from collections import Iterable from datetime import datetime, timedelta from typing import Set, Union from uuid import uuid4 from flask import current_app as app, g from sqlalchemy import BigInteger, Boolean, CheckConstraint, Column, DateTime, Enum as DBEnum, \ Float, ForeignKey, Interval, JSON, Numeric, SmallInteger, Unicode, event, orm from sqlalchemy.dialects.postgresql import UUID from sqlalchemy.ext.declarative import declared_attr from sqlalchemy.ext.orderinglist import ordering_list from sqlalchemy.orm import backref, relationship, validates from sqlalchemy.orm.events import AttributeEvents as Events from sqlalchemy.util import OrderedSet from ereuse_devicehub.db import db from ereuse_devicehub.resources.agent.models import Agent from ereuse_devicehub.resources.device.models import Component, Computer, DataStorage, Desktop, \ Device, Laptop, Server from ereuse_devicehub.resources.enums import AppearanceRange, BOX_RATE_3, BOX_RATE_5, Bios, \ FunctionalityRange, PriceSoftware, RATE_NEGATIVE, RATE_POSITIVE, RatingRange, RatingSoftware, \ ReceiverRole, SnapshotExpectedEvents, SnapshotSoftware, TestHardDriveLength from ereuse_devicehub.resources.image.models import Image from ereuse_devicehub.resources.models import STR_BIG_SIZE, STR_SIZE, STR_SM_SIZE, Thing from ereuse_devicehub.resources.user.models import User from teal.db import ArrayOfEnum, CASCADE, CASCADE_OWN, INHERIT_COND, IP, POLYMORPHIC_ID, \ POLYMORPHIC_ON, StrictVersionType, URL, check_range from teal.enums import Country, Currency, Subdivision from teal.marshmallow import ValidationError """ A quantity of money with a currency. """ class JoinedTableMixin: # noinspection PyMethodParameters @declared_attr def id(cls): return Column(UUID(as_uuid=True), ForeignKey(Event.id), primary_key=True) class Event(Thing): id = Column(UUID(as_uuid=True), primary_key=True, default=uuid4) type = Column(Unicode, nullable=False) name = Column(Unicode(STR_BIG_SIZE), default='', nullable=False) name.comment = """ A name or title for the event. Used when searching for events. """ incidence = Column(Boolean, default=False, nullable=False) incidence.comment = """ Should this event be reviewed due some anomaly? """ closed = Column(Boolean, default=True, nullable=False) closed.comment = """ Whether the author has finished the event. After this is set to True, no modifications are allowed. By default events are closed when performed. """ error = Column(Boolean, default=False, nullable=False) error.comment = """ Did the event fail? For example, a failure in ``Erase`` means that the data storage unit did not erase correctly. """ description = Column(Unicode, default='', nullable=False) description.comment = """ A comment about the event. """ start_time = Column(DateTime) start_time.comment = """ When the action starts. For some actions like reservations the time when they are available, for others like renting when the renting starts. """ end_time = Column(DateTime) end_time.comment = """ When the action ends. For some actions like reservations the time when they expire, for others like renting the time the end rents. For punctual actions it is the time they are performed; it differs with ``created`` in which created is the where the system received the action. """ snapshot_id = Column(UUID(as_uuid=True), ForeignKey('snapshot.id', use_alter=True, name='snapshot_events')) snapshot = relationship('Snapshot', backref=backref('events', lazy=True, cascade=CASCADE_OWN, collection_class=set), primaryjoin='Event.snapshot_id == Snapshot.id') author_id = Column(UUID(as_uuid=True), ForeignKey(User.id), nullable=False, default=lambda: g.user.id) # todo compute