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- from openleadr import OpenADRClient, OpenADRServer, enable_default_logging
- import asyncio
- import pytest
- import aiohttp
- from datetime import datetime, timedelta
- from functools import partial
- import logging
- from random import random
- import time
- from openleadr.messaging import create_message
- loop = asyncio.get_event_loop()
- loop.set_debug(True)
- enable_default_logging()
- async def collect_data(future=None):
- print("Collect Data")
- value = 100 * random()
- if future:
- future.set_result(value)
- return value
- async def lookup_ven(ven_name=None, ven_id=None):
- """
- Look up a ven by its name or ID
- """
- return {'ven_id': 'ven1234'}
- async def receive_data(data, future=None):
- if future:
- future.set_result(data)
- pass
- async def on_update_report(report, futures=None):
- if futures:
- for future in futures:
- if future.done() is False:
- future.set_result(report)
- break
- pass
- async def on_register_report(ven_id, resource_id, measurement, unit, scale,
- min_sampling_interval, max_sampling_interval, bundling=1, futures=None, receive_futures=None):
- """
- Deal with this report.
- """
- print(f"Called on register report {ven_id}, {resource_id}, {measurement}, {unit}, {scale}, {min_sampling_interval}, {max_sampling_interval}")
- assert resource_id in ('Device001', 'Device002')
- if futures:
- futures.pop(0).set_result(True)
- if receive_futures:
- callback = partial(receive_data, future=receive_futures.pop(0))
- else:
- callback = receive_data
- if bundling > 1:
- print(f"Returning from on register report {callback}, {min_sampling_interval}, {bundling * min_sampling_interval}")
- return callback, min_sampling_interval, bundling * min_sampling_interval
- print(f"Returning from on register report {callback}, {min_sampling_interval}")
- return callback, min_sampling_interval
- async def on_register_report_full(report, futures=None):
- """
- Deal with this report.
- """
- if futures:
- futures.pop().set_result(True)
- granularity = min(*[rd['sampling_rate']['min_period'] for rd in report['report_descriptions']])
- report_requests = [(rd['r_id'], on_update_report, granularity) for rd in report['report_descriptions'] if report['report_name'] == 'METADATA_TELEMETRY_USAGE']
- return report_requests
- async def on_create_party_registration(ven_name, future=None):
- if future:
- future.set_result(True)
- ven_id = '1234'
- registration_id = 'abcd'
- return ven_id, registration_id
- @pytest.mark.asyncio
- async def test_report_registration():
- """
- Test the registration of two reports with two r_ids each.
- """
- # Create a server
- logger = logging.getLogger('openleadr')
- logger.setLevel(logging.DEBUG)
- server = OpenADRServer(vtn_id='testvtn')
- server.add_handler('on_register_report', on_register_report)
- server.add_handler('on_create_party_registration', on_create_party_registration)
- # Create a client
- client = OpenADRClient(ven_name='myven', vtn_url='http://localhost:8080/OpenADR2/Simple/2.0b',)
- # Add 4 reports
- client.add_report(callback=collect_data,
- report_specifier_id='CurrentReport',
- resource_id='Device001',
- measurement='current',
- unit='A')
- client.add_report(callback=collect_data,
- report_specifier_id='CurrentReport',
- resource_id='Device002',
- measurement='current',
- unit='A')
- client.add_report(callback=collect_data,
- report_specifier_id='VoltageReport',
- resource_id='Device001',
- measurement='voltage',
- unit='V')
- client.add_report(callback=collect_data,
- report_specifier_id='VoltageReport',
- resource_id='Device002',
- measurement='voltage',
- unit='V')
- asyncio.create_task(server.run_async())
- #await asyncio.sleep(1)
- # Register the client
- await client.create_party_registration()
- # Register the reports
- await client.register_reports(client.reports)
- assert len(client.report_requests) == 2
- assert len(server.services['report_service'].report_callbacks) == 4
- await client.stop()
- await server.stop()
- async def collect_status():
- return 1
- @pytest.mark.asyncio
- async def test_report_registration_with_status_report():
- """
- Test the registration of two reports with two r_ids each.
