# # Copyright 2023 © AE UTBM # ae@utbm.fr / ae.info@utbm.fr # # This file is part of the website of the UTBM Student Association (AE UTBM), # https://ae.utbm.fr. # # You can find the source code of the website at https://github.com/ae-utbm/sith # # LICENSED UNDER THE GNU GENERAL PUBLIC LICENSE VERSION 3 (GPLv3) # SEE : https://raw.githubusercontent.com/ae-utbm/sith/master/LICENSE # OR WITHIN THE LOCAL FILE "LICENSE" # # from __future__ import annotations import base64 import os import random import string from datetime import date, datetime, timedelta from datetime import timezone as tz from decimal import Decimal from typing import Self, Tuple from dict2xml import dict2xml from django.conf import settings from django.core.validators import MinLengthValidator from django.db import models from django.db.models import Exists, F, OuterRef, Q, QuerySet, Subquery, Sum, Value from django.db.models.functions import Coalesce, Concat, Length from django.forms import ValidationError from django.urls import reverse from django.utils import timezone from django.utils.functional import cached_property from django.utils.translation import gettext_lazy as _ from django_countries.fields import CountryField from ordered_model.models import OrderedModel from phonenumber_field.modelfields import PhoneNumberField from accounting.models import CurrencyField from club.models import Club from core.fields import ResizedImageField from core.models import Group, Notification, User from core.utils import get_start_of_semester from counter.apps import PAYMENT_METHOD from sith.settings import SITH_MAIN_CLUB from subscription.models import Subscription class CustomerQuerySet(models.QuerySet): def update_amount(self) -> int: """Update the amount of all customers selected by this queryset. The result is given as the sum of all refills minus the sum of all purchases. Returns: The number of updated rows. Warnings: The execution time of this query grows really quickly. When updating 500 customers, it may take around a second. If you try to update all customers at once, the execution time goes up to tens of seconds. Use this either on a small subset of the `Customer` table, or execute it inside an independent task (like a Celery task or a management command). """ money_in = Subquery( Refilling.objects.filter(customer=OuterRef("pk")) .values("customer_id") # group by customer .annotate(res=Sum(F("amount"), default=0)) .values("res") ) money_out = Subquery( Selling.objects.filter(customer=OuterRef("pk")) .values("customer_id") .annotate(res=Sum(F("unit_price") * F("quantity"), default=0)) .values("res") ) return self.update(amount=Coalesce(money_in - money_out, Decimal("0"))) class Customer(models.Model): """Customer data of a User. It adds some basic customers' information, such as the account ID, and is used by other accounting classes as reference to the customer, rather than using User. """ user = models.OneToOneField(User, primary_key=True, on_delete=models.CASCADE) account_id = models.CharField(_("account id"), max_length=10, unique=True) amount = CurrencyField(_("amount"), default=0) recorded_products = models.IntegerField(_("recorded product"), default=0) objects = CustomerQuerySet.as_manager() class Meta: verbose_name = _("customer") verbose_name_plural = _("customers") ordering = ["account_id"] def __str__(self): return "%s - %s" % (self.user.username, self.account_id) def save(self, *args, allow_negative=False, is_selling=False, **kwargs): """is_selling : tell if the current action is a selling allow_negative : ignored if not a selling. Allow a selling to put the account in negative Those two parameters avoid blocking the save method of a customer if his account is negative. """ if self.amount < 0 and (is_selling and not allow_negative): raise ValidationError(_("Not enough money")) super().save(*args, **kwargs) def get_absolute_url(self): return reverse("core:user_account", kwargs={"user_id": self.user.pk}) @property def can_record(self): return self.recorded_products > -settings.SITH_ECOCUP_LIMIT def can_record_more(self, number): return self.recorded_products - number >= -settings.SITH_ECOCUP_LIMIT @property def can_buy(self) -> bool: """Check if whether this customer has the right to purchase any item. This must be not confused with the Product.can_be_sold_to(user) method as the present method returns an information about a customer whereas the other tells something about the relation between a User (not a Customer, don't mix them) and a Product. """ subscription = self.user.subscriptions.order_by("subscription_end").last() if subscription is None: return False return (date.today() - subscription.subscription_end) < timedelta(days=90) @classmethod def get_or_create(cls, user: User) -> Tuple[Customer, bool]: """Work in pretty much the same way as the usual get_or_create method, but with the default field replaced by some under the hood. If the user has an account, return it as is. Else create a new account with no money on it and a new unique account id Example : :: user = User.objects.get(pk=1) account, created = Customer.get_or_create(user) if created: print(f"created a new account with id {account.id}") else: print(f"user has already an account, with {account.id} € on it" """ if hasattr(user, "customer"): return user.customer, False # account_id are always a number with a letter appended account_id = ( Customer.objects.order_by(Length("account_id"), "account_id") .values("account_id") .last() ) if account_id is None: # legacy from the old site account = cls.objects.create(user=user, account_id="1504a") return account, True account_id = account_id["account_id"] account_num = int(account_id[:-1]) while Customer.objects.filter(account_id=account_id).exists(): # when entering the first iteration, we are using an already existing account id # so the loop should always execute at least one time account_num += 1 account_id = f"{account_num}{random.choice(string.ascii_lowercase)}" account = cls.objects.create(user=user, account_id=account_id) return account, True def get_full_url(self): return f"https://{settings.SITH_URL}{self.get_absolute_url()}" class BillingInfo(models.Model): """Represent the billing information of a user, which are required by the 3D-Secure v2 system used by the etransaction module. """ customer = models.OneToOneField( Customer, related_name="billing_infos", on_delete=models.CASCADE ) # declaring surname and name even though they are already defined # in User add some redundancy, but ensures that the billing infos # shall stay correct, whatever shenanigans the user commits on its profile first_name = models.CharField(_("First name"), max_length=22) last_name = models.CharField(_("Last name"), max_length=22) address_1 = models.CharField(_("Address 1"), max_length=50) address_2 = models.CharField(_("Address 2"), max_length=50, blank=True, null=True) zip_code = models.CharField(_("Zip code"), max_length=16) # code postal city = models.CharField(_("City"), max_length=50) country = CountryField(blank_label=_("Country")) # This table was created during the A22 semester. # However, later on, CA asked for the phone number to be added to the billing info. # As the table was already created, this new field had to be nullable, # even tough it is required by the bank and shouldn't be null. # If one day there is no null phone number remaining, # please make the field non-nullable. phone_number = PhoneNumberField(_("Phone number"), null=True, blank=False) def __str__(self): return f"{self.first_name} {self.last_name}" def to_3dsv2_xml(self) -> str: """Convert the data from this model into a xml usable by the online paying service of the Crédit Agricole bank. see : `https://www.ca-moncommerce.com/espace-client-mon-commerce/up2pay-e-transactions/ma-documentation/manuel-dintegration-focus-3ds-v2/principes-generaux/#integration-3dsv2-developpeur-webmaster`. """ data = { "Address": { "FirstName": self.first_name, "LastName": self.last_name, "Address1": self.address_1, "ZipCode": self.zip_code, "City": self.city, "CountryCode": self.country.numeric, # ISO-3166-1 numeric code "MobilePhone": self.phone_number.as_national.replace(" ", ""), "CountryCodeMobilePhone": f"+{self.phone_number.country_code}", } } if self.address_2: data["Address"]["Address2"] = self.address_2 xml = dict2xml(data, wrap="Billing", newlines=False) return '' + xml class AccountDumpQuerySet(models.QuerySet): def ongoing(self) -> Self: """Filter dump operations that are not completed yet.""" return self.filter(dump_operation=None) class AccountDump(models.Model): """The process of dumping an account.""" customer = models.ForeignKey( Customer, related_name="dumps", on_delete=models.CASCADE ) warning_mail_sent_at = models.DateTimeField( help_text=_( "When the mail warning that the account was about to be dumped was sent." ) ) warning_mail_error = models.BooleanField( default=False, help_text=_("Set this to True if the warning mail received an error"), ) dump_operation = models.OneToOneField( "Selling", null=True, blank=True, on_delete=models.CASCADE, help_text=_("The operation that emptied the account."), ) objects = AccountDumpQuerySet.as_manager() class Meta: constraints = [ models.UniqueConstraint( fields=["customer"], condition=Q(dump_operation=None), name="unique_ongoing_dump", ), ] def __str__(self): status = "ongoing" if self.dump_operation is None else "finished" return f"{self.customer} - {status}" @cached_property def amount(self): return ( self.dump_operation.unit_price if