the org author = relationship(User, backref=backref('authored_events', lazy=True, collection_class=set), primaryjoin=author_id == User.id) """ The user that recorded this action in the system. This does not necessarily has to be the person that produced the action in the real world. For that purpose see ``agent``. """ agent_id = Column(UUID(as_uuid=True), ForeignKey(Agent.id), nullable=False, default=lambda: g.user.individual.id) # todo compute the org agent = relationship(Agent, backref=backref('events_agent', lazy=True, collection_class=OrderedSet, order_by=lambda: Event.created), primaryjoin=agent_id == Agent.id, ) agent_id.comment = """ The direct performer or driver of the action. e.g. John wrote a book. It can differ with the user that registered the action in the system, which can be in their behalf. """ components = relationship(Component, backref=backref('events_components', lazy=True, order_by=lambda: Event.created, collection_class=OrderedSet), secondary=lambda: EventComponent.__table__, order_by=lambda: Component.id, collection_class=OrderedSet) components.comment = """ The components that are affected by the event. When performing events to parent devices their components are affected too. For example: an ``Allocate`` is performed to a Computer and this relationship is filled with the components the computer had at the time of the event. For Add and Remove though, this has another meaning: the components that are added or removed. """ parent_id = Column(BigInteger, ForeignKey(Computer.id)) parent = relationship(Computer, backref=backref('events_parent', lazy=True, order_by=lambda: Event.created, collection_class=OrderedSet), primaryjoin=parent_id == Computer.id) parent_id.comment = """ For events that are performed to components, the device parent at that time. For example: for a ``EraseBasic`` performed on a data storage, this would point to the computer that contained this data storage, if any. """ # noinspection PyMethodParameters @declared_attr def __mapper_args__(cls): """ Defines inheritance. From `the guide `_ """ args = {POLYMORPHIC_ID: cls.t} if cls.t == 'Event': args[POLYMORPHIC_ON] = cls.type if JoinedTableMixin in cls.mro(): args[INHERIT_COND] = cls.id == Event.id return args @validates('end_time') def validate_end_time(self, _, end_time: datetime): if self.start_time and end_time <= self.start_time: raise ValidationError('The event cannot finish before it starts.') return end_time @validates('start_time') def validate_start_time(self, _, start_time: datetime): if self.end_time and start_time >= self.end_time: raise ValidationError('The event cannot start after it finished.') return start_time class EventComponent(db.Model): device_id = Column(BigInteger, ForeignKey(Component.id), primary_key=True) event_id = Column(UUID(as_uuid=True), ForeignKey(Event.id), primary_key=True) class JoinedWithOneDeviceMixin: # noinspection PyMethodParameters @declared_attr def id(cls): return Column(UUID(as_uuid=True), ForeignKey(EventWithOneDevice.id), primary_key=True) class EventWithOneDevice(JoinedTableMixin, Event): device_id = Column(BigInteger, ForeignKey(Device.id), nullable=False) device = relationship(Device, backref=backref('events_one', lazy=True, cascade=CASCADE, order_by=lambda: EventWithOneDevice.created, collection_class=OrderedSet), primaryjoin=Device.id == device_id) def __repr__(self) -> str: return '<{0.t} {0.id!r} device={0.device!r}>'.format(self) class EventWithMultipleDevices(Event): devices = relationship(Device, backref=backref('events_multiple', lazy=True, order_by=lambda: EventWithMultipleDevices.created, collection_class=OrderedSet), secondary=lambda: EventDevice.