import datetime import uuid from itertools import filterfalse import marshmallow from flask import g, current_app as app, render_template, request, Response from flask.json import jsonify from flask_sqlalchemy import Pagination from sqlalchemy.util import OrderedSet from marshmallow import fields, fields as f, validate as v, Schema as MarshmallowSchema from teal import query from teal.db import ResourceNotFound from teal.cache import cache from teal.resource import View from teal.marshmallow import ValidationError from ereuse_devicehub import auth from ereuse_devicehub.db import db from ereuse_devicehub.query import SearchQueryParser, things_response from ereuse_devicehub.resources import search from ereuse_devicehub.resources.action import models as actions from ereuse_devicehub.resources.device import states from ereuse_devicehub.resources.device.models import Device, Manufacturer, Computer from ereuse_devicehub.resources.device.search import DeviceSearch from ereuse_devicehub.resources.enums import SnapshotSoftware from ereuse_devicehub.resources.lot.models import LotDeviceDescendants from ereuse_devicehub.resources.tag.model import Tag class OfType(f.Str): def __init__(self, column: db.Column, *args, **kwargs): super().__init__(*args, **kwargs) self.column = column def _deserialize(self, value, attr, data): v = super()._deserialize(value, attr, data) return self.column.in_(app.resources[v].subresources_types) class RateQ(query.Query): rating = query.Between(actions.Rate._rating, f.Float()) appearance = query.Between(actions.Rate._appearance, f.Float()) functionality = query.Between(actions.Rate._functionality, f.Float()) class TagQ(query.Query): id = query.Or(query.ILike(Tag.id), required=True) org = query.ILike(Tag.org) class LotQ(query.Query): id = query.Or(query.Equal(LotDeviceDescendants.ancestor_lot_id, fields.UUID())) class Filters(query.Query): id = query.Or(query.Equal(Device.id, fields.Integer())) type = query.Or(OfType(Device.type)) model = query.ILike(Device.model) manufacturer = query.ILike(Device.manufacturer) serialNumber = query.ILike(Device.serial_number) # todo test query for rating (and possibly other filters) rating = query.Join((Device.id == actions.ActionWithOneDevice.device_id) & (actions.ActionWithOneDevice.id == actions.Rate.id), RateQ) tag = query.Join(Device.id == Tag.device_id, TagQ) # todo This part of the query is really slow # And forces usage of distinct, as it returns many rows # due to having multiple paths to the same lot = query.Join((Device.id == LotDeviceDescendants.device_id), LotQ) class Sorting(query.Sort): id = query.SortField(Device.id) created = query.SortField(Device.created) updated = query.SortField(Device.updated) class DeviceView(View): QUERY_PARSER = SearchQueryParser() class FindArgs(marshmallow.Schema): search = f.Str() filter = f.Nested(Filters, missing=[]) sort = f.Nested(Sorting, missing=[Device.id.asc()]) page = f.Integer(validate=v.Range(min=1), missing=1) def get(self, id): """Devices view --- description: Gets a device or multiple devices. parameters: - name: id type: integer in: path} description: The identifier of the device. responses: 200: description: The device or devices. """ return super().get(id) def patch(self, id): dev = Device.query.filter_by(id=id).one() if isinstance(dev, Computer): resource_def = app.resources['Computer'] # TODO check how to handle the 'actions_one' patch_schema = resource_def.SCHEMA( only=['ethereum_address', 'transfer_state', 'deliverynote_address', 'actions_one'], partial=True) json = request.get_json(schema=patch_schema) # TODO check how to handle the 'actions_one' json.pop('actions_one') if not dev: raise ValueError('Device non existent') for key, value in json.items(): setattr(dev, key, value) db.session.commit() return Response(status=204) raise ValueError('Cannot patch a non computer') def one(self, id: int): """Gets one device.""" if not request.authorization: return self.one_public(id) else: return self.one_private(id) def one_public(self, id: int): device = Device.query.filter_by(id=id).one() return render_template('devices/layout.html', device=device, states=states) @auth.Auth.requires_auth def one_private(self, id: int): device = Device.query.filter_by(id=id).one() if hasattr(device, 'owner_id') and device.owner_id != g.user.id: device = {} return self.schema.jsonify(device) @auth.Auth.requires_auth # @cache(datetime.timedelta(minutes=1)) def find(self, args: dict): """Gets many devices.""" # Compute query query = self.query(args) devices = query.paginate(page=args['page'], per_page=30) # type: Pagination import pdb; pdb.set_trace() return things_response( self.schema.dump(devices.items, many=True, nested=1), devices.page, devices.per_page, devices.total, devices.prev_num, devices.next_num ) def query(self, args): query = Device.query.distinct() # todo we should not force to do this if the query is ok search_p = args.get('search', None) if search_p: properties = DeviceSearch.properties tags = DeviceSearch.tags query = query.join(DeviceSearch).filter( search.Search.match(properties, search_p) | search.Search.match(tags, search_p) ).order_by( search.Search.rank(properties, search_p) + search.Search.rank(tags, search_p) ) query = self.visibility_filter(query) return query.filter(*args['filter']).order_by(*args['sort']) def visibility_filter(self, query): filterqs = request.args.get('filter', None) if (filterqs and 'lot' not in filterqs): query = query.filter((Computer.id == Device.id), (Computer.owner_id == g.user.id)) pass return query class DeviceMergeView(View): """View for merging two devices Ex. ``device//merge/``. """ def post(self, dev1_id: int, dev2_id: int): device = self.merge_devices(dev1_id, dev2_id) ret = self.schema.jsonify(device) ret.status_code = 201 db.session.commit() return ret @auth.Auth.requires_auth def merge_devices(self, dev1_id: int, dev2_id: int) -> Device: """Merge the current device with `with_device` (dev2_id) by adding all `with_device` actions under the current device, (dev1_id). This operation is highly costly as it forces refreshing many models in session. """ # base_device = Device.query.filter_by(id=dev1_id, owner_id=g.user.id).one() self.base_device = Device.query.filter_by(id=dev1_id).one() self.with_device = Device.query.filter_by(id=dev2_id).one() if not self.base_device.type == self.with_device.type: # Validation than we are speaking of the same kind of devices raise ValidationError('The devices is not the same type.') # Adding actions of self.with_device with_actions_one = [a for a in self.with_device.actions if isinstance(a, actions.ActionWithOneDevice)] with_actions_multiple = [a for a in self.with_device.actions if isinstance(a, actions.ActionWithMultipleDevices)] # Moving the tags from `with_device` to `base_device` # Union of tags the device had plus the (potentially) new ones self.base_device.tags.update([x for x in self.with_device.tags]) self.with_device.tags.clear() # We don't want to add the transient dummy tags db.session.add(self.with_device) # Moving the actions from `with_device` to `base_device` for action in with_actions_one: if action.parent: action.parent = self.base_device else: self.base_device.actions_one.add(action) for action in with_actions_multiple: if action.parent: action.parent = self.base_device else: self.base_device.actions_multiple.add(action) # Keeping the components of with_device components = OrderedSet(c for c in self.with_device.components) self.base_device.components = components # Properties from with_device self.merge() db.session().add(self.base_device) db.session().final_flush() return self.base_device def merge(self): """Copies the physical properties of the base_device to the with_device. This method mutates base_device. """ for field_name, value in self.with_device.physical_properties.items(): if value is not None: setattr(self.base_device, field_name, value) self.base_device.hid = self.with_device.hid class ManufacturerView(View): class FindArgs(marshmallow.Schema): search = marshmallow.fields.Str(required=True, # Disallow like operators validate=lambda x: '%' not in x and '_' not in x) @cache(datetime.timedelta(days=1)) def find(self, args: dict): search = args['search'] manufacturers = Manufacturer.query \ .filter(Manufacturer.name.ilike(search + '%')) \ .paginate(page=1, per_page=6) # type: Pagination return jsonify( items=app.resources[Manufacturer.t].schema.dump( manufacturers.items, many=True, nested=1 ) )