdict
import re
DATE_FORMAT = "%Y-%m-%dT%H:%M:%S.%fZ"
def create_dummy_event(ven_id):
"""
Creates a dummy event
"""
now = datetime.now(timezone.utc)
event_id = generate_id()
active_period = {"dtstart": (now + timedelta(minutes=1)),
"duration": timedelta(minutes=9)}
event_descriptor = {"event_id": event_id,
"modification_number": 1,
"modification_date_time": now,
"priority": 1,
"market_context": "http://MarketContext1",
"created_date_time": now,
"event_status": "near",
"test_event": False,
"vtn_comment": "This is an event"}
event_signals = [{"intervals": [{"duration": timedelta(minutes=1), "uid": 0, "signal_payload": 8.0},
{"duration": timedelta(minutes=1), "uid": 1, "signal_payload": 10.0},
{"duration": timedelta(minutes=1), "uid": 2, "signal_payload": 12.0},
{"duration": timedelta(minutes=1), "uid": 3, "signal_payload": 14.0},
{"duration": timedelta(minutes=1), "uid": 4, "signal_payload": 16.0},
{"duration": timedelta(minutes=1), "uid": 5, "signal_payload": 18.0},
{"duration": timedelta(minutes=1), "uid": 6, "signal_payload": 20.0},
{"duration": timedelta(minutes=1), "uid": 7, "signal_payload": 10.0},
{"duration": timedelta(minutes=1), "uid": 8, "signal_payload": 20.0}],
"signal_name": "LOAD_CONTROL",
"signal_type": "x-loadControlCapacity",
"signal_id": generate_id(),
"measurement": {"name": "voltage",
"description": "Voltage",
"unit": "V",
"scale": "none"},
"current_value": 0.0}]
event_targets = [{"ven_id": 'VEN001'}, {"ven_id": 'VEN002'}]
event = {'active_period': active_period,
'event_descriptor': event_descriptor,
'event_signals': event_signals,
'targets': event_targets,
'targets_by_type': group_targets_by_type(event_targets),
'response_required': 'always'}
return event
reports = [{'report_id': generate_id(),
'duration': timedelta(seconds=3600),
'report_descriptions': [{'r_id': generate_id(),
'report_subject': {'end_device_asset': {'mrid': 'meter001'}},
'report_data_source': {'resource_id': 'resource001'},
'report_type': 'usage',
'measurement': asdict(measurement),
'reading_type': 'Direct Read',
'market_context': 'http://MarketContext1',
'sampling_rate': {'min_period': timedelta(seconds=10), 'max_period': timedelta(seconds=30), 'on_change': False}} for measurement in enums.MEASUREMENTS.values],
'report_specifier_id': generate_id(),
'report_name': 'METADATA_HISTORY_USAGE',
'report_request_id': None,
'created_date_time': datetime.now(timezone.utc)}]
for report in reports:
for rd in report['report_descriptions']:
rd['measurement'].pop('acceptable_units')
rd['measurement'].pop('ns')
if rd['measurement']['power_attributes'] is None:
rd['measurement'].pop('power_attributes')
if rd['measurement']['scale'] is None:
rd['measurement'].pop('scale')
if rd['measurement']['pulse_factor'] is None:
rd['measurement'].pop('pulse_factor')
testcases = [
('oadrCanceledOpt', dict(response={'response_code': 200, 'response_description': 'OK', 'request_id': generate_id()}, opt_id=generate_id())),
('oadrCanceledPartyRegistration', dict(response={'response_code': 200, 'response_description': 'OK', 'request_id': generate_id()}, registration_id=generate_id(), ven_id='123ABC')),
('oadrCanceledReport', dict(response={'response_code': 200, 'response_description': 'OK', 'request_id': generate_id()}, pending_reports=[{'report_request_id': generate_id()}, {'report_request_id': generate_id()}], ven_id='123ABC')),
('oadrCancelOpt', dict(request_id=generate_id(), ven_id='123ABC', opt_id=generate_id())),
('oadrCancelPartyRegistration', dict(request_id=generate_id(), ven_id='123ABC', registration_id=generate_id())),
('oadrCancelReport', dict(request_id=generate_id(), ven_id='123ABC', report_request_id=generate_id(), report_to_follow=True)),
