import uuid from collections import deque from enum import Enum from typing import Dict, List, Set, Union import marshmallow as ma from flask import Response, g, jsonify, request from marshmallow import Schema as MarshmallowSchema from marshmallow import fields as f from sqlalchemy import or_ from sqlalchemy.util import OrderedSet from teal.marshmallow import EnumField from teal.resource import View from ereuse_devicehub.db import db from ereuse_devicehub.inventory.models import Transfer from ereuse_devicehub.query import things_response from ereuse_devicehub.resources.action.models import Confirm, Revoke, Trade from ereuse_devicehub.resources.device.models import Computer, Device from ereuse_devicehub.resources.lot.models import Lot, Path class LotFormat(Enum): UiTree = 'UiTree' class LotView(View): class FindArgs(MarshmallowSchema): """Allowed arguments for the ``find`` method (GET collection) endpoint """ format = EnumField(LotFormat, missing=None) search = f.Str(missing=None) type = f.Str(missing=None) def post(self): l = request.get_json() lot = Lot(**l) db.session.add(lot) db.session().final_flush() ret = self.schema.jsonify(lot) ret.status_code = 201 db.session.commit() return ret def patch(self, id): patch_schema = self.resource_def.SCHEMA( only=( 'name', 'description', 'transfer_state', 'receiver_address', 'amount', 'devices', 'owner_address', ), partial=True, ) l = request.get_json(schema=patch_schema) lot = Lot.query.filter_by(id=id).one() device_fields = [ 'transfer_state', 'receiver_address', 'amount', 'owner_address', ] computers = [x for x in lot.all_devices if isinstance(x, Computer)] for key, value in l.items(): setattr(lot, key, value) if key in device_fields: for dev in computers: setattr(dev, key, value) db.session.commit() return Response(status=204) def one(self, id: uuid.UUID): """Gets one action.""" lot = Lot.query.filter_by(id=id).one() # type: Lot return self.schema.jsonify(lot, nested=2) # @teal.cache.cache(datetime.timedelta(minutes=5)) def find(self, args: dict): """Gets lots. By passing the value `UiTree` in the parameter `format` of the query you get a recursive nested suited for ui-tree:: [ {title: 'lot1', nodes: [{title: 'child1', nodes:[]}] ] Note that in this format filters are ignored. Otherwise it just returns the standard flat view of lots that you can filter. """ if args['format'] == LotFormat.UiTree: lots = self.schema.dump(Lot.query, many=True, nested=2) ret = { 'items': {l['id']: l for l in lots}, 'tree': self.ui_tree(), 'url': request.path, } else: query = Lot.query query = self.visibility_filter(query) query = self.type_filter(query, args) if args['search']: query = query.filter(Lot.name.ilike(args['search'] + '%')) lots = query.paginate(per_page=6 if args['search'] else query.count()) return things_response( self.schema.dump(lots.items, many=True, nested=2), lots.page, lots.per_page, lots.total, lots.prev_num, lots.next_num, ) return jsonify(ret) def visibility_filter(self, query): query = ( query.outerjoin(Trade) .outerjoin(Transfer) .filter( or_( Trade.user_from == g.user, Trade.user_to == g.user, Lot.owner_id == g.user.id, Transfer.user_from == g.user, Transfer.user_to == g.user, ) ) ) return query def type_filter(self, query, args): lot_type = args.get('type') # temporary if lot_type == "temporary": return query.filter(Lot.trade == None).filter(Lot.transfer == None) if lot_type == "incoming": return query.filter( or_( Lot.trade and Trade.user_to == g.user, Lot.transfer and Transfer.user_to == g.user, ) ).all() if lot_type == "outgoing": return query.filter( or_( Lot.trade and Trade.user_from == g.user, Lot.transfer and Transfer.user_from == g.user, ) ).all() return query def query(self, args): query = Lot.query.distinct() return query def delete(self, id): lot = Lot.query.filter_by(id=id, owner=g.user).one() lot.delete() db.session.commit() return Response(status=204) @classmethod def ui_tree(cls) -> List[Dict]: tree = [] for model in Path.query: # type: Path path = deque(model.path.path.split('.')) cls._p(tree, path) return tree @classmethod def _p(cls, nodes: List[Dict[str, Union[uuid.UUID, List]]], path: deque): """Recursively creates the nested lot structure. Every recursive step consumes path (a