self.dump_operation else self.customer.amount ) class ProductType(OrderedModel): """A product type. Useful only for categorizing. """ name = models.CharField(_("name"), max_length=30) description = models.TextField(_("description"), default="") comment = models.TextField( _("comment"), default="", help_text=_("A text that will be shown on the eboutic."), ) icon = ResizedImageField( height=70, force_format="WEBP", upload_to="products", null=True, blank=True ) class Meta: verbose_name = _("product type") ordering = ["order"] def __str__(self): return self.name def get_absolute_url(self): return reverse("counter:product_type_list") def is_owned_by(self, user): """Method to see if that object can be edited by the given user.""" if user.is_anonymous: return False return user.is_in_group(pk=settings.SITH_GROUP_ACCOUNTING_ADMIN_ID) class Product(models.Model): """A product, with all its related information.""" QUANTITY_FOR_TRAY_PRICE = 6 name = models.CharField(_("name"), max_length=64) description = models.TextField(_("description"), default="") product_type = models.ForeignKey( ProductType, related_name="products", verbose_name=_("product type"), null=True, blank=True, on_delete=models.SET_NULL, ) code = models.CharField(_("code"), max_length=16, blank=True) purchase_price = CurrencyField( _("purchase price"), help_text=_("Initial cost of purchasing the product"), ) selling_price = CurrencyField(_("selling price")) special_selling_price = CurrencyField( _("special selling price"), help_text=_("Price for barmen during their permanence"), ) icon = ResizedImageField( height=70, force_format="WEBP", upload_to="products", null=True, blank=True, verbose_name=_("icon"), ) club = models.ForeignKey( Club, related_name="products", verbose_name=_("club"), on_delete=models.CASCADE ) limit_age = models.IntegerField(_("limit age"), default=0) tray = models.BooleanField(_("tray price"), default=False) buying_groups = models.ManyToManyField( Group, related_name="products", verbose_name=_("buying groups"), blank=True ) archived = models.BooleanField(_("archived"), default=False) class Meta: verbose_name = _("product") def __str__(self): return f"{self.name} ({self.code})" def get_absolute_url(self): return reverse("counter:product_list") @property def is_record_product(self): return self.id == settings.SITH_ECOCUP_CONS @property def is_unrecord_product(self): return self.id == settings.SITH_ECOCUP_DECO def is_owned_by(self, user): """Method to see if that object can be edited by the given user.""" if user.is_anonymous: return False return user.is_in_group( pk=settings.SITH_GROUP_ACCOUNTING_ADMIN_ID ) or user.is_in_group(pk=settings.SITH_GROUP_COUNTER_ADMIN_ID) def can_be_sold_to(self, user: User) -> bool: """Check if whether the user given in parameter has the right to buy this product or not. This must be not confused with the Customer.can_buy() method as the present method returns an information about the relation between a User and a Product, whereas the other tells something about a Customer (and not a user, they are not the same model). Returns: True if the user can buy this product else False Warning: This performs a db query, thus you can quickly have a N+1 queries problem if you call it in a loop. Hopefully, you can avoid that if you prefetch the buying_groups : ```python user = User.objects.get(username="foobar") products = [ p for p in Product.objects.prefetch_related("buying_groups") if p.can_be_sold_to(user) ] ``` """ buying_groups = list(self.buying_groups.all()) if not buying_groups: return True return any(user.is_in_group(pk=group.id) for group in buying_groups) @property def profit(self): return self.selling_price - self.purchase_price class CounterQuerySet(models.QuerySet): def annotate_has_barman(self, user: User) -> Self: """Annotate the queryset with the `user_is_barman` field. For each counter, this field has value True if the user is a barman of this counter, else False. Args: user: the user we want to check if he is a barman Examples: ```python sli = User.objects.get(username="sli") counters = ( Counter.objects .annotate_has_barman(sli) # add the user_has_barman boolean field .filter(has_annotated_barman=True) # keep only counters where this user is barman ) print("Sli est barman dans les comptoirs suivants :") for counter in counters: print(f"- {counter.name}") ``` """ subquery = user.counters.filter(pk=OuterRef("pk")) return self.annotate(has_annotated_barman=Exists(subquery)) def annotate_is_open(self) -> Self: """Annotate tue queryset with the `is_open` field. For each counter, if `is_open=True`, then the counter is currently opened. Else the counter is closed. """ return self.annotate( is_open=Exists( Permanency.objects.filter(counter_id=OuterRef("pk"), end=None) ) ) def