('oadrCreatedEvent', dict(response={'response_code': 200, 'response_description': 'OK', 'request_id': None},
event_responses=[{'response_code': 200, 'response_description': 'OK', 'request_id': generate_id(), 'event_id': generate_id(), 'modification_number': 1, 'opt_type': 'optIn'},
{'response_code': 200, 'response_description': 'OK', 'request_id': generate_id(), 'event_id': generate_id(), 'modification_number': 1, 'opt_type': 'optIn'},
{'response_code': 200, 'response_description': 'OK', 'request_id': generate_id(), 'event_id': generate_id(), 'modification_number': 1, 'opt_type': 'optIn'}],
ven_id='123ABC')),
('oadrCreatedReport', dict(response={'response_code': 200, 'response_description': 'OK', 'request_id': generate_id()}, pending_reports=[{'report_request_id': generate_id()}, {'report_request_id': generate_id()}], ven_id='123ABC')),
('oadrCreatedEvent', dict(response={'response_code': 200, 'response_description': 'OK', 'request_id': None},
event_responses=[{'response_code': 200, 'response_description': 'OK', 'request_id': generate_id(),
'event_id': generate_id(),
'modification_number': 1,
'opt_type': 'optIn'},
{'response_code': 200, 'response_description': 'OK', 'request_id': generate_id(),
'event_id': generate_id(),
'modification_number': 1,
'opt_type': 'optOut'}],
ven_id='123ABC')),
('oadrCreatedPartyRegistration', dict(response={'response_code': 200, 'response_description': 'OK', 'request_id': generate_id()},
registration_id=generate_id(),
ven_id='123ABC',
profiles=[{'profile_name': '2.0b',
'transports': [{'transport_name': 'simpleHttp'}]}],
vtn_id='VTN123')),
('oadrCreatedReport', dict(response={'response_code': 200, 'response_description': 'OK', 'request_id': generate_id()}, pending_reports=[{'report_request_id': generate_id()}, {'report_request_id': generate_id()}])),
('oadrCreateOpt', dict(opt_id=generate_id(),
opt_type='optIn',
opt_reason='participating',
created_date_time=datetime.now(timezone.utc),
request_id=generate_id(),
event_id=generate_id(),
modification_number=1,
targets=[{'ven_id': '123ABC'}],
targets_by_type=group_targets_by_type([{'ven_id': '123ABC'}]),
ven_id='VEN123')),
('oadrCreatePartyRegistration', dict(request_id=generate_id(), ven_id='123ABC', profile_name='2.0b', transport_name='simpleHttp', transport_address='http://localhost', report_only=False, xml_signature=False, ven_name='test', http_pull_model=True)),
('oadrCreateReport', dict(request_id=generate_id(),
ven_id='123ABC',
report_requests=[{'report_request_id': 'd2b7bade5f',
'report_specifier': {'granularity': timedelta(seconds=900),
'report_back_duration': timedelta(seconds=900),
'report_interval': {'dtstart': datetime(2019, 11, 19, 11, 0, 18, 672768, tzinfo=timezone.utc),
'duration': timedelta(seconds=7200)},
'report_specifier_id': '9c8bdc00e7',
'specifier_payloads': [{'r_id': 'd6e2e07485',
'reading_type': 'Direct Read'}]}}])),
('oadrDistributeEvent', dict(request_id=generate_id(), response={'request_id': 123, 'response_code': 200, 'response_description': 'OK'}, events=[create_dummy_event(ven_id='123ABC')], vtn_id='VTN123')),
('oadrDistributeEvent', dict(request_id=generate_id(), response={'request_id': 123, 'response_code': 200, 'response_description': 'OK'}, events=[create_dummy_event(ven_id='123ABC'), create_dummy_event(ven_id='123ABC')], vtn_id='VTN123')),
('oadrPoll', dict(ven_id='123ABC')),
('oadrQueryRegistration', dict(request_id=generate_id())),
('oadrRegisteredReport', dict(ven_id='VEN123', response={'response_code': 200, 'response_description': 'OK', 'request_id': generate_id()},
report_requests=[{'report_request_id': generate_id(),
'report_specifier': {'report_specifier_id': generate_id(),
