import copy from datetime import datetime, timedelta from dateutil.tz import tzutc from flask import current_app as app, g from marshmallow import Schema as MarshmallowSchema, ValidationError, fields as f, validates_schema, pre_load, post_load from marshmallow.fields import Boolean, DateTime, Decimal, Float, Integer, Nested, String, \ TimeDelta, UUID from marshmallow.validate import Length, OneOf, Range from sqlalchemy.util import OrderedSet from teal.enums import Country, Currency, Subdivision from teal.marshmallow import EnumField, IP, SanitizedStr, URL, Version from teal.resource import Schema from ereuse_devicehub.marshmallow import NestedOn from ereuse_devicehub.resources import enums from ereuse_devicehub.resources.action import models as m from ereuse_devicehub.resources.agent import schemas as s_agent from ereuse_devicehub.resources.device import schemas as s_device from ereuse_devicehub.resources.tradedocument import schemas as s_document from ereuse_devicehub.resources.documents import schemas as s_generic_document from ereuse_devicehub.resources.enums import AppearanceRange, BiosAccessRange, FunctionalityRange, \ PhysicalErasureMethod, R_POSITIVE, RatingRange, \ Severity, SnapshotSoftware, TestDataStorageLength from ereuse_devicehub.resources.models import STR_BIG_SIZE, STR_SIZE from ereuse_devicehub.resources.schemas import Thing from ereuse_devicehub.resources.user import schemas as s_user from ereuse_devicehub.resources.user.models import User from ereuse_devicehub.resources.tradedocument.models import TradeDocument class Action(Thing): __doc__ = m.Action.__doc__ id = UUID(dump_only=True) name = SanitizedStr(default='', validate=Length(max=STR_BIG_SIZE), description=m.Action.name.comment) closed = Boolean(missing=True, description=m.Action.closed.comment) severity = EnumField(Severity, description=m.Action.severity.comment) description = SanitizedStr(default='', description=m.Action.description.comment) start_time = DateTime(data_key='startTime', description=m.Action.start_time.comment) end_time = DateTime(data_key='endTime', description=m.Action.end_time.comment) snapshot = NestedOn('Snapshot', dump_only=True) agent = NestedOn(s_agent.Agent, description=m.Action.agent_id.comment) author = NestedOn(s_user.User, dump_only=True, exclude=('token',)) components = NestedOn(s_device.Component, dump_only=True, many=True) parent = NestedOn(s_device.Computer, dump_only=True, description=m.Action.parent_id.comment) url = URL(dump_only=True, description=m.Action.url.__doc__) @validates_schema def validate_times(self, data: dict): unix_time = datetime.fromisoformat("1970-01-02 00:00:00+00:00") if 'end_time' in data and data['end_time'] < unix_time: data['end_time'] = unix_time if 'start_time' in data and data['start_time'] < unix_time: data['start_time'] = unix_time class ActionWithOneDevice(Action): __doc__ = m.ActionWithOneDevice.__doc__ device = NestedOn(s_device.Device, only_query='id') class ActionWithMultipleDocuments(Action): __doc__ = m.ActionWithMultipleTradeDocuments.__doc__ documents = NestedOn(s_document.TradeDocument, many=True, required=True, # todo test ensuring len(devices) >= 1 only_query='id', collection_class=OrderedSet) class ActionWithMultipleDevices(Action): __doc__ = m.ActionWithMultipleDevices.__doc__ devices = NestedOn(s_device.Device, many=True, required=True, # todo test ensuring len(devices) >= 1 only_query='id', collection_class=OrderedSet) class Add(ActionWithOneDevice): __doc__ = m.Add.__doc__ class Remove(ActionWithOneDevice): __doc__ = m.Remove.__doc__ class Allocate(ActionWithMultipleDevices): __doc__ = m.Allocate.