__table__, order_by=lambda: Device.id, collection_class=OrderedSet) def __repr__(self) -> str: return '<{0.t} {0.id!r} devices={0.devices!r}>'.format(self) class EventDevice(db.Model): device_id = Column(BigInteger, ForeignKey(Device.id), primary_key=True) event_id = Column(UUID(as_uuid=True), ForeignKey(EventWithMultipleDevices.id), primary_key=True) class Add(EventWithOneDevice): pass class Remove(EventWithOneDevice): pass class Allocate(JoinedTableMixin, EventWithMultipleDevices): to_id = Column(UUID, ForeignKey(User.id)) to = relationship(User, primaryjoin=User.id == to_id) organization = Column(Unicode(STR_SIZE)) class Deallocate(JoinedTableMixin, EventWithMultipleDevices): from_id = Column(UUID, ForeignKey(User.id)) from_rel = relationship(User, primaryjoin=User.id == from_id) organization = Column(Unicode(STR_SIZE)) class EraseBasic(JoinedWithOneDeviceMixin, EventWithOneDevice): zeros = Column(Boolean, nullable=False) zeros.comment = """ Whether this erasure had a first erasure step consisting of only writing zeros. """ class EraseSectors(EraseBasic): pass class Step(db.Model): erasure_id = Column(UUID(as_uuid=True), ForeignKey(EraseBasic.id), primary_key=True) type = Column(Unicode(STR_SM_SIZE), nullable=False) num = Column(SmallInteger, primary_key=True) error = Column(Boolean, default=False, nullable=False) start_time = Column(DateTime, nullable=False) start_time.comment = Event.start_time.comment end_time = Column(DateTime, CheckConstraint('end_time > start_time'), nullable=False) end_time.comment = Event.end_time.comment erasure = relationship(EraseBasic, backref=backref('steps', cascade=CASCADE_OWN, order_by=num, collection_class=ordering_list('num'))) # noinspection PyMethodParameters @declared_attr def __mapper_args__(cls): """ Defines inheritance. From `the guide `_ """ args = {POLYMORPHIC_ID: cls.t} if cls.t == 'Step': args[POLYMORPHIC_ON] = cls.type return args class StepZero(Step): pass class StepRandom(Step): pass class Snapshot(JoinedWithOneDeviceMixin, EventWithOneDevice): uuid = Column(UUID(as_uuid=True), unique=True) version = Column(StrictVersionType(STR_SM_SIZE), nullable=False) software = Column(DBEnum(SnapshotSoftware), nullable=False) elapsed = Column(Interval) elapsed.comment = """ For Snapshots made with Workbench, the total amount of time it took to complete. """ expected_events = Column(ArrayOfEnum(DBEnum(SnapshotExpectedEvents))) class Install(JoinedWithOneDeviceMixin, EventWithOneDevice): elapsed = Column(Interval, nullable=False) class SnapshotRequest(db.Model): id = Column(UUID(as_uuid=True), ForeignKey(Snapshot.id), primary_key=True) request = Column(JSON, nullable=False) snapshot = relationship(Snapshot, backref=backref('request', lazy=True, uselist=False, cascade=CASCADE_OWN)) class Rate(JoinedWithOneDeviceMixin, EventWithOneDevice): rating = Column(Float(decimal_return_scale=2), check_range('rating', *RATE_POSITIVE)) software = Column(DBEnum(RatingSoftware)) version = Column(StrictVersionType) appearance = Column(Float(decimal_return_scale=2), check_range('appearance', *RATE_NEGATIVE)) functionality = Column(Float(decimal_return_scale=2), check_range('functionality', *RATE_NEGATIVE)) @property def rating_range(self) -> RatingRange: return RatingRange.from_score(self.rating) @declared_attr def __mapper_args__(cls): """ Defines inheritance. From `the guide `_ """ args = {POLYMORPHIC_ID: cls.t} if cls.t == 'Rate': args[POLYMORPHIC_ON] = cls.type return args class IndividualRate(Rate): pass class AggregateRate(Rate): id = Column(UUID(as_uuid=True), ForeignKey(Rate.id), primary_key=True) ratings = relationship(IndividualRate, backref=backref('aggregated_ratings', lazy=True, order_by=lambda: IndividualRate.created, collection_class=OrderedSet), secondary=lambda: RateAggregateRate.