'granularity': timedelta(minutes=15),
'report_back_duration': timedelta(minutes=15),
'report_interval': {'dtstart': datetime.now(timezone.utc),
'duration': timedelta(hours=2)},
'specifier_payloads': [{'r_id': generate_id(),
'reading_type': 'Direct Read'}]}},
{'report_request_id': generate_id(),
'report_specifier': {'report_specifier_id': generate_id(),
'granularity': timedelta(minutes=15),
'report_back_duration': timedelta(minutes=15),
'report_interval': {'dtstart': datetime.now(timezone.utc),
'duration': timedelta(hours=2)},
'specifier_payloads': [{'r_id': generate_id(),
'reading_type': 'Direct Read'}]}}])),
('oadrRequestEvent', dict(request_id=generate_id(), ven_id='123ABC')),
('oadrRequestReregistration', dict(ven_id='123ABC')),
('oadrRegisterReport', dict(request_id=generate_id(), reports=[{'report_id': generate_id(),
'report_descriptions': [{
'r_id': generate_id(),
'report_subject': {'end_device_asset': {'mrid': 'meter001'}},
'report_data_source': {'resource_id': '123ABC'},
'report_type': 'reading',
'reading_type': 'Direct Read',
'market_context': 'http://localhost',
'sampling_rate': {'min_period': timedelta(minutes=1), 'max_period': timedelta(minutes=1), 'on_change': True}}],
'report_request_id': generate_id(),
'report_specifier_id': generate_id(),
'report_name': 'HISTORY_USAGE',
'created_date_time': datetime.now(timezone.utc)}],
ven_id='123ABC',
report_request_id=generate_id())),
('oadrRegisterReport', {'request_id': '8a4f859883', 'reports': [{'report_id': generate_id(),
'duration': timedelta(seconds=7200),
'report_descriptions': [{'r_id': generate_id(),
'report_data_source': {'resource_id': 'resource1'},
'report_type': 'x-resourceStatus',
'reading_type': 'x-notApplicable',
'market_context': 'http://MarketContext1',
'sampling_rate': {'min_period': timedelta(seconds=60), 'max_period': timedelta(seconds=60), 'on_change': False}}],
'report_request_id': generate_id(),
'report_specifier_id': '789ed6cd4e_telemetry_status',
'report_name': 'METADATA_TELEMETRY_STATUS',
'created_date_time': datetime(2019, 11, 20, 15, 4, 52, 638621, tzinfo=timezone.utc)},
{'report_id': generate_id(),
'duration': timedelta(seconds=7200),
'report_descriptions': [{'r_id': 'resource1_energy',
'report_data_source': {'resource_id': 'resource1'},
'report_type': 'usage',
'measurement': {'name': 'energyReal',
'description': 'RealEnergy',
'ns': 'power',
'unit': 'Wh',
'scale': 'n'},
'reading_type': 'Direct Read',
'market_context': 'http://MarketContext1',
'sampling_rate': {'min_period': timedelta(seconds=60), 'max_period': timedelta(seconds=60), 'on_change': False}},
{'r_id': 'resource1_power',
'report_data_source': {'resource_id': 'resource1'},
'report_type': 'usage',
'measurement': {'name': 'powerReal',
'description': 'RealPower',
'ns': 'power',
'unit': 'W',
'scale': 'n',
'power_attributes': {'hertz': 50, 'voltage': 230, 'ac': True}},
'reading_type': 'Direct Read',
'market_context': 'http://MarketContext1',
'sampling_rate': {'min_period': timedelta(seconds=60), 'max_period': timedelta(seconds=60), 'on_change': False}}],
'report_request_id': generate_id(),
'report_specifier_id': '789ed6cd4e_telemetry_usage',
'report_name': 'METADATA_TELEMETRY_USAGE',
'created_date_time': datetime(2019, 11, 20, 15, 4, 52, 638621, tzinfo=timezone.utc)},
{'report_id': generate_id(),
'duration': timedelta(seconds=7200),
'report_descriptions': [{'r_id': 'resource1_energy',
'report_data_source': {'resource_id': 'resource1'},
'report_type': 'usage',
'measurement': {'name': 'energyReal',
'description': 'RealEnergy',
'ns': 'power',
'unit': 'Wh',
'scale': 'n'},
'reading_type': 'Direct Read',