__doc__ start_time = DateTime(data_key='startTime', required=True, description=m.Action.start_time.comment) end_time = DateTime(data_key='endTime', required=False, description=m.Action.end_time.comment) final_user_code = SanitizedStr(data_key="finalUserCode", validate=Length(min=1, max=STR_BIG_SIZE), required=False, description='This is a internal code for mainteing the secrets of the \ personal datas of the new holder') transaction = SanitizedStr(validate=Length(min=1, max=STR_BIG_SIZE), required=False, description='The code used from the owner for \ relation with external tool.') end_users = Integer(data_key='endUsers', validate=[Range(min=1, error="Value must be greater than 0")]) @validates_schema def validate_allocate(self, data: dict): txt = "You need to allocate for a day before today" delay = timedelta(days=1) today = datetime.now().replace(tzinfo=tzutc()) + delay start_time = data['start_time'].replace(tzinfo=tzutc()) if start_time > today: raise ValidationError(txt) txt = "You need deallocate before allocate this device again" for device in data['devices']: if device.allocated: raise ValidationError(txt) device.allocated = True class Deallocate(ActionWithMultipleDevices): __doc__ = m.Deallocate.__doc__ start_time = DateTime(data_key='startTime', required=True, description=m.Action.start_time.comment) transaction = SanitizedStr(validate=Length(min=1, max=STR_BIG_SIZE), required=False, description='The code used from the owner for \ relation with external tool.') @validates_schema def validate_deallocate(self, data: dict): txt = "You need to deallocate for a day before today" delay = timedelta(days=1) today = datetime.now().replace(tzinfo=tzutc()) + delay start_time = data['start_time'].replace(tzinfo=tzutc()) if start_time > today: raise ValidationError(txt) txt = "Sorry some of this devices are actually deallocate" for device in data['devices']: if not device.allocated: raise ValidationError(txt) device.allocated = False class EraseBasic(ActionWithOneDevice): __doc__ = m.EraseBasic.__doc__ steps = NestedOn('Step', many=True) standards = f.List(EnumField(enums.ErasureStandards), dump_only=True) certificate = URL(dump_only=True) class EraseSectors(EraseBasic): __doc__ = m.EraseSectors.__doc__ class ErasePhysical(EraseBasic): __doc__ = m.ErasePhysical.__doc__ method = EnumField(PhysicalErasureMethod, description=PhysicalErasureMethod.__doc__) class Step(Schema): __doc__ = m.Step.__doc__ type = String(description='Only required when it is nested.') start_time = DateTime(required=True, data_key='startTime') end_time = DateTime(required=True, data_key='endTime') severity = EnumField(Severity, description=m.Action.severity.comment) class StepZero(Step): __doc__ = m.StepZero.__doc__ class StepRandom(Step): __doc__ = m.StepRandom.__doc__ class Benchmark(ActionWithOneDevice): __doc__ = m.Benchmark.__doc__ elapsed = TimeDelta(precision=TimeDelta.SECONDS, required=True) class BenchmarkDataStorage(Benchmark): __doc__ = m.BenchmarkDataStorage.__doc__ read_speed = Float(required=True, data_key='readSpeed') write_speed = Float(required=True, data_key='writeSpeed') class BenchmarkWithRate(Benchmark): __doc__ = m.BenchmarkWithRate.__doc__ rate = Float(required=True) class BenchmarkProcessor(BenchmarkWithRate): __doc__ = m.BenchmarkProcessor.__doc__ class BenchmarkProcessorSysbench(BenchmarkProcessor): __doc__ = m.BenchmarkProcessorSysbench.__doc__ class BenchmarkRamSysbench(BenchmarkWithRate): __doc__ = m.BenchmarkRamSysbench.__doc__ class BenchmarkGraphicCard(BenchmarkWithRate): __doc__ = m.BenchmarkGraphicCard.__doc__ class Test(ActionWithOneDevice): __doc__ = m.Test.__doc__ class MeasureBattery(Test): __doc__ = m.MeasureBattery.__doc__ size = Integer(required=True, description=m.MeasureBattery.size.comment) voltage = Integer(required=True, description=m.MeasureBattery.voltage.comment) cycle_count = Integer(data_key='cycleCount', description=m.MeasureBattery.cycle_count.comment) health = EnumField(enums.BatteryHealth, description=m.MeasureBattery.health.comment) class TestDataStorage(Test): __doc__ = m.TestDataStorage.