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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.
- """
- OpenADR Client for Python
- """
- import xmltodict
- import random
- import aiohttp
- from openleadr.utils import new_request_id, peek, generate_id, certificate_fingerprint
- from openleadr.messaging import create_message, parse_message
- from openleadr import enums
- from datetime import datetime, timedelta, timezone
- from http import HTTPStatus
- from apscheduler.schedulers.asyncio import AsyncIOScheduler
- import asyncio
- from asyncio import iscoroutine
- from functools import partial
- import warnings
- MEASURANDS = {'power_real': 'power_quantity',
- 'power_reactive': 'power_quantity',
- 'power_apparent': 'power_quantity',
- 'energy_real': 'energy_quantity',
- 'energy_reactive': 'energy_quantity',
- 'energy_active': 'energy_quantity'}
- class OpenADRClient:
- """
- Main client class. Most of these methods will be called automatically, but
- you can always choose to call them manually.
- """
- def __init__(self, ven_name, vtn_url, debug=False, cert=None, key=None, passphrase=None, vtn_fingerprint=None):
- """
- Initializes a new OpenADR Client (Virtual End Node)
- :param str ven_name: The name for this VEN
- :param str vtn_url: The URL of the VTN (Server) to connect to
- :param bool debug: Whether or not to print debugging messages
- :param str cert: The path to a PEM-formatted Certificate file to use for signing messages
- :param str key: The path to a PEM-formatted Private Key file to use for signing messages
- :param str fingerprint: The fingerprint for the VTN's certificate to verify incomnig messages
- """
- self.ven_name = ven_name
- self.vtn_url = vtn_url
- self.ven_id = None
- self.poll_frequency = None
- self.debug = debug
- self.reports = {} # Mapping of all available reports from the VEN
- self.report_requests = {} # Mapping of the reports requested by the VTN
- self.report_schedulers = {} # Mapping between reportRequestIDs and our internal report schedulers
- self.scheduler = AsyncIOScheduler()
- self.client_session = aiohttp.ClientSession()
- if cert and key:
- with open(cert, 'rb') as file:
- cert = file.read()
- with open(key, 'rb') as file:
- key = file.read()
- print("*" * 80)
- print("Your VEN Certificate Fingerprint is", certificate_fingerprint(cert))
- print("Please deliver this fingerprint to the VTN you are connecting to.")
- print("You do not need to keep this a secret.")
- print("*" * 80)
- self._create_message = partial(create_message,
- cert=cert,
- key=key,
- passphrase=passphrase)
- self._parse_message = partial(parse_message,
- fingerprint=vtn_fingerprint)
- async def run(self):
- """
- Run the client in full-auto mode.
- """
- if not hasattr(self, 'on_event'):
- raise NotImplementedError("You must implement an on_event function or coroutine.")
- await self.create_party_registration()
- if not self.ven_id:
- print("No VEN ID received from the VTN, aborting registration.")
- return
- if self.reports:
- await self.register_report()
- # Set up automatic polling
- if self.poll_frequency.total_seconds() < 60:
- cron_second = f"*/{self.poll_frequency.seconds}"
- cron_minute = "*"
- cron_hour = "*"
- elif self.poll_frequency.total_seconds() < 3600:
- cron_second = "0"
- cron_minute = f'*/{int(self.poll_frequency.total_seconds() / 60)}'
- cron_hour = "*"
- elif self.poll_frequency.total_seconds() < 86400:
- cron_second = "0"
- cron_minute = "0"
- cron_hour = f'*/{int(self.poll_frequency.total_seconds() / 3600)}'
- elif self.poll_frequency.total_seconds() > 86400:
- print("Polling with intervals of more than 24 hours is not supported.")
- return
- self.scheduler.add_job(self._poll, trigger='cron', second=cron_second, minute=cron_minute, hour=cron_hour)
- self.scheduler.start()
- def add_report(self, callable, report_id, report_name, reading_type, report_type,
- sampling_rate, resource_id, measurand, unit, scale="none",
- power_ac=True, power_hertz=50, power_voltage=230, market_context=None):
- """
- Add a new reporting capability to the client.
- :param callable callable: A callable or coroutine that will fetch the value for a specific report. This callable will be passed the report_id and the r_id of the requested value.
- :param str report_id: A unique identifier for this report.
- :param str report_name: An OpenADR name for this report (one of openleadr.enums.REPORT_NAME)
- :param str reading_type: An OpenADR reading type (found in openleadr.enums.READING_TYPE)
- :param str report_type: An OpenADR report type (found in openleadr.enums.REPORT_TYPE)
- :param datetime.timedelta sampling_rate: The sampling rate for the measurement.
- :param resource_id: A specific name for this resource within this report.
- :param str unit: The unit for this measurement.