'market_context': 'http://MarketContext1',
'sampling_rate': {'min_period': timedelta(seconds=60), 'max_period': timedelta(seconds=60), 'on_change': False}},
{'r_id': 'resource1_power',
'report_data_source': {'resource_id': 'resource1'},
'report_type': 'usage',
'measurement': {'name': 'powerReal',
'description': 'RealPower',
'ns': 'power',
'unit': 'W',
'scale': 'n',
'power_attributes': {'hertz': 50, 'voltage': 230, 'ac': True}},
'reading_type': 'Direct Read',
'market_context': 'http://MarketContext1',
'sampling_rate': {'min_period': timedelta(seconds=60), 'max_period': timedelta(seconds=60), 'on_change': False}}],
'report_request_id': generate_id(),
'report_specifier_id': '789ed6cd4e_history_usage',
'report_name': 'METADATA_HISTORY_USAGE',
'created_date_time': datetime(2019, 11, 20, 15, 4, 52, 638621, tzinfo=timezone.utc)}], 'ven_id': 's3cc244ee6'}),
('oadrRegisterReport', {'ven_id': 'ven123', 'request_id': generate_id(), 'reports': reports}),
('oadrResponse', dict(response={'response_code': 200, 'response_description': 'OK', 'request_id': generate_id()}, ven_id='123ABC')),
('oadrResponse', dict(response={'response_code': 200, 'response_description': 'OK', 'request_id': None}, ven_id='123ABC')),
('oadrUpdatedReport', dict(response={'response_code': 200, 'response_description': 'OK', 'request_id': generate_id()}, ven_id='123ABC', cancel_report={'request_id': generate_id(), 'report_request_id': [generate_id(), generate_id(), generate_id()], 'report_to_follow': False, 'ven_id': '123ABC'})),
('oadrUpdateReport', dict(request_id=generate_id(), reports=[{'report_id': generate_id(),
'report_name': enums.REPORT_NAME.values[0],
'created_date_time': datetime.now(timezone.utc),
'report_request_id': generate_id(),
'report_specifier_id': generate_id(),
'report_descriptions': [{'r_id': generate_id(),
'report_subject': {'end_device_asset': {'mrid': 'meter001'}},
'report_data_source': {'resource_id': '123ABC'},
'report_type': enums.REPORT_TYPE.values[0],
'reading_type': enums.READING_TYPE.values[0],
'market_context': 'http://localhost',
'sampling_rate': {'min_period': timedelta(minutes=1),
'max_period': timedelta(minutes=2),
'on_change': False}}
]}], ven_id='123ABC'))
]
@pytest.mark.parametrize('message_type,data', testcases)
def test_message(message_type, data):
# file = open('representations.rst', 'a')
# print(f".. _{message_type}:", file=file)
# print("", file=file)
# print(message_type, file=file)
# print("="*len(message_type), file=file)
# print("", file=file)
# print("OpenADR payload:", file=file)
# print("", file=file)
# print(".. code-block:: xml", file=file)
# print(" ", file=file)
message = create_message(message_type, **data)
# message = re.sub(r"\s\s+","",message)
# message = message.replace("\n","")
# xml_lines = etree.tostring(etree.fromstring(message.replace('\n', '').encode('utf-8')), pretty_print=True).decode('utf-8').splitlines()
# for line in xml_lines:
# print(" " + line, file=file)
# print("", file=file)
# print("OpenLEADR representation:", file=file)
# print(" ", file=file)
# print(".. code-block:: python3", file=file)
# print(" ", file=file)
validate_xml_schema(message)
parsed = parse_message(message)[1]
# dict_lines = pformat(parsed).splitlines()
# for line in dict_lines:
# print(" " + line, file=file)
# print("", file=file)
# print("", file=file)
if message_type == 'oadrRegisterReport':
for report in data['reports']:
for rd in report['report_descriptions']:
if 'measurement' in rd:
rd['measurement'].pop('ns')
if message_type == 'oadrDistributeEvent':
for event in data['events']:
for signal in event['event_signals']:
if 'measurement' in signal:
signal['measurement'].pop('ns')
assert parsed == data