- """
- # Create a server
- logger = logging.getLogger('openleadr')
- logger.setLevel(logging.DEBUG)
- server = OpenADRServer(vtn_id='testvtn')
- server.add_handler('on_register_report', on_register_report)
- server.add_handler('on_create_party_registration', on_create_party_registration)
- # Create a client
- client = OpenADRClient(ven_name='myven', vtn_url='http://localhost:8080/OpenADR2/Simple/2.0b',)
- # Add 4 reports
- client.add_report(callback=collect_data,
- report_specifier_id='CurrentReport',
- resource_id='Device001',
- measurement='current',
- unit='A')
- client.add_report(callback=collect_data,
- report_specifier_id='CurrentReport',
- resource_id='Device002',
- measurement='current',
- unit='A')
- client.add_report(callback=collect_data,
- report_specifier_id='VoltageReport',
- resource_id='Device001',
- measurement='voltage',
- unit='V')
- client.add_report(callback=collect_data,
- report_specifier_id='VoltageReport',
- resource_id='Device002',
- measurement='voltage',
- unit='V')
- client.add_report(callback=collect_status,
- report_name='TELEMETRY_STATUS',
- report_specifier_id='StatusReport',
- resource_id='Device001')
- asyncio.create_task(server.run_async())
- # await asyncio.sleep(1)
- # Register the client
- await client.create_party_registration()
- # Register the reports
- await client.register_reports(client.reports)
- assert len(client.report_requests) == 3
- assert len(server.services['report_service'].report_callbacks) == 5
- await client.stop()
- await server.stop()
- @pytest.mark.asyncio
- async def test_report_registration_full():
- """
- Test the registration of two reports with two r_ids each.
- """
- # Create a server
- logger = logging.getLogger('openleadr')
- logger.setLevel(logging.DEBUG)
- server = OpenADRServer(vtn_id='testvtn')
- server.add_handler('on_register_report', on_register_report_full)
- server.add_handler('on_create_party_registration', on_create_party_registration)
- # Create a client
- client = OpenADRClient(ven_name='myven', vtn_url='http://localhost:8080/OpenADR2/Simple/2.0b')
- # Add 4 reports
- client.add_report(callback=collect_data,
- report_specifier_id='PowerReport',
- resource_id='Device001',
- measurement='power_real',
- unit='W')
- client.add_report(callback=collect_data,
- report_specifier_id='PowerReport',
- resource_id='Device002',
- measurement='power_real',
- unit='W')
- client.add_report(callback=collect_data,
- report_specifier_id='VoltageReport',
- resource_id='Device001',
- measurement='voltage',
- unit='V')
- client.add_report(callback=collect_data,
- report_specifier_id='VoltageReport',
- resource_id='Device002',
- measurement='voltage',
- unit='V')
- await server.run_async()
- # await asyncio.sleep(0.1)
- # Register the client
- await client.create_party_registration()
- # Register the reports
- await client.register_reports(client.reports)
- assert len(client.report_requests) == 2
- assert len(server.services['report_service'].report_callbacks) == 4
- await client.stop()
- await server.stop()
- @pytest.mark.asyncio
- async def test_update_reports():
- """
- Tests the timely delivery of requested reports
- """
- # Create a server
- logger = logging.getLogger('openleadr')
- logger.setLevel(logging.DEBUG)
- loop = asyncio.get_event_loop()
- server = OpenADRServer(vtn_id='testvtn')
- register_report_future_1 = loop.create_future()
- register_report_future_2 = loop.create_future()
- register_report_futures = [register_report_future_1, register_report_future_2]
- receive_report_future_1 = loop.create_future()
- receive_report_future_2 = loop.create_future()
- receive_report_future_3 = loop.create_future()
- receive_report_future_4 = loop.create_future()