__doc__ elapsed = TimeDelta(precision=TimeDelta.SECONDS, required=True) length = EnumField(TestDataStorageLength, required=True) status = SanitizedStr(lower=True, validate=Length(max=STR_SIZE), required=True) lifetime = TimeDelta(precision=TimeDelta.HOURS) assessment = Boolean() reallocated_sector_count = Integer(data_key='reallocatedSectorCount') power_cycle_count = Integer(data_key='powerCycleCount') reported_uncorrectable_errors = Integer(data_key='reportedUncorrectableErrors') command_timeout = Integer(data_key='commandTimeout') current_pending_sector_count = Integer(data_key='currentPendingSectorCount') offline_uncorrectable = Integer(data_key='offlineUncorrectable') remaining_lifetime_percentage = Integer(data_key='remainingLifetimePercentage') class StressTest(Test): __doc__ = m.StressTest.__doc__ elapsed = TimeDelta(precision=TimeDelta.SECONDS, required=True) class TestAudio(Test): __doc__ = m.TestAudio.__doc__ speaker = Boolean(description=m.TestAudio._speaker.comment) microphone = Boolean(description=m.TestAudio._microphone.comment) class TestConnectivity(Test): __doc__ = m.TestConnectivity.__doc__ class TestCamera(Test): __doc__ = m.TestCamera.__doc__ class TestKeyboard(Test): __doc__ = m.TestKeyboard.__doc__ class TestTrackpad(Test): __doc__ = m.TestTrackpad.__doc__ class TestBios(Test): __doc__ = m.TestBios.__doc__ bios_power_on = Boolean() access_range = EnumField(BiosAccessRange, data_key='accessRange') class VisualTest(Test): __doc__ = m.VisualTest.__doc__ appearance_range = EnumField(AppearanceRange, data_key='appearanceRange') functionality_range = EnumField(FunctionalityRange, data_key='functionalityRange') labelling = Boolean() class Rate(ActionWithOneDevice): __doc__ = m.Rate.__doc__ rating = Integer(validate=Range(*R_POSITIVE), dump_only=True, description=m.Rate._rating.comment) version = Version(dump_only=True, description=m.Rate.version.comment) appearance = Integer(validate=Range(enums.R_NEGATIVE), dump_only=True, description=m.Rate._appearance.comment) functionality = Integer(validate=Range(enums.R_NEGATIVE), dump_only=True, description=m.Rate._functionality.comment) rating_range = EnumField(RatingRange, dump_only=True, data_key='ratingRange', description=m.Rate.rating_range.__doc__) class RateComputer(Rate): __doc__ = m.RateComputer.__doc__ processor = Float(dump_only=True) ram = Float(dump_only=True) data_storage = Float(dump_only=True, data_key='dataStorage') graphic_card = Float(dump_only=True, data_key='graphicCard') data_storage_range = EnumField(RatingRange, dump_only=True, data_key='dataStorageRange') ram_range = EnumField(RatingRange, dump_only=True, data_key='ramRange') processor_range = EnumField(RatingRange, dump_only=True, data_key='processorRange') graphic_card_range = EnumField(RatingRange, dump_only=True, data_key='graphicCardRange') class Price(ActionWithOneDevice): __doc__ = m.Price.__doc__ currency = EnumField(Currency, required=True, description=m.Price.currency.comment) price = Decimal(places=m.Price.SCALE, rounding=m.Price.ROUND, required=True, description=m.Price.price.comment) version = Version(dump_only=True, description=m.Price.version.comment) rating = NestedOn(Rate, dump_only=True, description=m.Price.rating_id.comment) class EreusePrice(Price): __doc__ = m.EreusePrice.__doc__ class Service(MarshmallowSchema): class Type(MarshmallowSchema): amount = Float() percentage = Float() standard = Nested(Type) warranty2 = Nested(Type) warranty2 = Float() refurbisher = Nested(Service) retailer = Nested(Service) platform = Nested(Service) class Install(ActionWithOneDevice): __doc__ = m.Install.