import uuid from datetime import datetime, timedelta from flask import current_app from sqlalchemy import and_, asc, desc, func from app import db from app.enums import JobStatus from app.models import ( FactNotificationStatus, Job, Notification, ServiceDataRetention, Template, ) from app.utils import midnight_n_days_ago def dao_get_notification_outcomes_for_job(service_id, job_id): notification_statuses = ( db.session.query( func.count(Notification.status).label("count"), Notification.status ) .filter(Notification.service_id == service_id, Notification.job_id == job_id) .group_by(Notification.status) .all() ) if not notification_statuses: notification_statuses = ( db.session.query( FactNotificationStatus.notification_count.label("count"), FactNotificationStatus.notification_status.label("status"), ) .filter( FactNotificationStatus.service_id == service_id, FactNotificationStatus.job_id == job_id, ) .all() ) return notification_statuses def dao_get_job_by_service_id_and_job_id(service_id, job_id): return Job.query.filter_by(service_id=service_id, id=job_id).one() def dao_get_unfinished_jobs(): return Job.query.filter(Job.processing_finished.is_(None)).all() def dao_get_jobs_by_service_id( service_id, *, limit_days=None, page=1, page_size=50, statuses=None, ): query_filter = [ Job.service_id == service_id, Job.original_file_name != current_app.config["TEST_MESSAGE_FILENAME"], Job.original_file_name != current_app.config["ONE_OFF_MESSAGE_FILENAME"], ] if limit_days is not None: query_filter.append(Job.created_at >= midnight_n_days_ago(limit_days)) if statuses is not None and statuses != [""]: query_filter.append(Job.job_status.in_(statuses)) return ( Job.query.filter(*query_filter) .order_by(Job.processing_started.desc(), Job.created_at.desc()) .paginate(page=page, per_page=page_size) ) def dao_get_scheduled_job_stats( service_id, ): return ( db.session.query( func.count(Job.id), func.min(Job.scheduled_for), ) .filter( Job.service_id == service_id, Job.job_status == JobStatus.SCHEDULED, ) .one() ) def dao_get_job_by_id(job_id): return Job.query.filter_by(id=job_id).one() def dao_archive_job(job): job.archived = True db.session.add(job) db.session.commit() def dao_set_scheduled_jobs_to_pending(): """ Sets all past scheduled jobs to pending, and then returns them for further processing. this is used in the run_scheduled_jobs task, so we put a FOR UPDATE lock on the job table for the duration of the transaction so that if the task is run more than once concurrently, one task will block the other select from completing until it commits. """ jobs = ( Job.query.filter( Job.job_status == JobStatus.SCHEDULED, Job.scheduled_for < datetime.utcnow(), ) .order_by(asc(Job.scheduled_for)) .with_for_update() .all() ) for job in jobs: job.job_status = JobStatus.PENDING db.session.add_all(jobs) db.session.commit() return jobs def dao_get_future_scheduled_job_by_id_and_service_id(job_id, service_id): return Job.query.filter( Job.service_id == service_id, Job.id == job_id, Job.job_status == JobStatus.SCHEDULED, Job.scheduled_for > datetime.utcnow(), ).one() def dao_create_job(job): if not job.id: job.id = uuid.uuid4() db.session.add(job) db.session.commit() def dao_update_job(job): db.session.add(job) db.session.commit() def dao_get_jobs_older_than_data_retention(notification_types): flexible_data_retention = ServiceDataRetention.query.filter( ServiceDataRetention.notification_type.in_(notification_types) ).all() jobs = [] today = datetime.utcnow().date() for f in flexible_data_retention: end_date = today - timedelta(days=f.days_of_retention) jobs.extend( Job.query.join(Template) .filter( func.coalesce(Job.scheduled_for, Job.created_at) < end_date, Job.archived == False, # noqa Template.template_type == f.notification_type, Job.service_id == f.service_id, ) .order_by(desc(Job.created_at)) .all() ) end_date = today - timedelta(days=7) for notification_type in notification_types: services_with_data_retention = [ x.service_id for x in flexible_data_retention if x.notification_type == notification_type ] jobs.extend( Job.query.join(Template) .filter( func.coalesce(Job.scheduled_for, Job.created_at) < end_date, Job.archived == False, # noqa Template.template_type == notification_type, Job.service_id.notin_(services_with_data_retention), ) .order_by(desc(Job.created_at)) .all() ) return jobs def find_jobs_with_missing_rows(): # Jobs can be a maximum of 100,000 rows. It typically takes 10 minutes to create all those notifications. # Using 20 minutes as a condition seems reasonable. ten_minutes_ago = datetime.utcnow() - timedelta(minutes=20) yesterday = datetime.utcnow() - timedelta(days=1) jobs_with_rows_missing = ( db.session.query(Job) .filter( Job.job_status == JobStatus.FINISHED, Job.processing_finished < ten_minutes_ago, Job.processing_finished > yesterday, Job.id == Notification.job_id, ) .group_by(Job) .having(func.count(Notification.id) != Job.notification_count) ) return jobs_with_rows_missing.all() def find_missing_row_for_job(job_id, job_size): expected_row_numbers = db.session.query( func.generate_series(0, job_size - 1).label("row") ).subquery() query = ( db.session.query( Notification.job_row_number, expected_row_numbers.c.row.label("missing_row") ) .outerjoin( Notification, and_( expected_row_numbers.c.row == Notification.job_row_number, Notification.job_id == job_id, ), ) .filter(Notification.job_row_number == None) # noqa ) return query.all()