- receive_report_futures = [receive_report_future_1, receive_report_future_2, receive_report_future_3, receive_report_future_4]
- server.add_handler('on_register_report', partial(on_register_report, futures=register_report_futures, receive_futures=receive_report_futures))
- party_future = loop.create_future()
- server.add_handler('on_create_party_registration', partial(on_create_party_registration, future=party_future))
- # Create a client
- client = OpenADRClient(ven_name='myven', vtn_url='http://localhost:8080/OpenADR2/Simple/2.0b')
- # Add 4 reports
- future_1 = loop.create_future()
- client.add_report(callback=partial(collect_data, future=future_1),
- report_specifier_id='PowerReport',
- resource_id='Device001',
- measurement='power_real',
- sampling_rate=timedelta(seconds=2),
- unit='W')
- future_2 = loop.create_future()
- client.add_report(callback=partial(collect_data, future=future_2),
- report_specifier_id='PowerReport',
- resource_id='Device002',
- measurement='power_real',
- sampling_rate=timedelta(seconds=2),
- unit='W')
- future_3 = loop.create_future()
- client.add_report(callback=partial(collect_data, future=future_3),
- report_specifier_id='VoltageReport',
- resource_id='Device001',
- measurement='voltage',
- sampling_rate=timedelta(seconds=2),
- unit='V')
- future_4 = loop.create_future()
- client.add_report(callback=partial(collect_data, future=future_4),
- report_specifier_id='VoltageReport',
- resource_id='Device002',
- measurement='voltage',
- sampling_rate=timedelta(seconds=2),
- unit='V')
- assert len(client.reports) == 2
- asyncio.create_task(server.run_async())
- # await asyncio.sleep(1)
- # Run the client asynchronously
- print("Running the client")
- asyncio.create_task(client.run())
- print("Awaiting party future")
- await party_future
- print("Awaiting report futures")
- await asyncio.gather(register_report_future_1, register_report_future_2)
- await asyncio.sleep(0.1)
- assert len(server.services['report_service'].report_callbacks) == 4
- print("Awaiting data collection futures")
- await future_1
- await future_2
- await future_3
- await future_4
- print("Awaiting update report futures")
- await asyncio.gather(receive_report_future_1, receive_report_future_2, receive_report_future_3, receive_report_future_4)
- print("Done gathering")
- assert receive_report_future_1.result()[0][1] == future_1.result()
- assert receive_report_future_2.result()[0][1] == future_2.result()
- assert receive_report_future_3.result()[0][1] == future_3.result()
- assert receive_report_future_4.result()[0][1] == future_4.result()
- await client.stop()
- await server.stop()
- async def get_historic_data(date_from, date_to):
- pass
- async def collect_data_multi(futures=None):
- print("Data Collected")
- if futures:
- for i, future in enumerate(futures):
- if future.done() is False:
- print(f"Marking future {i} as done")
- future.set_result(True)
- break
- return 3.14
- @pytest.mark.asyncio
- async def test_incremental_reports():
- loop = asyncio.get_event_loop()
- client = OpenADRClient(ven_name='myven', vtn_url='http://localhost:8080/OpenADR2/Simple/2.0b')
- collect_futures = [loop.create_future() for i in range(2)]
- client.add_report(callback=partial(collect_data_multi, futures=collect_futures),
- report_specifier_id='myhistory',
- measurement='voltage',
- resource_id='Device001',
- sampling_rate=timedelta(seconds=2))
- server = OpenADRServer(vtn_id='myvtn')
- register_report_future = loop.create_future()
- update_report_future = loop.create_future()
- server.add_handler('on_register_report', partial(on_register_report,
- bundling=2,
- futures=[register_report_future],
- receive_futures=[update_report_future]))