handle_timeout(self) -> int: """Disconnect the barmen who are inactive in the given counters. Returns: The number of affected rows (ie, the number of timeouted permanences) """ timeout = timezone.now() - timedelta(minutes=settings.SITH_BARMAN_TIMEOUT) return Permanency.objects.filter( counter__in=self, end=None, activity__lt=timeout ).update(end=F("activity")) class Counter(models.Model): name = models.CharField(_("name"), max_length=30) club = models.ForeignKey( Club, related_name="counters", verbose_name=_("club"), on_delete=models.CASCADE ) products = models.ManyToManyField( Product, related_name="counters", verbose_name=_("products"), blank=True ) type = models.CharField( _("counter type"), max_length=255, choices=[("BAR", _("Bar")), ("OFFICE", _("Office")), ("EBOUTIC", _("Eboutic"))], ) sellers = models.ManyToManyField( User, verbose_name=_("sellers"), related_name="counters", blank=True ) edit_groups = models.ManyToManyField( Group, related_name="editable_counters", blank=True ) view_groups = models.ManyToManyField( Group, related_name="viewable_counters", blank=True ) token = models.CharField(_("token"), max_length=30, null=True, blank=True) objects = CounterQuerySet.as_manager() class Meta: verbose_name = _("counter") def __str__(self): return self.name def get_absolute_url(self) -> str: if self.type == "EBOUTIC": return reverse("eboutic:main") return reverse("counter:details", kwargs={"counter_id": self.id}) def __getattribute__(self, name: str): if name == "edit_groups": return Group.objects.filter( name=self.club.unix_name + settings.SITH_BOARD_SUFFIX ).all() return object.__getattribute__(self, name) def is_owned_by(self, user: User) -> bool: if user.is_anonymous: return False mem = self.club.get_membership_for(user) if mem and mem.role >= 7: return True return user.is_in_group(pk=settings.SITH_GROUP_COUNTER_ADMIN_ID) def can_be_viewed_by(self, user: User) -> bool: if self.type == "BAR": return True return user.is_board_member or user in self.sellers.all() def gen_token(self) -> None: """Generate a new token for this counter.""" self.token = "".join( random.choice(string.ascii_letters + string.digits) for _ in range(30) ) self.save() @cached_property def barmen_list(self) -> list[User]: """Returns the barman list as list of User.""" return [ p.user for p in self.permanencies.filter(end=None).select_related("user") ] def get_random_barman(self) -> User: """Return a random user being currently a barman.""" return random.choice(self.barmen_list) def update_activity(self) -> None: """Update the barman activity to prevent timeout.""" self.permanencies.filter(end=None).update(activity=timezone.now()) def can_refill(self) -> bool: """Show if the counter authorize the refilling with physic money.""" if self.type != "BAR": return False # at least one of the barmen is in the AE board ae = Club.objects.get(unix_name=SITH_MAIN_CLUB["unix_name"]) return any(ae.get_membership_for(barman) for barman in self.barmen_list) def get_top_barmen(self) -> QuerySet: """Return a QuerySet querying the office hours stats of all the barmen of all time of this counter, ordered by descending number of hours. Each element of the QuerySet corresponds to a barman and has the following data : - the full name (first name + last name) of the barman - the nickname of the barman - the promo of the barman - the total number of office hours the barman did attend """ return ( self.permanencies.exclude(end=None) .annotate( name=Concat(F("user__first_name"), Value(" "), F("user__last_name")) ) .annotate(nickname=F("user__nick_name")) .annotate(promo=F("user__promo")) .values("user", "name", "nickname", "promo") .annotate(perm_sum=Sum(F("end") - F("start"))) .exclude(perm_sum=None) .order_by("-perm_sum") ) def get_top_customers(self, since: datetime | date | None = None) -> QuerySet: """Return a QuerySet querying the money spent by customers of this counter since the specified date, ordered by descending amount of money spent. Each element of the QuerySet corresponds to a customer and has the following data : - the full name (first name + last name) of the customer - the nickname of the customer - the amount of money spent by the customer Args: since: timestamp from which to perform the calculation """ if since is None: since = get_start_of_semester() if isinstance(since, date): since = datetime(since.year, since.month, since.day, tzinfo=tz.utc) return ( self.sellings.filter(date__gte=since) .annotate( name=Concat( F("customer__user__first_name"), Value(" "), F("customer__user__last_name"), ) ) .annotate(nickname=F("customer__user__nick_name")) .annotate(promo=F("customer__user__promo")) .annotate(user=F("customer__user")) .values("user", "promo", "name", "nickname") .annotate( selling_sum=Sum( F("unit_price") * F("quantity"), output_field=CurrencyField() ) ) .filter(selling_sum__gt=0) .order_by("-selling_sum") ) def