- """
- if report_name not in enums.REPORT_NAME.values:
- raise ValueError(f"{report_name} is not a valid report_name. Valid options are {', '.join(enums.REPORT_NAME.values)}.")
- if reading_type not in enums.READING_TYPE.values:
- raise ValueError(f"{reading_type} is not a valid reading_type. Valid options are {', '.join(enums.READING_TYPE.values)}.")
- if report_type not in enums.REPORT_TYPE.values:
- raise ValueError(f"{report_type} is not a valid report_type. Valid options are {', '.join(enums.REPORT_TYPE.values)}.")
- if measurand not in MEASURANDS:
- raise ValueError(f"{measurand} is not a valid measurand. Valid options are 'power_real', 'power_reactive', 'power_apparent', 'energy_real', 'energy_reactive', 'energy_active', 'energy_quantity', 'voltage'")
- if scale not in enums.SI_SCALE_CODE.values:
- raise ValueError(f"{scale} is not a valid scale. Valid options are {', '.join(enums.SI_SCALE_CODE.values)}")
- report_description = {'market_context': market_context,
- 'r_id': resource_id,
- 'reading_type': reading_type,
- 'report_type': report_type,
- 'sampling_rate': {'max_period': sampling_rate,
- 'min_period': sampling_rate,
- 'on_change': False},
- measurand: {'item_description': measurand,
- 'item_units': unit,
- 'si_scale_code': scale}}
- if 'power' in measurand:
- report_description[measurand]['power_attributes'] = {'ac': power_ac, 'hertz': power_hertz, 'voltage': power_voltage}
- if report_id in self.reports:
- report = self.reports[report_id]['report_descriptions'].append(report_description)
- else:
- report = {'callable': callable,
- 'created_date_time': datetime.now(timezone.utc),
- 'report_id': report_id,
- 'report_name': report_name,
- 'report_request_id': generate_id(),
- 'report_specifier_id': report_id + "_" + report_name.lower(),
- 'report_descriptions': [report_description]}
- self.reports[report_id] = report
- self.report_ids[resource_id] = {'item_base': measurand}
- async def query_registration(self):
- """
- Request information about the VTN.
- """
- request_id = new_request_id()
- service = 'EiRegisterParty'
- message = self._create_message('oadrQueryRegistration', request_id=request_id)
- response_type, response_payload = await self._perform_request(service, message)
- return response_type, response_payload
- async def create_party_registration(self, http_pull_model=True, xml_signature=False,
- report_only=False, profile_name='2.0b',
- transport_name='simpleHttp', transport_address=None, ven_id=None):
- """
- Take the neccessary steps to register this client with the server.
- :param bool http_pull_model: Whether to use the 'pull' model for HTTP.
- :param bool xml_signature: Whether to sign each XML message.
- :param bool report_only: Whether or not this is a reporting-only client which does not deal with Events.
- :param str profile_name: Which OpenADR profile to use.
- :param str transport_name: The transport name to use. Either 'simpleHttp' or 'xmpp'.
- :param str transport_address: Which public-facing address the server should use to communicate.
- :param str ven_id: The ID for this VEN. If you leave this blank, a VEN_ID will be assigned by the VTN.
- """
- request_id = new_request_id()
- service = 'EiRegisterParty'
- payload = {'ven_name': self.ven_name,
- 'http_pull_model': http_pull_model,
- 'xml_signature': xml_signature,
- 'report_only': report_only,
- 'profile_name': profile_name,
- 'transport_name': transport_name,
- 'transport_address': transport_address}
- if ven_id:
- payload['ven_id'] = ven_id
- message = self._create_message('oadrCreatePartyRegistration', request_id=new_request_id(), **payload)
- response_type, response_payload = await self._perform_request(service, message)
- if response_type is None:
- return
- if response_payload['response']['response_code'] != 200:
- status_code = response_payload['response']['response_code']
- status_description = response_payload['response']['response_description']
- print(f"Got error on Create Party Registration: {status_code} {status_description}")
- return
- self.ven_id = response_payload['ven_id']
- self.poll_frequency = response_payload.get('requested_oadr_poll_freq', timedelta(seconds=10))
- print(f"VEN is now registered with ID {self.ven_id}")
- print(f"The polling frequency is {self.poll_frequency}")
- return response_type, response_payload
- async def cancel_party_registration(self):
- raise NotImplementedError("Cancel Registration is not yet implemented")
- async def request_event(self, reply_limit=1):
- """
- Request the next Event from the VTN, if it has any.
- """
- payload = {'request_id': new_request_id(),
- 'ven_id': self.ven_id,
- 'reply_limit': reply_limit}
- message = self._create_message('oadrRequestEvent', **payload)
- service = 'EiEvent'
- response_type, response_payload = await self._perform_request(service, message)
- return response_type, response_payload
- async def created_event(self, request_id, event_id, opt_type, modification_number=1):
- """
- Inform the VTN that we created an event.