- party_future = loop.create_future()
- server.add_handler('on_create_party_registration',
- partial(on_create_party_registration, future=party_future))
- loop.create_task(server.run_async())
- # await asyncio.sleep(1)
- await client.run()
- print("Awaiting party future")
- await party_future
- print("Awaiting register report future")
- await register_report_future
- print("Awaiting first data collection future... ", end="")
- await collect_futures[0]
- print("check")
- # await asyncio.sleep(1)
- print("Checking that the report was not yet sent... ", end="")
- assert update_report_future.done() is False
- print("check")
- print("Awaiting data collection second future... ", end="")
- await collect_futures[1]
- print("check")
- print("Awaiting report update future")
- result = await update_report_future
- assert len(result) == 2
- await server.stop()
- await client.stop()
- # await asyncio.sleep(0)
- async def collect_data_history(date_from, date_to, sampling_interval, futures):
- data = [(date_from, 1.0), (date_to, 2.0)]
- if futures:
- for future in futures:
- if future.done() is False:
- future.set_result(data)
- break
- return data
- @pytest.mark.asyncio
- async def test_update_report_data_collection_mode_full():
- loop = asyncio.get_event_loop()
- client = OpenADRClient(ven_name='myven', vtn_url='http://localhost:8080/OpenADR2/Simple/2.0b')
- data_collection_future = loop.create_future()
- client.add_report(callback=partial(collect_data_history, futures=[data_collection_future]),
- resource_id='Device001',
- measurement='power_real',
- data_collection_mode='full',
- sampling_rate=timedelta(seconds=1),
- unit='W')
- report_register_future = loop.create_future()
- report_received_future = loop.create_future()
- party_registration_future = loop.create_future()
- server = OpenADRServer(vtn_id='myvtn')
- server.add_handler('on_create_party_registration', partial(on_create_party_registration, future=party_registration_future))
- server.add_handler('on_register_report', partial(on_register_report,
- bundling=2,
- futures=[report_register_future],
- receive_futures=[report_received_future]))
- await server.run_async()
- # await asyncio.sleep(0.1)
- print(f"The time is now {datetime.now()}")
- t = time.time()
- wait_for = int(t/2) * 2 + 2 - t
- # await asyncio.sleep(wait_for)
- print(f"The time is now {datetime.now()}, running client")
- await client.run()
- await party_registration_future
- await report_register_future
- # await asyncio.sleep(1)
- print(f"The time is now {datetime.now()}, checking if report was triggered")
- assert data_collection_future.done() is False
- print("Waiting for the data collection to occur")
- await data_collection_future
- print("Waiting for the report to be received")
- await report_received_future
- print("Done")
- await server.stop()
- await client.stop()
- def test_add_report_invalid_unit(caplog):
- client = OpenADRClient(ven_name='myven', vtn_url='http://localhost:8080/OpenADR2/Simple/2.0b')
- client.add_report(callback=print,
- report_specifier_id='myreport',
- measurement='voltage',
- resource_id='Device001',
- sampling_rate=timedelta(seconds=10),
- unit='A')
- assert caplog.record_tuples == [("openleadr", logging.WARNING, f"The supplied unit A for measurement voltage will be ignored, V will be used instead. Allowed units for this measurement are: V")]
- def test_add_report_invalid_scale():
- client = OpenADRClient(ven_name='myven', vtn_url='http://localhost:8080/OpenADR2/Simple/2.0b')
- with pytest.raises(ValueError):
- client.add_report(callback=print,
- report_specifier_id='myreport',
- measurement='power_real',
- resource_id='Device001',
- sampling_rate=timedelta(seconds=10),
- unit='W',
