123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147 |
- # 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 datetime import datetime, timedelta, timezone
- from dataclasses import asdict, is_dataclass
- from openleadr import enums, utils
- import logging
- logger = logging.getLogger('openleadr')
- def preflight_message(message_type, message_payload):
- """
- Tests message contents before sending them. It will correct benign errors
- and warn you about them. Uncorrectable errors will raise an Exception. It
- changes the message_payload dict in-place.
- :param message_type string: The type of message you are sending
- :param message_payload dict: The contents of the message
- """
- if f'_preflight_{message_type}' in globals():
- message_payload = message_payload.copy()
- for key, value in message_payload.items():
- if isinstance(value, list):
- message_payload[key] = [asdict(item) if is_dataclass(item) else item
- for item in value]
- else:
- message_payload[key] = asdict(value) if is_dataclass(value) else value
- globals()[f'_preflight_{message_type}'](message_payload)
- return message_payload
- def _preflight_oadrRegisterReport(message_payload):
- for report in message_payload['reports']:
- # Check that the report name is preceded by METADATA_ when registering reports
- if report['report_name'] in enums.REPORT_NAME.values \
- and not report['report_name'].startswith("METADATA"):
- report['report_name'] = 'METADATA_' + report['report_name']
- # Check that the measurement name and description match according to the schema
- for report_description in report['report_descriptions']:
- if 'measurement' in report_description and report_description['measurement'] is not None:
- utils.validate_report_measurement_dict(report_description['measurement'])
- # Add the correct namespace to the measurement
- for report_description in report['report_descriptions']:
- if 'measurement' in report_description and report_description['measurement'] is not None:
- if report_description['measurement']['name'] in enums._MEASUREMENT_NAMESPACES:
- measurement_name = report_description['measurement']['name']
- measurement_ns = enums._MEASUREMENT_NAMESPACES[measurement_name]
- report_description['measurement']['ns'] = measurement_ns
- else:
- raise ValueError("The Measurement Name is unknown")
- def _preflight_oadrDistributeEvent(message_payload):
- if 'parse_duration' not in globals():
- from .utils import parse_duration
- # Check that the total event_duration matches the sum of the interval durations (rule 8)
- for event in message_payload['events']:
- active_period_duration = event['active_period']['duration']
- signal_durations = []
- for signal in event['event_signals']:
- signal_durations.append(sum([parse_duration(i['duration'])
- for i in signal['intervals']], timedelta(seconds=0)))
- if not all([d == active_period_duration for d in signal_durations]):
- if not all([d == signal_durations[0] for d in signal_durations]):
- raise ValueError("The different EventSignals have different total durations. "
- "Please correct this.")
- else:
- logger.warning(f"The active_period duration for event "
- f"{event['event_descriptor']['event_id']} ({active_period_duration})"
- f" differs from the sum of the interval's durations "
- f"({signal_durations[0]}). The active_period duration has been "
- f"adjusted to ({signal_durations[0]}).")
- event['active_period']['duration'] = signal_durations[0]
- # Check that payload values with signal name SIMPLE are constricted (rule 9)
- for event in message_payload['events']:
- for event_signal in event['event_signals']:
- if event_signal['signal_name'] == "SIMPLE":
- for interval in event_signal['intervals']:
- if interval['signal_payload'] not in (0, 1, 2, 3):
- raise ValueError("Payload Values used with Signal Name SIMPLE "
- "must be one of 0, 1, 2 or 3")
- # Check that the current_value is 0 for SIMPLE events that are not yet active (rule 14)
- for event in message_payload['events']:
- for event_signal in event['event_signals']:
- if 'current_value' in event_signal and event_signal['current_value'] != 0:
- if event_signal['signal_name'] == "SIMPLE" \
- and event['event_descriptor']['event_status'] != "ACTIVE":
- logger.warning("The current_value for a SIMPLE event "
- "that is not yet active must be 0. "
- "This will be corrected.")
- event_signal['current_value'] = 0
- # Add the correct namespace to the measurement
- for event in message_payload['events']:
- for event_signal in event['event_signals']:
- if 'measurement' in event_signal and event_signal['measurement'] is not None:
- if event_signal['measurement']['name'] in enums._MEASUREMENT_NAMESPACES:
- measurement_name = event_signal['measurement']['name']
- measurement_ns = enums._MEASUREMENT_NAMESPACES[measurement_name]
- event_signal['measurement']['ns'] = measurement_ns
- else:
- raise ValueError("The Measurement Name is unknown")
- # Check that there is a valid oadrResponseRequired value for each Event
- for event in message_payload['events']:
- if 'response_required' not in event:
- event['response_required'] = 'always'
- elif event['response_required'] not in ('never', 'always'):
- logger.warning(f"The response_required property in an Event "
- f"should be 'never' or 'always', not "
- f"{event['response_required']}. Changing to 'always'.")
- event['response_required'] = 'always'
- # Check that there is a valid oadrResponseRequired value for each Event
- for event in message_payload['events']:
- if 'created_date_time' not in event['event_descriptor'] \
- or not event['event_descriptor']['created_date_time']:
- event['event_descriptor']['created_date_time'] = datetime.now(timezone.utc)
- # Check that the target designations are correct and consistent
- for event in message_payload['events']:
- if 'targets' in event and 'targets_by_type' in event:
- if utils.group_targets_by_type(event['targets']) != event['targets_by_type']:
- raise ValueError("You assigned both 'targets' and 'targets_by_type' in your event, "
- "but the two were not consistent with each other. "
- f"You supplied 'targets' = {event['targets']} and "
- f"'targets_by_type' = {event['targets_by_type']}")
- elif 'targets_by_type' in event and 'targets' not in event:
- event['targets'] = utils.ungroup_targets_by_type(event['targets_by_type'])
|