- """
- service = 'EiEvent'
- payload = {'ven_id': self.ven_id,
- 'response': {'response_code': 200,
- 'response_description': 'OK',
- 'request_id': request_id},
- 'event_responses': [{'response_code': 200,
- 'response_description': 'OK',
- 'request_id': request_id,
- 'event_id': event_id,
- 'modification_number': modification_number,
- 'opt_type': opt_type}]}
- message = self._create_message('oadrCreatedEvent', **payload)
- response_type, response_payload = await self._perform_request(service, message)
- async def register_report(self):
- """
- Tell the VTN about our reporting capabilities.
- """
- request_id = generate_id()
- payload = {'request_id': generate_id(),
- 'ven_id': self.ven_id,
- 'reports': self.reports}
- service = 'EiReport'
- message = self._create_message('oadrRegisterReport', **payload)
- response_type, response_payload = await self._perform_request(service, message)
- # Remember which reports the VTN is interested in
- return response_type, response_payload
- async def created_report(self):
- pass
- async def poll(self):
- """
- Request the next available message from the Server. This coroutine is called automatically.
- """
- service = 'OadrPoll'
- message = self._create_message('oadrPoll', ven_id=self.ven_id)
- response_type, response_payload = await self._perform_request(service, message)
- return response_type, response_payload
- async def update_report(self, report_id, resource_id=None):
- """
- Calls the previously registered report callable, and send the result as a message to the VTN.
- """
- if not resource_id:
- resource_ids = self.reports[report_id]['report_descriptions'].keys()
- elif isinstance(resource_id, str):
- resource_ids = [resource_id]
- else:
- resource_ids = resource_id
- value = self.reports[report_id]['callable'](resource_id)
- if iscoroutine(value):
- value = await value
- report_type = self.reports[report_id][resource_id]['report_type']
- for measurand in MEASURAND:
- if measurand in self.reports[report_id][resource_id]:
- item_base = measurand
- break
- report = {'report_id': report_id,
- 'report_descriptions': {resource_id: {MEASURANDS[measurand]: {'quantity': value,
- measurand: self.reports[report_id][resource_id][measurand]},
- 'report_type': self.reports[report_id][resource_id]['report_type'],
- 'reading_type': self.reports[report_id][resource_id]['reading_type']}},
- 'report_name': self.report['report_id']['report_name'],
- 'report_request_id': self.reports['report_id']['report_request_id'],
- 'report_specifier_id': self.report['report_id']['report_specifier_id'],
- 'created_date_time': datetime.now(timezone.utc)}
- service = 'EiReport'
- message = self._create_message('oadrUpdateReport', report)
- response_type, response_payload = self._perform_request(service, message)
- if response_type is not None:
- # We might get a oadrCancelReport message in this thing:
- if 'cancel_report' in response_payload:
- print("TODO: cancel this report")
- async def _perform_request(self, service, message):
- if self.debug:
- print(f"Client is sending {message}")
- url = f"{self.vtn_url}/{service}"
- try:
- async with self.client_session.post(url, data=message) as req:
- if req.status != HTTPStatus.OK:
- warnings.warn(f"Non-OK status when performing a request to {url} with data {message}: {req.status}")
- return None, {}
- content = await req.read()
- if self.debug:
- print(content.decode('utf-8'))
- except:
- # Could not connect to server
- warnings.warn(f"Could not connect to server with URL {self.vtn_url}")
- return None, {}
- try:
- message_type, message_payload = self._parse_message(content)
- except Exception as err:
- warnings.warn(f"The incoming message could not be parsed or validated: {content}.")
- raise err
- return None, {}
- return message_type, message_payload
- async def _on_event(self, message):
- if self.debug:
- print("ON_EVENT")
- result = self.on_event(message)
- if iscoroutine(result):
- result = await result
- if self.debug:
- print(f"Now responding with {result}")
- request_id = message['request_id']
- event_id = message['events'][0]['event_descriptor']['event_id']
- await self.created_event(request_id, event_id, result)
- return
- async def _poll(self):
- print("Now polling")
- response_type, response_payload = await self.poll()
- if response_type is None:
- raise Exception("NO RESPONSE")
- return
- if response_type == 'oadrResponse':
- print("No events or reports available")
- return
- if response_type == 'oadrRequestReregistration':
- await self.create_party_registration()
- if response_type == 'oadrDistributeEvent':
- await self._on_event(response_payload)
- elif response_type == 'oadrUpdateReport':
- await self._on_report(response_payload)
- else:
- print(f"No handler implemented for message type {response_type}, ignoring.")
- # Immediately poll again, because there might be more messages
- await self._poll()
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