__doc__ name = SanitizedStr(validate=Length(min=4, max=STR_BIG_SIZE), required=True, description='The name of the OS installed.') elapsed = TimeDelta(precision=TimeDelta.SECONDS, required=True) address = Integer(validate=OneOf({8, 16, 32, 64, 128, 256})) class Snapshot(ActionWithOneDevice): __doc__ = m.Snapshot.__doc__ """ The Snapshot updates the state of the device with information about its components and actions performed at them. See docs for more info. """ uuid = UUID() software = EnumField(SnapshotSoftware, required=True, description='The software that generated this Snapshot.') version = Version(required=True, description='The version of the software.') actions = NestedOn(Action, many=True, dump_only=True) elapsed = TimeDelta(precision=TimeDelta.SECONDS) components = NestedOn(s_device.Component, many=True, description='A list of components that are inside of the device' 'at the moment of this Snapshot.' 'Order is preserved, so the component num 0 when' 'submitting is the component num 0 when returning it back.') @validates_schema def validate_workbench_version(self, data: dict): if data['software'] == SnapshotSoftware.Workbench: if data['version'] < app.config['MIN_WORKBENCH']: raise ValidationError( 'Min. supported Workbench version is ' '{} but yours is {}.'.format(app.config['MIN_WORKBENCH'], data['version']), field_names=['version'] ) @validates_schema def validate_components_only_workbench(self, data: dict): if (data['software'] != SnapshotSoftware.Workbench) and (data['software'] != SnapshotSoftware.WorkbenchAndroid): if data.get('components', None) is not None: raise ValidationError('Only Workbench can add component info', field_names=['components']) @validates_schema def validate_only_workbench_fields(self, data: dict): """Ensures workbench has ``elapsed`` and ``uuid`` and no others.""" # todo test if data['software'] == SnapshotSoftware.Workbench: if not data.get('uuid', None): raise ValidationError('Snapshots from Workbench and WorkbenchAndroid must have uuid', field_names=['uuid']) if data.get('elapsed', None) is None: raise ValidationError('Snapshots from Workbench must have elapsed', field_names=['elapsed']) elif data['software'] == SnapshotSoftware.WorkbenchAndroid: if not data.get('uuid', None): raise ValidationError('Snapshots from Workbench and WorkbenchAndroid must have uuid', field_names=['uuid']) else: if data.get('uuid', None): raise ValidationError('Only Snapshots from Workbench or WorkbenchAndroid can have uuid', field_names=['uuid']) if data.get('elapsed', None): raise ValidationError('Only Snapshots from Workbench can have elapsed', field_names=['elapsed']) class ToRepair(ActionWithMultipleDevices): __doc__ = m.ToRepair.__doc__ class Repair(ActionWithMultipleDevices): __doc__ = m.Repair.__doc__ class Ready(ActionWithMultipleDevices): __doc__ = m.Ready.__doc__ class ActionStatus(Action): rol_user = NestedOn(s_user.User, dump_only=True, exclude=('token',)) devices = NestedOn(s_device.Device, many=True, required=False, # todo test ensuring len(devices) >= 1 only_query='id', collection_class=OrderedSet) documents = NestedOn(s_document.TradeDocument, many=True, required=False, # todo test ensuring len(devices) >= 1 only_query='id', collection_class=OrderedSet) @pre_load def put_devices(self, data: dict): if 'devices' not in data.keys(): data['devices'] = [] @post_load def put_rol_user(self, data: dict): for dev in data['devices']: if dev.trading in [None, 'Revoke', 'ConfirmRevoke']: return data trades = [ac for ac in dev.actions if ac.t == 'Trade'] if not trades: return data trade = trades[-1] if trade.user_to != g.user: data['rol_user'] = trade.user_to data['trade'] = trade class Recycling(ActionStatus): __doc__ = m.Recycling.__doc__ class Use(ActionStatus): __doc__ = m.Use.__doc__ class Refurbish(ActionStatus): __doc__ = m.Refurbish.__doc__ class Management(ActionStatus): __doc__ = m.Management.__doc__ class ToPrepare(ActionWithMultipleDevices): __doc__ = m.ToPrepare.