- scale='xxx')
- def test_add_report_invalid_description(caplog):
- client = OpenADRClient(ven_name='myven', vtn_url='http://localhost:8080/OpenADR2/Simple/2.0b')
- client.add_report(callback=print,
- report_specifier_id='myreport',
- measurement={'name': 'voltage', 'description': 'SomethingWrong', 'unit': 'V'},
- resource_id='Device001',
- sampling_rate=timedelta(seconds=10))
- msg = create_message('oadrRegisterReport', reports=client.reports)
- def test_add_report_invalid_description(caplog):
- client = OpenADRClient(ven_name='myven', vtn_url='http://localhost:8080/OpenADR2/Simple/2.0b')
- with pytest.raises(ValueError):
- client.add_report(callback=print,
- report_specifier_id='myreport',
- measurement={'name': 'voltage', 'description': 'SomethingWrong', 'unit': 'V'},
- resource_id='Device001',
- sampling_rate=timedelta(seconds=10))
- def test_add_report_non_standard_measurement():
- client = OpenADRClient(ven_name='myven', vtn_url='http://localhost:8080/OpenADR2/Simple/2.0b')
- client.add_report(callback=print,
- report_specifier_id='myreport',
- measurement='rainbows',
- resource_id='Device001',
- sampling_rate=timedelta(seconds=10),
- unit='A')
- assert len(client.reports) == 1
- assert client.reports[0].report_descriptions[0].measurement.name == 'customUnit'
- assert client.reports[0].report_descriptions[0].measurement.description == 'rainbows'
- @pytest.mark.asyncio
- async def test_different_on_register_report_handlers(caplog):
- def on_create_party_registration(registration_info):
- return 'ven123', 'reg123'
- def get_value():
- return 123.456
- def report_callback(data):
- pass
- def on_register_report_returning_none(ven_id, resource_id, measurement, unit, scale, min_sampling_interval, max_sampling_interval):
- return None
- def on_register_report_returning_string(ven_id, resource_id, measurement, unit, scale, min_sampling_interval, max_sampling_interval):
- return "Hello There"
- def on_register_report_returning_uncallable_first_element(ven_id, resource_id, measurement, unit, scale, min_sampling_interval, max_sampling_interval):
- return ("Hello", "There")
- def on_register_report_returning_non_datetime_second_element(ven_id, resource_id, measurement, unit, scale, min_sampling_interval, max_sampling_interval):
- return (report_callback, "Hello There")
- def on_register_report_returning_non_datetime_third_element(ven_id, resource_id, measurement, unit, scale, min_sampling_interval, max_sampling_interval):
- return (report_callback, timedelta(minutes=10), "Hello There")
- def on_register_report_returning_too_long_tuple(ven_id, resource_id, measurement, unit, scale, min_sampling_interval, max_sampling_interval):
- return (report_callback, timedelta(minutes=10), timedelta(minutes=10), "Hello")
- def on_register_report_full_returning_string(report):
- return "Hello There"
- def on_register_report_full_returning_list_of_strings(report):
- return ["Hello", "There"]
- def on_register_report_full_returning_list_of_tuples_of_wrong_length(report):
- return [("Hello", "There")]
- def on_register_report_full_returning_list_of_tuples_with_no_callable(report):
- return [("Hello", "There", "World")]
- def on_register_report_full_returning_list_of_tuples_with_no_timedelta(report):
- return [(report_callback, "Hello There")]
- server = OpenADRServer(vtn_id='myvtn')
- server.add_handler('on_create_party_registration', on_create_party_registration)
- client = OpenADRClient(ven_name='myven',
- vtn_url='http://localhost:8080/OpenADR2/Simple/2.0b')
- client.add_report(resource_id='Device001',
- measurement='voltage',
- sampling_rate=timedelta(minutes=10),
- callback=get_value)
- await server.run()
- await client.create_party_registration()