__table__, order_by=lambda: IndividualRate.created, collection_class=OrderedSet) """The ratings this aggregateRate aggregates.""" class RateAggregateRate(db.Model): """ Represents the ``many to many`` relationship between ``Rate`` and ``AggregateRate``. """ rate_id = Column(UUID(as_uuid=True), ForeignKey(Rate.id), primary_key=True) aggregate_rate_id = Column(UUID(as_uuid=True), ForeignKey(AggregateRate.id), primary_key=True) class ManualRate(IndividualRate): id = Column(UUID(as_uuid=True), ForeignKey(Rate.id), primary_key=True) labelling = Column(Boolean) appearance_range = Column(DBEnum(AppearanceRange)) functionality_range = Column(DBEnum(FunctionalityRange)) class WorkbenchRate(ManualRate): id = Column(UUID(as_uuid=True), ForeignKey(ManualRate.id), primary_key=True) processor = Column(Float(decimal_return_scale=2), check_range('processor', *RATE_POSITIVE)) ram = Column(Float(decimal_return_scale=2), check_range('ram', *RATE_POSITIVE)) data_storage = Column(Float(decimal_return_scale=2), check_range('data_storage', *RATE_POSITIVE)) graphic_card = Column(Float(decimal_return_scale=2), check_range('graphic_card', *RATE_POSITIVE)) bios = Column(DBEnum(Bios)) # todo ensure for WorkbenchRate version and software are not None when inserting them def ratings(self) -> Set['WorkbenchRate']: """ Computes all the possible rates taking this rating as a model. Returns a set of ratings, including this one, which is mutated. """ from ereuse_rate.main import main return main(self, **app.config.get_namespace('WORKBENCH_RATE_')) class AppRate(ManualRate): pass class PhotoboxRate(IndividualRate): id = Column(UUID(as_uuid=True), ForeignKey(Rate.id), primary_key=True) image_id = Column(UUID(as_uuid=True), ForeignKey(Image.id), nullable=False) image = relationship(Image, uselist=False, cascade=CASCADE_OWN, single_parent=True, primaryjoin=Image.id == image_id) # todo how to ensure phtoboxrate.device == image.image_list.device? class PhotoboxUserRate(PhotoboxRate): id = Column(UUID(as_uuid=True), ForeignKey(PhotoboxRate.id), primary_key=True) assembling = Column(SmallInteger, check_range('assembling', *BOX_RATE_5), nullable=False) parts = Column(SmallInteger, check_range('parts', *BOX_RATE_5), nullable=False) buttons = Column(SmallInteger, check_range('buttons', *BOX_RATE_5), nullable=False) dents = Column(SmallInteger, check_range('dents', *BOX_RATE_5), nullable=False) decolorization = Column(SmallInteger, check_range('decolorization', *BOX_RATE_5), nullable=False) scratches = Column(SmallInteger, check_range('scratches', *BOX_RATE_5), nullable=False) tag_alignment = Column(SmallInteger, check_range('tag_alignment', *BOX_RATE_3), nullable=False) tag_adhesive = Column(SmallInteger, check_range('tag_adhesive', *BOX_RATE_3), nullable=False) dirt = Column(SmallInteger, check_range('dirt', *BOX_RATE_3), nullable=False) class PhotoboxSystemRate(PhotoboxRate): id = Column(UUID(as_uuid=True), ForeignKey(PhotoboxRate.id), primary_key=True) class Price(JoinedWithOneDeviceMixin, EventWithOneDevice): currency = Column(DBEnum(Currency), nullable=False) price = Column(Numeric(precision=19, scale=4), check_range('price', 0), nullable=False) software = Column(DBEnum(PriceSoftware)) version = Column(StrictVersionType) rating_id = Column(UUID(as_uuid=True), ForeignKey(AggregateRate.id)) rating = relationship(AggregateRate, backref=backref('price', lazy=True, cascade=CASCADE_OWN, uselist=False), primaryjoin=AggregateRate.id == rating_id) def __init__(self, **kwargs) -> None: super().