from uuid import uuid4 from flask import g from sqlalchemy import BigInteger, Boolean, CheckConstraint, Column, DateTime, Enum as DBEnum, \ Float, ForeignKey, Interval, JSON, SmallInteger, Unicode, event 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 from sqlalchemy.util import OrderedSet from ereuse_devicehub.db import db from ereuse_devicehub.resources.device.models import Component, DataStorage, Device from ereuse_devicehub.resources.enums import AppearanceRange, BOX_RATE_3, BOX_RATE_5, Bios, \ FunctionalityRange, RATE_NEGATIVE, RATE_POSITIVE, RatingRange, RatingSoftware, \ 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, POLYMORPHIC_ID, \ POLYMORPHIC_ON, StrictVersionType, check_range 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) name = Column(Unicode(STR_BIG_SIZE), default='', nullable=False) name.comment = """ A name or title for the event. Used when searching for events. """ type = Column(Unicode) 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. """ 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. """ date = Column(DateTime) date.comment = """ When this event happened. Leave it blank if it is happening now (the field ``created`` is used instead). This is used for example when creating events retroactively. """ 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) author = relationship(User, backref=backref('events', lazy=True, collection_class=set), primaryjoin=author_id == User.id) 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) """ 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. """ # 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 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 EventWithOneDevice(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_id}>'.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) 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(JoinedTableMixin, EventWithOneDevice): start_time = Column(DateTime, nullable=False) end_time = Column(DateTime, CheckConstraint('end_time > start_time'), nullable=False) secure_random_steps = Column(SmallInteger, check_range('secure_random_steps', min=0), nullable=False) clean_with_zeros = Column(Boolean, nullable=False) 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) end_time = Column(DateTime, CheckConstraint('end_time > start_time'), nullable=False) secure_random_steps = Column(SmallInteger, check_range('secure_random_steps', min=0), nullable=False) clean_with_zeros = Column(Boolean, nullable=False) 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(JoinedTableMixin, EventWithOneDevice): uuid = Column(UUID(as_uuid=True), nullable=False, unique=True) version = Column(StrictVersionType(STR_SM_SIZE), nullable=False) software = Column(DBEnum(SnapshotSoftware), nullable=False) elapsed = Column(Interval, nullable=False) expected_events = Column(ArrayOfEnum(DBEnum(SnapshotExpectedEvents))) class Install(JoinedTableMixin, EventWithOneDevice): name = Column(Unicode(STR_BIG_SIZE), nullable=False) 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(JoinedTableMixin, EventWithOneDevice): rating = Column(Float(decimal_return_scale=2), check_range('rating', *RATE_POSITIVE)) algorithm_software = Column(DBEnum(RatingSoftware), nullable=False) algorithm_version = Column(StrictVersionType, nullable=False) 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) 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 WorkbenchRate(IndividualRate): id = Column(UUID(as_uuid=True), ForeignKey(Rate.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)) labelling = Column(Boolean) bios = Column(DBEnum(Bios)) appearance_range = Column(DBEnum(AppearanceRange)) functionality_range = Column(DBEnum(FunctionalityRange)) 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 Test(JoinedTableMixin, EventWithOneDevice): elapsed = Column(Interval, nullable=False) 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, nullable=False) first_error = Column(SmallInteger, nullable=False, default=0) passed_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 class Benchmark(EventWithOneDevice): pass class BenchmarkDataStorage(Benchmark): readSpeed = Column(Float(decimal_return_scale=2), nullable=False) writeSpeed = Column(Float(decimal_return_scale=2), nullable=False) class BenchmarkWithRate(Benchmark): rate = Column(SmallInteger, nullable=False) class BenchmarkProcessor(BenchmarkWithRate): pass class BenchmarkProcessorSysbench(BenchmarkProcessor): pass class BenchmarkRamSysbench(BenchmarkWithRate): pass # Listeners @event.listens_for(TestDataStorage.device, 'set', retval=True, propagate=True) @event.listens_for(Install.device, 'set', retval=True, propagate=True) @event.listens_for(EraseBasic.device, 'set', retval=True, propagate=True) def validate_device_is_data_storage(target, value, old_value, initiator): if not isinstance(value, DataStorage): raise TypeError('{} must be a DataStorage but you passed {}'.format(initiator.impl, value)) return value # todo finish adding events # @event.listens_for(Install.snapshot, 'before_insert', propagate=True) # def validate_required_snapshot(mapper, connection, target: Event): # if not target.snapshot: # raise ValidationError('{0!r} must be linked to a Snapshot.'.format(target))