- assert client.ven_id == 'ven123'
- await client.register_reports(client.reports)
- assert len(client.report_requests) == 0
- messages = [rec.message for rec in caplog.records if rec.levelno == logging.ERROR]
- assert len(messages) == 0
- caplog.clear()
- server.add_handler('on_register_report', on_register_report_returning_none)
- await client.register_reports(client.reports)
- assert len(client.report_requests) == 0
- messages = [rec.message for rec in caplog.records if rec.levelno == logging.ERROR]
- assert len(messages) == 0
- caplog.clear()
- server.add_handler('on_register_report', on_register_report_returning_string)
- await client.register_reports(client.reports)
- assert len(client.report_requests) == 0
- assert "Your on_register_report handler must return a tuple or None; it returned 'Hello There' (str)." in caplog.messages
- caplog.clear()
- server.add_handler('on_register_report', on_register_report_returning_uncallable_first_element)
- await client.register_reports(client.reports)
- assert len(client.report_requests) == 0
- assert(f"Your on_register_report handler did not return the correct tuple. "
- "It should return a (callback, sampling_interval) or "
- "(callback, sampling_interval, reporting_interval) tuple, where "
- "the callback is a callable function or coroutine, and "
- "sampling_interval and reporting_interval are of type datetime.timedelta. "
- "It returned: '('Hello', 'There')'. The first element was not callable.") in caplog.messages
- caplog.clear()
- server.add_handler('on_register_report', on_register_report_returning_non_datetime_second_element)
- await client.register_reports(client.reports)
- assert len(client.report_requests) == 0
- assert (f"Your on_register_report handler did not return the correct tuple. "
- "It should return a (callback, sampling_interval) or "
- "(callback, sampling_interval, reporting_interval) tuple, where "
- "sampling_interval and reporting_interval are of type datetime.timedelta. "
- f"It returned: '{(report_callback, 'Hello There')}'. The second element was not of type timedelta.") in caplog.messages
- caplog.clear()
- server.add_handler('on_register_report', on_register_report_returning_non_datetime_third_element)
- await client.register_reports(client.reports)
- assert len(client.report_requests) == 0
- assert ("Your on_register_report handler did not return the correct tuple. "
- "It should return a (callback, sampling_interval) or "
- "(callback, sampling_interval, reporting_interval) tuple, where "
- "sampling_interval and reporting_interval are of type datetime.timedelta. "
- f"It returned: '{(report_callback, timedelta(minutes=10), 'Hello There')}'. The third element was not of type timedelta.") in caplog.messages
- caplog.clear()
- server.add_handler('on_register_report', on_register_report_returning_too_long_tuple)
- await client.register_reports(client.reports)
- assert len(client.report_requests) == 0
- assert ("Your on_register_report handler returned a tuple of the wrong length. "
- "It should be 2 or 3. "
- f"It returned: '{(report_callback, timedelta(minutes=10), timedelta(minutes=10), 'Hello')}'.") in caplog.messages
- caplog.clear()
- server.add_handler('on_register_report', on_register_report_full_returning_string)
- await client.register_reports(client.reports)
- assert len(client.report_requests) == 0
- assert "Your on_register_report handler must return a list of tuples or None; it returned 'Hello There' (str)." in caplog.messages
- caplog.clear()
- server.add_handler('on_register_report', on_register_report_full_returning_list_of_strings)
- await client.register_reports(client.reports)
- assert len(client.report_requests) == 0