__init__(**kwargs) self.currency = self.currency or app.config['PRICE_CURRENCY'] class EreusePrice(Price): """A Price class that auto-computes its amount by""" MULTIPLIER = { Desktop: 20, Laptop: 30 } class Type: def __init__(self, percentage, price) -> None: # see https://stackoverflow.com/a/29651462 for the - 0.005 self.amount = round(price * percentage - 0.005, 2) self.percentage = round(percentage - 0.005, 2) class Service: REFURBISHER, PLATFORM, RETAILER = 0, 1, 2 STANDARD, WARRANTY2 = 'STD', 'WR2' SCHEMA = { Desktop: { RatingRange.HIGH: { STANDARD: (0.35125, 0.204375, 0.444375), WARRANTY2: (0.47425, 0.275875, 0.599875) }, RatingRange.MEDIUM: { STANDARD: (0.385, 0.2558333333, 0.3591666667), WARRANTY2: (0.539, 0.3581666667, 0.5028333333) }, RatingRange.LOW: { STANDARD: (0.5025, 0.30875, 0.18875), }, }, Laptop: { RatingRange.HIGH: { STANDARD: (0.3469230769, 0.195, 0.4580769231), WARRANTY2: (0.4522307692, 0.2632307692, 0.6345384615) }, RatingRange.MEDIUM: { STANDARD: (0.382, 0.1735, 0.4445), WARRANTY2: (0.5108, 0.2429, 0.6463) }, RatingRange.LOW: { STANDARD: (0.4528571429, 0.2264285714, 0.3207142857), } } } SCHEMA[Server] = SCHEMA[Desktop] def __init__(self, device, rating_range, role, price) -> None: cls = device.__class__ if device.__class__ != Server else Desktop rate = self.SCHEMA[cls][rating_range] self.standard = EreusePrice.Type(rate['STD'][role], price) self.warranty2 = EreusePrice.Type(rate['WR2'][role], price) def __init__(self, rating: AggregateRate, **kwargs) -> None: if rating.rating_range == RatingRange.VERY_LOW: raise ValueError('Cannot compute price for Range.VERY_LOW') self.price = round(rating.rating * self.MULTIPLIER[rating.device.__class__], 2) super().__init__(rating=rating, device=rating.device, **kwargs) self._compute() self.software = self.software or app.config['PRICE_SOFTWARE'] self.version = self.version or app.config['PRICE_VERSION'] @orm.reconstructor def _compute(self): """ Calculates eReuse.org prices when initializing the instance from the price and other properties. """ self.refurbisher = self._service(self.Service.REFURBISHER) self.retailer = self._service(self.Service.RETAILER) self.platform = self._service(self.Service.PLATFORM) self.warranty2 = round(self.refurbisher.warranty2.amount + self.retailer.warranty2.amount + self.platform.warranty2.amount, 2) def _service(self, role): return self.Service(self.device, self.rating.rating_range, role, self.price) class Test(JoinedWithOneDeviceMixin, EventWithOneDevice): elapsed = Column(Interval, nullable=False) @declared_attr def __mapper_args__(cls): """ Defines inheritance. From `the guide `_ """ args = {POLYMORPHIC_ID: cls.t} if cls.t == 'Test': args[POLYMORPHIC_ON] = cls.type return args class TestDataStorage(Test): id = Column(UUID(as_uuid=True), ForeignKey(Test.id), primary_key=True) length = Column(DBEnum(TestHardDriveLength), nullable=False) # todo from type status = Column(Unicode(STR_SIZE), nullable=False) lifetime = Column(Interval) assessment = Column(Boolean) reallocated_sector_count = Column(SmallInteger) power_cycle_count = Column(SmallInteger) reported_uncorrectable_errors = Column(SmallInteger) command_timeout = Column(SmallInteger) current_pending_sector_count = Column(SmallInteger) offline_uncorrectable = Column(SmallInteger) remaining_lifetime_percentage = Column(SmallInteger) # todo remove lifetime / passed_lifetime as I think they are the same class StressTest(Test): pass @validates('elapsed') def is_minute_and_bigger_than_1_minute(self, _, value: timedelta): seconds = value.total_seconds() assert not bool(seconds % 60) assert seconds >= 60 return value class Benchmark(JoinedWithOneDeviceMixin, EventWithOneDevice): elapsed = Column(Interval) @declared_attr def __mapper_args__(cls): """ Defines inheritance. From `the guide `_ """ args = {POLYMORPHIC_ID: cls.t} if cls.t == 'Benchmark': args[POLYMORPHIC_ON] = cls.type return args class BenchmarkDataStorage(Benchmark): id = Column(UUID(as_uuid=True), ForeignKey(Benchmark.id), primary_key=True) read_speed = Column(Float(decimal_return_scale=2), nullable=False) write_speed = Column(Float(decimal_return_scale=2), nullable=False) class BenchmarkWithRate(Benchmark): id = Column(UUID(as_uuid=True), ForeignKey(Benchmark.id), primary_key=True) rate = Column(SmallInteger, nullable=False) class BenchmarkProcessor(BenchmarkWithRate): pass class BenchmarkProcessorSysbench(BenchmarkProcessor): pass class BenchmarkRamSysbench(BenchmarkWithRate): pass class ToRepair(EventWithMultipleDevices): pass class Repair(EventWithMultipleDevices): pass class ReadyToUse(EventWithMultipleDevices): pass class ToPrepare(EventWithMultipleDevices): pass class Prepare(EventWithMultipleDevices): pass class Live(JoinedWithOneDeviceMixin, EventWithOneDevice): ip = Column(IP, nullable=False, comment='The IP where the live was triggered.') subdivision_confidence = Column(SmallInteger, check_range('subdivision_confidence', 0, 100), nullable=False) subdivision = Column(DBEnum(Subdivision), nullable=False) city = Column(Unicode(STR_SM_SIZE), nullable=False) city_confidence = Column(SmallInteger, check_range('city_confidence', 0, 100), nullable=False) isp = Column(Unicode(length=STR_SM_SIZE), nullable=False) organization = Column(Unicode(length=STR_SIZE)) organization_type = Column(Unicode(length=STR_SM_SIZE)) @property def country(self) -> Country: return self.subdivision.country # todo relate to snapshot # todo testing class Organize(JoinedTableMixin, EventWithMultipleDevices): pass class Reserve(Organize): pass class CancelReservation(Organize): pass class Trade(JoinedTableMixin, EventWithMultipleDevices): shipping_date = Column(DateTime) shipping_date.comment = """ When are the devices going to be ready for shipping? """ invoice_number = Column(Unicode(length=STR_SIZE)) invoice_number.comment = """ The id of the invoice so they can be linked. """ price_id = Column(UUID(as_uuid=True), ForeignKey(Price.id)) price = relationship(Price, backref=backref('trade', lazy=True, uselist=False), primaryjoin=price_id == Price.id) price_id.comment = """ The price set for this trade. If no price is set it is supposed that the trade was not payed, usual in donations. """ to_id = Column(UUID(as_uuid=True), ForeignKey(Agent.id), nullable=False, default=lambda: g.user.id) # todo compute the org to = relationship(Agent, backref=backref('events_to', lazy=True, collection_class=OrderedSet, order_by=lambda: Event.created), primaryjoin=to_id == Agent.id) confirms_id = Column(UUID(as_uuid=True), ForeignKey(Organize.id)) confirms = relationship(Organize, backref=backref('confirmation', lazy=True, uselist=False), primaryjoin=confirms_id == Organize.id) confirms_id.comment = """ An organize action that this association confirms. For example, a ``Sell`` or ``Rent`` can confirm a ``Reserve`` action. """ class Sell(Trade): pass class Donate(Trade): pass class Rent(Trade): pass class CancelTrade(Trade): pass class ToDisposeProduct(Trade): pass class DisposeProduct(Trade): pass class Receive(JoinedTableMixin, EventWithMultipleDevices): role = Column(DBEnum(ReceiverRole), nullable=False, default=ReceiverRole.Intermediary) class Migrate(JoinedTableMixin, EventWithMultipleDevices): other = Column(URL(), nullable=False) other.comment = """ The URL of the Migrate in the other end. """ class MigrateTo(Migrate): pass class MigrateFrom(Migrate): pass # Listeners # Listeners validate values and keep relationships synced # The following listeners avoids setting values to events that # do not make sense. For example, EraseBasic to a graphic card. @event.listens_for(TestDataStorage.device, Events.set.