deque of lot_id), trying to find it as the value of id in nodes, otherwise it adds itself. Then moves to the node's children. """ lot_id = uuid.UUID(path.popleft().replace('_', '-')) try: # does lot_id exist already in node? node = next(part for part in nodes if lot_id == part['id']) except StopIteration: node = {'id': lot_id, 'nodes': []} nodes.append(node) if path: cls._p(node['nodes'], path) def get_lot_amount(self, l: Lot): """Return lot amount value""" return l.amount def change_state(self): """Change state of Lot""" pass def transfer_ownership_lot(self): """Perform a InitTransfer action to change author_id of lot""" pass class LotBaseChildrenView(View): """Base class for adding / removing children devices and lots from a lot. """ def __init__(self, definition: 'Resource', **kw) -> None: super().__init__(definition, **kw) self.list_args = self.ListArgs() def get_ids(self) -> Set[uuid.UUID]: args = self.QUERY_PARSER.parse( self.list_args, request, locations=('querystring',) ) return set(args['id']) def get_lot(self, id: uuid.UUID) -> Lot: return Lot.query.filter_by(id=id).one() # noinspection PyMethodOverriding def post(self, id: uuid.UUID): lot = self.get_lot(id) self._post(lot, self.get_ids()) db.session().final_flush() ret = self.schema.jsonify(lot) ret.status_code = 201 db.session.commit() return ret def delete(self, id: uuid.UUID): lot = self.get_lot(id) self._delete(lot, self.get_ids()) db.session().final_flush() response = self.schema.jsonify(lot) db.session.commit() return response def _post(self, lot: Lot, ids: Set[uuid.UUID]): raise NotImplementedError def _delete(self, lot: Lot, ids: Set[uuid.UUID]): raise NotImplementedError class LotChildrenView(LotBaseChildrenView): """View for adding and removing child lots from a lot. Ex. ``lot//children/id=X&id=Y``. """ class ListArgs(ma.Schema): id = ma.fields.List(ma.fields.UUID()) def _post(self, lot: Lot, ids: Set[uuid.UUID]): lot.add_children(*ids) def _delete(self, lot: Lot, ids: Set[uuid.UUID]): lot.remove_children(*ids) class LotDeviceView(LotBaseChildrenView): """View for adding and removing child devices from a lot. Ex. ``lot//devices/id=X&id=Y``. """ class ListArgs(ma.Schema): id = ma.fields.List(ma.fields.Integer()) def _post(self, lot: Lot, ids: Set[int]): # get only new devices ids -= {x.id for x in lot.devices} if not ids: return devices = set( Device.query.filter(Device.id.in_(ids)).filter(Device.owner == g.user) ) lot.devices.update(devices) if lot.trade: lot.trade.devices = lot.devices if g.user in [lot.trade.user_from, lot.trade.user_to]: confirm = Confirm(action=lot.trade, user=g.user, devices=devices) db.session.add(confirm) def _delete(self, lot: Lot, ids: Set[int]): # if there are some devices in ids than not exist now in the lot, then exit if not ids.issubset({x.id for x in lot.devices}): return if lot.trade: devices = Device.query.filter(Device.id.in_(ids)).all() return delete_from_trade(lot, devices) if not g.user == lot.owner: txt = 'This is not your lot' raise ma.ValidationError(txt) devices = set( Device.query.filter(Device.id.in_(ids)).filter(Device.owner_id == g.user.id) ) lot.devices.difference_update(devices) def delete_from_trade(lot: Lot, devices: List): users = [lot.trade.user_from, lot.trade.user_to] if g.user not in users: # theoretically this case is impossible txt = 'This is not your trade' raise ma.ValidationError(txt) # we need lock the action revoke for devices than travel for futures trades for dev in devices: if dev.owner not in users: txt = 'This is not your device' raise ma.ValidationError(txt) drop_of_lot = [] without_confirms = [] for dev in devices: if dev.trading(lot) in ['NeedConfirmation', 'Confirm', 'NeedConfirmRevoke']: drop_of_lot.append(dev) dev.reset_owner() if not lot.trade.confirm: drop_of_lot.append(dev) without_confirms.append(dev) dev.reset_owner() revoke = Revoke(action=lot.trade, user=g.user, devices=set(devices)) db.session.add(revoke) if without_confirms: phantom = lot.trade.user_to if lot.trade.user_to == g.user: phantom = lot.trade.user_from phantom_revoke = Revoke( action=lot.trade, user=phantom, devices=set(without_confirms) ) db.session.add(phantom_revoke) lot.devices.difference_update(OrderedSet(drop_of_lot)) return revoke