- assert ("Your on_register_report handler must return a list of tuples or None; "
- f"The first item from the list was 'Hello' (str).") in caplog.messages
- caplog.clear()
- server.add_handler('on_register_report', on_register_report_full_returning_list_of_tuples_of_wrong_length)
- await client.register_reports(client.reports)
- assert len(client.report_requests) == 0
- assert ("Your on_register_report handler returned tuples of the wrong length. "
- "It should be 3 or 4. It returned: '('Hello', 'There')'.") in caplog.messages
- caplog.clear()
- server.add_handler('on_register_report', on_register_report_full_returning_list_of_tuples_with_no_callable)
- await client.register_reports(client.reports)
- assert len(client.report_requests) == 0
- assert ("Your on_register_report handler did not return the correct tuple. "
- "It should return a list of (r_id, callback, sampling_interval) or "
- "(r_id, callback, sampling_interval, reporting_interval) tuples, "
- "where the r_id is a string, callback is a callable function or "
- "coroutine, and sampling_interval and reporting_interval are of "
- "type datetime.timedelta. It returned: '('Hello', 'There', 'World')'. "
- "The second element was not callable.") in caplog.messages
- caplog.clear()
- server.add_handler('on_register_report', on_register_report_full_returning_list_of_tuples_with_no_timedelta)
- await client.register_reports(client.reports)
- assert len(client.report_requests) == 0
- assert ("Your on_register_report handler returned tuples of the wrong length. "
- f"It should be 3 or 4. It returned: '({report_callback}, 'Hello There')'.") in caplog.messages
- await server.stop()
- await client.stop()
- @pytest.mark.asyncio
- async def test_report_registration_broken_handlers_raw_message(caplog):
- msg = """<?xml version="1.0" encoding="UTF-8" standalone="no" ?>
- <p1:oadrPayload xmlns:p1="http://openadr.org/oadr-2.0b/2012/07">
- <p1:oadrSignedObject>
- <p1:oadrRegisterReport xmlns:p3="http://docs.oasis-open.org/ns/energyinterop/201110" p3:schemaVersion="2.0b" xmlns:p2="http://docs.oasis-open.org/ns/energyinterop/201110/payloads">
- <p2:requestID>B8A6E0D2D4</p2:requestID>
- <p1:oadrReport xmlns:p3="urn:ietf:params:xml:ns:icalendar-2.0" xmlns:p4="http://docs.oasis-open.org/ns/energyinterop/201110">
- <p3:duration>
- <p3:duration>PT120M</p3:duration>
- </p3:duration>
- <p1:oadrReportDescription xmlns:p4="http://docs.oasis-open.org/ns/energyinterop/201110" xmlns:p5="http://docs.oasis-open.org/ns/emix/2011/06/power" xmlns:p6="http://docs.oasis-open.org/ns/emix/2011/06">
- <p4:rID>rid_energy_4184bb93</p4:rID>
- <p4:reportDataSource>
- <p4:resourceID>DEVICE1</p4:resourceID>
- </p4:reportDataSource>
- <p4:reportType>reading</p4:reportType>
- <p5:energyReal xmlns:p6="http://docs.oasis-open.org/ns/emix/2011/06/siscale">
- <p5:itemDescription/>
- <p5:itemUnits>Wh</p5:itemUnits>
- <p6:siScaleCode>none</p6:siScaleCode>
- </p5:energyReal>
- <p4:readingType>Direct Read</p4:readingType>
- <p6:marketContext/>
- <p1:oadrSamplingRate>
- <p1:oadrMinPeriod>PT1M</p1:oadrMinPeriod>
- <p1:oadrMaxPeriod>PT1M</p1:oadrMaxPeriod>
- <p1:oadrOnChange>false</p1:oadrOnChange>
- </p1:oadrSamplingRate>
- </p1:oadrReportDescription>
- <p1:oadrReportDescription xmlns:p4="http://docs.oasis-open.org/ns/energyinterop/201110" xmlns:p5="http://docs.oasis-open.org/ns/emix/2011/06/power" xmlns:p6="http://docs.oasis-open.org/ns/emix/2011/06">
- <p4:rID>rid_power_4184bb93</p4:rID>
- <p4:reportDataSource>
- <p4:resourceID>DEVICE1</p4:resourceID>
- </p4:reportDataSource>
- <p4:reportType>reading</p4:reportType>
- <p5:powerReal xmlns:p6="http://docs.oasis-open.org/ns/emix/2011/06/siscale">
- <p5:itemDescription/>