__name__, propagate=True) @event.listens_for(Install.device, Events.set.__name__, propagate=True) @event.listens_for(EraseBasic.device, Events.set.__name__, propagate=True) def validate_device_is_data_storage(target: Event, value: DataStorage, old_value, initiator): """Validates that the device for data-storage events is effectively a data storage.""" if value and not isinstance(value, DataStorage): raise TypeError('{} must be a DataStorage but you passed {}'.format(initiator.impl, value)) @event.listens_for(BenchmarkRamSysbench.device, Events.set.__name__, propagate=True) def events_not_for_components(target: Event, value: Device, old_value, initiator): """Validates events that cannot be performed to components.""" if isinstance(value, Component): raise TypeError('{!r} cannot be performed to a component ({!r}).'.format(target, value)) # The following listeners keep relationships with device <-> components synced with the event # So, if you add or remove devices from events these listeners will # automatically add/remove the ``components`` and ``parent`` of such events # See the tests for examples @event.listens_for(EventWithOneDevice.device, Events.set.__name__, propagate=True) def update_components_event_one(target: EventWithOneDevice, device: Device, __, ___): """ Syncs the :attr:`.Event.components` with the components in :attr:`ereuse_devicehub.resources.device.models.Computer.components`. """ # For Add and Remove, ``components`` have different meanings # see Event.components for more info if not isinstance(target, (Add, Remove)): target.components.clear() if isinstance(device, Computer): target.components |= device.components @event.listens_for(EventWithMultipleDevices.devices, Events.init_collection.__name__, propagate=True) @event.listens_for(EventWithMultipleDevices.devices, Events.bulk_replace.__name__, propagate=True) @event.listens_for(EventWithMultipleDevices.devices, Events.append.__name__, propagate=True) def update_components_event_multiple(target: EventWithMultipleDevices, value: Union[Set[Device], Device], _): """ Syncs the :attr:`.Event.components` with the components in :attr:`ereuse_devicehub.resources.device.models.Computer.components`. """ target.components.clear() devices = value if isinstance(value, Iterable) else {value} for device in devices: if isinstance(device, Computer): target.components |= device.components @event.listens_for(EventWithMultipleDevices.devices, Events.remove.__name__, propagate=True) def remove_components_event_multiple(target: EventWithMultipleDevices, device: Device, __): """ Syncs the :attr:`.Event.components` with the components in :attr:`ereuse_devicehub.resources.device.models.Computer.components`. """ target.components.clear() for device in target.devices - {device}: if isinstance(device, Computer): target.components |= device.components @event.listens_for(EraseBasic.device, Events.set.__name__, propagate=True) @event.listens_for(Test.device, Events.set.__name__, propagate=True) @event.listens_for(Install.device, Events.set.__name__, propagate=True) @event.listens_for(Benchmark.device, Events.set.__name__, propagate=True) def update_parent(target: Union[EraseBasic, Test, Install], device: Device, _, __): """ Syncs the :attr:`Event.parent` with the parent of the device. """ target.parent = None if isinstance(device, Component): target.parent = device.parent