__doc__ class Prepare(ActionWithMultipleDevices): __doc__ = m.Prepare.__doc__ class DataWipe(ActionWithMultipleDevices): __doc__ = m.DataWipe.__doc__ document = NestedOn(s_generic_document.DataWipeDocument, only_query='id') class Live(ActionWithOneDevice): __doc__ = m.Live.__doc__ """ The Snapshot updates the state of the device with information about its components and actions performed at them. See docs for more info. """ uuid = UUID() software = EnumField(SnapshotSoftware, required=True, description='The software that generated this Snapshot.') version = Version(required=True, description='The version of the software.') final_user_code = SanitizedStr(data_key="finalUserCode", dump_only=True) licence_version = Version(required=True, description='The version of the software.') components = NestedOn(s_device.Component, many=True, description='A list of components that are inside of the device' 'at the moment of this Snapshot.' 'Order is preserved, so the component num 0 when' 'submitting is the component num 0 when returning it back.') usage_time_allocate = TimeDelta(data_key='usageTimeAllocate', required=False, precision=TimeDelta.HOURS, dump_only=True) class Organize(ActionWithMultipleDevices): __doc__ = m.Organize.__doc__ class Reserve(Organize): __doc__ = m.Reserve.__doc__ class CancelReservation(Organize): __doc__ = m.CancelReservation.__doc__ class Confirm(ActionWithMultipleDevices): __doc__ = m.Confirm.__doc__ action = NestedOn('Action', only_query='id') @validates_schema def validate_revoke(self, data: dict): for dev in data['devices']: # if device not exist in the Trade, then this query is wrong if not dev in data['action'].devices: txt = "Device {} not exist in the trade".format(dev.devicehub_id) raise ValidationError(txt) class Revoke(ActionWithMultipleDevices): __doc__ = m.Revoke.__doc__ action = NestedOn('Action', only_query='id') @validates_schema def validate_revoke(self, data: dict): for dev in data['devices']: # if device not exist in the Trade, then this query is wrong if not dev in data['action'].devices: txt = "Device {} not exist in the trade".format(dev.devicehub_id) raise ValidationError(txt) for doc in data.get('documents', []): # if document not exist in the Trade, then this query is wrong if not doc in data['action'].documents: txt = "Document {} not exist in the trade".format(doc.file_name) raise ValidationError(txt) @validates_schema def validate_documents(self, data): """Check if there are or no one before confirmation, This is not checked in the view becouse the list of documents is inmutable """ if not data['devices'] == OrderedSet(): return documents = [] for doc in data['documents']: actions = copy.copy(doc.actions) actions.reverse() for ac in actions: if ac == data['action']: # data['action'] is a Trade action, if this is the first action # to find mean that this document don't have a confirmation break if ac.t == 'Revoke' and ac.user == g.user: # this doc is confirmation jet break if ac.t == Confirm.t and ac.user == g.user: documents.append(doc) break if not documents: txt = 'No there are documents to revoke' raise ValidationError(txt) class ConfirmDocument(ActionWithMultipleDocuments): __doc__ = m.Confirm.__doc__ action = NestedOn('Action', only_query='id') @validates_schema def validate_documents(self, data): """If there are one device than have one confirmation, then remove the list this device of the list of devices of this action """ if data['documents'] == OrderedSet(): return for doc in data['documents']: if not doc.lot.trade: return data['action'] = doc.lot.trade if not doc.actions: continue if not doc.trading == 'Need Confirmation': txt = 'No there are documents to confirm' raise ValidationError(txt) class RevokeDocument(ActionWithMultipleDocuments): __doc__ = m.RevokeDocument.