- <p5:itemUnits>W</p5:itemUnits>
- <p6:siScaleCode>none</p6:siScaleCode>
- <p5:powerAttributes>
- <p5:hertz>60</p5:hertz>
- <p5:voltage>120</p5:voltage>
- <p5:ac>true</p5:ac>
- </p5:powerAttributes>
- </p5:powerReal>
- <p4:readingType>Direct Read</p4:readingType>
- <p6:marketContext/>
- <p1:oadrSamplingRate>
- <p1:oadrMinPeriod>PT1M</p1:oadrMinPeriod>
- <p1:oadrMaxPeriod>PT1M</p1:oadrMaxPeriod>
- <p1:oadrOnChange>false</p1:oadrOnChange>
- </p1:oadrSamplingRate>
- </p1:oadrReportDescription>
- <p4:reportRequestID>0</p4:reportRequestID>
- <p4:reportSpecifierID>DEMO_TELEMETRY_USAGE</p4:reportSpecifierID>
- <p4:reportName>METADATA_TELEMETRY_USAGE</p4:reportName>
- <p4:createdDateTime>2020-12-15T14:10:32Z</p4:createdDateTime>
- </p1:oadrReport>
- <p3:venID>ven_id</p3:venID>
- </p1:oadrRegisterReport>
- </p1:oadrSignedObject>
- </p1:oadrPayload>"""
- server = OpenADRServer(vtn_id='myvtn')
- await server.run()
- # Test with no configured callbacks
- from aiohttp import ClientSession
- async with ClientSession() as session:
- async with session.post("http://localhost:8080/OpenADR2/Simple/2.0b/EiReport",
- headers={'content-type': 'Application/XML'},
- data=msg.encode('utf-8')) as resp:
- assert resp.status == 200
- # Test with a working callback
- def report_callback(data):
- print(data)
- def working_on_register_report(ven_id, resource_id, measurement, unit, scale, min_sampling_interval, max_sampling_interval):
- return report_callback, min_sampling_interval
- server.add_handler('on_register_report', working_on_register_report)
- async with ClientSession() as session:
- async with session.post("http://localhost:8080/OpenADR2/Simple/2.0b/EiReport",
- headers={'content-type': 'Application/XML'},
- data=msg.encode('utf-8')) as resp:
- assert resp.status == 200
- # Test with a broken callback
- def broken_on_register_report(ven_id, resource_id, measurement, unit, scale, min_sampling_interval, max_sampling_interval):
- return "Hello There"
- server.add_handler('on_register_report', broken_on_register_report)
- async with ClientSession() as session:
- async with session.post("http://localhost:8080/OpenADR2/Simple/2.0b/EiReport",
- headers={'content-type': 'Application/XML'},
- data=msg.encode('utf-8')) as resp:
- assert resp.status == 200
- # assert "Your on_register_report handler must return a tuple; it returned 'Hello There' (str)." in caplog.messages
- # Test with a broken full callback
- def broken_on_register_report_full(report):
- return "Hello There Again"
- server.add_handler('on_register_report', broken_on_register_report_full)
- async with ClientSession() as session:
- async with session.post("http://localhost:8080/OpenADR2/Simple/2.0b/EiReport",
- headers={'content-type': 'Application/XML'},
- data=msg.encode('utf-8')) as resp:
- assert resp.status == 200
- assert f"Your on_register_report handler must return a list of tuples or None; it returned 'Hello There Again' (str)." in caplog.messages
- await server.stop()
- @pytest.mark.asyncio
- async def test_register_historic_report():
- client = OpenADRClient(ven_name='myven',
- vtn_url='http://localhost:8080/OpenADR2/Simple/2.0b')
- client.add_report(report_name='HISTORY_USAGE',
- callback=get_historic_data,
- measurement='voltage',
- resource_id='Device001',
- sampling_rate=timedelta(seconds=1))
- server = OpenADRServer(vtn_id='myvtn')
- server.add_handler('on_create_party_registration', on_create_party_registration)
- # server.add_handler('on_register_report', on_register_report_historic)
- await server.run()
- await client.run()
- assert len(server.registered_reports) == 1
- await client.stop()
- await server.stop()
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