__doc__ action = NestedOn('Action', only_query='id') @validates_schema def validate_documents(self, data): """Check if there are or no one before confirmation, This is not checked in the view becouse the list of documents is inmutable """ if data['documents'] == OrderedSet(): return for doc in data['documents']: if not doc.lot.trade: return data['action'] = doc.lot.trade if not doc.actions: continue if not doc.trading in ['Document Confirmed', 'Confirm']: txt = 'No there are documents to revoke' raise ValidationError(txt) class ConfirmRevokeDocument(ActionWithMultipleDocuments): __doc__ = m.ConfirmRevoke.__doc__ action = NestedOn('Action', only_query='id') @validates_schema def validate_documents(self, data): """Check if there are or no one before confirmation, This is not checked in the view becouse the list of documents is inmutable """ if data['documents'] == OrderedSet(): return for doc in data['documents']: if not doc.lot.trade: return if not doc.actions: continue if not doc.trading == 'Revoke': txt = 'No there are documents with revoke for confirm' raise ValidationError(txt) data['action'] = doc.actions[-1] class ConfirmRevoke(ActionWithMultipleDevices): __doc__ = m.ConfirmRevoke.__doc__ action = NestedOn('Action', only_query='id') @validates_schema def validate_revoke(self, data: dict): for dev in data['devices']: # if device not exist in the Trade, then this query is wrong if not dev in data['action'].devices: txt = "Device {} not exist in the trade".format(dev.devicehub_id) raise ValidationError(txt) for doc in data.get('documents', []): # if document not exist in the Trade, then this query is wrong if not doc in data['action'].documents: txt = "Document {} not exist in the trade".format(doc.file_name) raise ValidationError(txt) @validates_schema def validate_docs(self, data): """Check if there are or no one before confirmation, This is not checked in the view becouse the list of documents is inmutable """ if not data['devices'] == OrderedSet(): return documents = [] for doc in data['documents']: actions = copy.copy(doc.actions) actions.reverse() for ac in actions: if ac == data['action']: # If document have the last action the action for confirm documents.append(doc) break if ac.t == 'Revoke' and not ac.user == g.user: # If document is revoke before you can Confirm now # and revoke is an action of one other user documents.append(doc) break if ac.t == ConfirmRevoke.t and ac.user == g.user: # If document is confirmed we don't need confirmed again break if ac.t == Confirm.t: # if onwer of trade confirm again before than this user Confirm the # revoke, then is not possible confirm the revoke # # If g.user confirm the trade before do a ConfirmRevoke # then g.user can not to do the ConfirmRevoke more break if not documents: txt = 'No there are documents with revoke for confirm' raise ValidationError(txt) class Trade(ActionWithMultipleDevices): __doc__ = m.Trade.__doc__ date = DateTime(data_key='date', required=False) price = Float(required=False, data_key='price') user_to_email = SanitizedStr( validate=Length(max=STR_SIZE), data_key='userToEmail', missing='', required=False ) user_to = NestedOn(s_user.User, dump_only=True, data_key='userTo') user_from_email = SanitizedStr( validate=Length(max=STR_SIZE), data_key='userFromEmail', missing='', required=False ) user_from = NestedOn(s_user.User, dump_only=True, data_key='userFrom') code = SanitizedStr(validate=Length(max=STR_SIZE), data_key='code', required=False) confirm = Boolean( data_key='confirms', missing=True, description="""If you need confirmation of the user you need actevate this field""" ) lot = NestedOn('Lot', many=False, required=True, only_query='id') @pre_load def adding_devices(self, data: dict): if not 'devices' in data.keys(): data['devices'] = [] @validates_schema def validate_lot(self, data: dict): if not g.user.email in [data['user_from_email'], data['user_to_email']]: txt = "you need to be one of the users of involved in the Trade" raise ValidationError(txt) for dev in data['lot'].devices: if not dev.owner == g.user: txt = "you need to be the owner of the devices for to do a trade" raise ValidationError(txt) if not data['lot'].owner == g.user: txt = "you need to be the owner of the lot for to do a trade" raise ValidationError(txt) for doc in data['lot'].documents: if not doc.owner == g.user: txt = "you need to be the owner of the documents for to do a trade" raise ValidationError(txt) data['devices'] = data['lot'].devices data['documents'] = data['lot'].documents @validates_schema def validate_user_to_email(self, data: dict): """ - if user_to exist * confirmation * without confirmation - if user_to don't exist * without confirmation """ if data['user_to_email']: user_to = User.query.filter_by(email=data['user_to_email']).one() data['user_to'] = user_to else: data['confirm'] = False @validates_schema def validate_user_from_email(self, data: dict): """ - if user_from exist * confirmation * without confirmation - if user_from don't exist * without confirmation """ if data['user_from_email']: user_from = User.query.filter_by(email=data['user_from_email']).one() data['user_from'] = user_from @validates_schema def validate_email_users(self, data: dict): """We need at least one user""" confirm = data['confirm'] user_from = data['user_from_email'] user_to = data['user_to_email'] if not (user_from or user_to): txt = "you need one user from or user to for to do a trade" raise ValidationError(txt) if confirm and not (user_from and user_to): txt = "you need one user for to do a trade" raise ValidationError(txt) if not g.user.email in [user_from, user_to]: txt = "you need to be one of participate of the action" raise ValidationError(txt) @validates_schema def validate_code(self, data: dict): """If the user not exist, you need a code to be able to do the traceability""" if data['user_from_email'] and data['user_to_email']: data['confirm'] = True return if not data['confirm'] and not data.get('code'): txt = "you need a code to be able to do the traceability" raise ValidationError(txt) if not data['confirm']: data['code'] = data['code'].replace('@', '_') class InitTransfer(Trade): __doc__ = m.InitTransfer.__doc__ class Sell(Trade): __doc__ = m.Sell.__doc__ class Donate(Trade): __doc__ = m.Donate.__doc__ class Rent(Trade): __doc__ = m.Rent.__doc__ class MakeAvailable(ActionWithMultipleDevices): __doc__ = m.MakeAvailable.__doc__ class CancelTrade(Trade): __doc__ = m.CancelTrade.__doc__ class ToDisposeProduct(Trade): __doc__ = m.ToDisposeProduct.__doc__ class DisposeProduct(Trade): __doc__ = m.DisposeProduct.__doc__ class TransferOwnershipBlockchain(Trade): __doc__ = m.TransferOwnershipBlockchain.__doc__ class Migrate(ActionWithMultipleDevices): __doc__ = m.Migrate.__doc__ other = URL() class MigrateTo(Migrate): __doc__ = m.MigrateTo.__doc__ class MigrateFrom(Migrate): __doc__ = m.MigrateFrom.__doc__ class MoveOnDocument(Action): __doc__ = m.MoveOnDocument.__doc__ weight = Integer() container_from = NestedOn('TradeDocument', only_query='id') container_to = NestedOn('TradeDocument', only_query='id') @pre_load def extract_container(self, data): id_hash = data['container_to'] docs = TradeDocument.query.filter_by(owner=g.user, file_hash=id_hash).all() if len(docs) > 1: txt = 'This document it is associated in more than one lot' raise ValidationError(txt) if len(docs) < 1: txt = 'This document not exist' raise ValidationError(txt) data['container_to'] = docs[0].id @post_load def adding_documents(self, data): """Adding action in the 2 TradeDocuments""" docs = OrderedSet() docs.add(data['container_to']) docs.add(data['container_from']) data['documents'] = docs