get_total_sales(self, since: datetime | date | None = None) -> CurrencyField: """Compute and return the total turnover of this counter since the given date. By default, the date is the start of the current semester. Args: since: timestamp from which to perform the calculation Returns: Total revenue earned at this counter. """ if since is None: since = get_start_of_semester() if isinstance(since, date): since = datetime(since.year, since.month, since.day, tzinfo=tz.utc) return self.sellings.filter(date__gte=since).aggregate( total=Sum( F("quantity") * F("unit_price"), default=0, output_field=CurrencyField(), ) )["total"] def customer_is_barman(self, customer: Customer | User) -> bool: """Check if this counter is a `bar` and if the customer is currently logged in. This is useful to compute special prices.""" # Customer and User are two different tables, # but they share the same primary key return self.type == "BAR" and any(b.pk == customer.pk for b in self.barmen_list) def get_products_for(self, customer: Customer) -> list[Product]: """ Get all allowed products for the provided customer on this counter Prices will be annotated """ products = self.products.select_related("product_type").prefetch_related( "buying_groups" ) # Only include age appropriate products age = customer.user.age if customer.user.is_banned_alcohol: age = min(age, 17) products = products.filter(limit_age__lte=age) # Compute special price for customer if he is a barmen on that bar if self.customer_is_barman(customer): products = products.annotate(price=F("special_selling_price")) else: products = products.annotate(price=F("selling_price")) return [ product for product in products.all() if product.can_be_sold_to(customer.user) ] class RefillingQuerySet(models.QuerySet): def annotate_total(self) -> Self: """Annotate the Queryset with the total amount. The total is just the sum of the amounts for each row. If no grouping is involved (like in most queries), this is just the same as doing nothing and fetching the `amount` attribute. However, it may be useful when there is a `group by` clause in the query, or when other models are queried and having a common interface is helpful (e.g. `Selling.objects.annotate_total()` and `Refilling.objects.annotate_total()` will both have the `total` field). """ return self.annotate(total=Sum("amount")) class Refilling(models.Model): """Handle the refilling.""" counter = models.ForeignKey( Counter, related_name="refillings", blank=False, on_delete=models.CASCADE ) amount = CurrencyField(_("amount")) operator = models.ForeignKey( User, related_name="refillings_as_operator", blank=False, on_delete=models.CASCADE, ) customer = models.ForeignKey( Customer, related_name="refillings", blank=False, on_delete=models.CASCADE ) date = models.DateTimeField(_("date")) payment_method = models.CharField( _("payment method"), max_length=255, choices=PAYMENT_METHOD, default="CARD", ) bank = models.CharField( _("bank"), max_length=255, choices=settings.SITH_COUNTER_BANK, default="OTHER" ) is_validated = models.BooleanField(_("is validated"), default=False) objects = RefillingQuerySet.as_manager() class Meta: verbose_name = _("refilling") def __str__(self): return "Refilling: %.2f for %s" % ( self.amount, self.customer.user.get_display_name(), ) def save(self, *args, **kwargs): if not self.date: self.date = timezone.now() self.full_clean() if not self.is_validated: self.customer.amount += self.amount self.customer.save() self.is_validated = True if self.customer.user.preferences.notify_on_refill: Notification( user=self.customer.user, url=reverse( "core:user_account_detail", kwargs={ "user_id": self.customer.user.id, "year": self.date.year, "month": self.date.month, }, ), param=str(self.amount), type="REFILLING", ).save() super().save(*args, **kwargs) def is_owned_by(self, user): if user.is_anonymous: return False return user.is_owner(self.counter) and self.payment_method != "CARD" def delete(self, *args, **kwargs): self.customer.amount -= self.amount self.customer.save() super().delete(*args, **kwargs) class SellingQuerySet(models.QuerySet): def annotate_total(self) -> Self: """Annotate the Queryset with the total amount of the sales. The total is considered as the sum of (unit_price * quantity). """ return self.annotate(total=Sum(F("unit_price") * F("quantity"))) class Selling(models.Model): """Handle the sellings.""" label = models.CharField(_("label"), max_length=64) product = models.ForeignKey( Product, related_name="sellings", null=True, blank=True, on_delete=models.SET_NULL, ) counter = models.ForeignKey( Counter, related_name="sellings", null=True, blank=False, on_delete=models.SET_NULL, ) club = models.ForeignKey( Club, related_name="sellings", null=True, blank=False, on_delete=models.SET_NULL ) unit_price = CurrencyField(_("unit price")) quantity = models.IntegerField(_("quantity")) seller = models.ForeignKey( User, related_name="sellings_as_operator", null=True, blank=False, on_delete=models.SET_NULL, ) customer = models.ForeignKey( Customer, related_name="buyings", null=True, blank=False, on_delete=models.SET_NULL, ) date = models.DateTimeField(_("date")) payment_method = models.CharField( _("payment method"), max_length=255, choices=[("SITH_ACCOUNT", _("Sith account")), ("CARD", _("Credit card"))], default="SITH_ACCOUNT", ) is_validated = models.BooleanField(_("is validated"), default=False) objects = SellingQuerySet.as_manager() class Meta: verbose_name = _("selling") def __str__(self): return "Selling: %d x %s (%f) for %s" % ( self.quantity, self.label, self.quantity * self.unit_price, self.customer.user.get_display_name(), ) def save(self, *args, allow_negative=False, **kwargs): """allow_negative : Allow this selling to use more money than available for this user.""" if not self.date: self.date = timezone.now() self.full_clean() if not self.is_validated: self.customer.amount -= self.quantity * self.unit_price self.customer.save(allow_negative=allow_negative, is_selling=True) self.is_validated = True user = self.customer.user if user.was_subscribed: if ( self.product and self.product.id == settings.SITH_PRODUCT_SUBSCRIPTION_ONE_SEMESTER ): sub = Subscription( member=user, subscription_type="un-semestre", payment_method="EBOUTIC", location="EBOUTIC", ) sub.subscription_start = Subscription.compute_start() sub.subscription_start = Subscription.compute_start( duration=settings.SITH_SUBSCRIPTIONS[sub.subscription_type][ "duration" ] ) sub.subscription_end = Subscription.compute_end( duration=settings.SITH_SUBSCRIPTIONS[sub.subscription_type][ "duration" ], start=sub.subscription_start, ) sub.save() elif ( self.product and self.product.id == settings.SITH_PRODUCT_SUBSCRIPTION_TWO_SEMESTERS ): sub = Subscription( member=user, subscription_type="deux-semestres", payment_method="EBOUTIC", location="EBOUTIC", ) sub.subscription_start = Subscription.compute_start() sub.subscription_start = Subscription.compute_start( duration=settings.SITH_SUBSCRIPTIONS[sub.subscription_type][ "duration" ] ) sub.subscription_end = Subscription.compute_end( duration=settings.SITH_SUBSCRIPTIONS[sub.subscription_type][ "duration" ], start=sub.subscription_start, ) sub.save() if user.preferences.notify_on_click: Notification( user=user, url=reverse( "core:user_account_detail", kwargs={ "user_id": user.id, "year": self.date.year, "month": self.date.month, }, ), param="%d x %s" % (self.quantity, self.label), type="SELLING", ).save() super().save(*args, **kwargs) if hasattr(self.product, "eticket"): self.send_mail_customer() def is_owned_by(self, user: User) -> bool: if user.is_anonymous: return False return self.payment_method != "CARD" and user.is_owner(self.counter) def can_be_viewed_by(self, user: User) -> bool: if ( not hasattr(self, "customer") or self.customer is None ): # Customer can be set to Null return False return user == self.customer.user def delete(self, *args, **kwargs): if self.payment_method == "SITH_ACCOUNT": self.customer.amount += self.quantity * self.unit_price self.customer.save() super().delete(*args, **kwargs) def send_mail_customer(self): event = self.product.eticket.event_title or _("Unknown event") subject = _("Eticket bought for the event %(event)s") % {"event": event} message_html = _( "You bought an eticket for the event %(event)s.\nYou can download it directly from this link %(eticket)s.\nYou can also retrieve all your e-tickets on your account page %(url)s." ) % { "event": event, "url": ( f'' f"{self.customer.get_full_url()}" ), "eticket": ( f'' f"{self.get_eticket_full_url()}" ), } message_txt = _( "You bought an eticket for the event %(event)s.\n" "You can download it directly from this link %(eticket)s.\n" "You can also retrieve all your e-tickets on your account page %(url)s." ) % { "event": event, "url": self.customer.get_full_url(), "eticket": self.get_eticket_full_url(), } self.customer.user.email_user( subject, message_txt, html_message=message_html, fail_silently=True ) def get_eticket_full_url(self): eticket_url = reverse("counter:eticket_pdf", kwargs={"selling_id": self.id}) return f"https://{settings.SITH_URL}{eticket_url}" class Permanency(models.Model): """A permanency of a barman, on a counter. This aims at storing a traceability of who was barman where and when. Mainly for ~~dick size contest~~ establishing the top 10 barmen of the semester. """ user = models.ForeignKey( User, related_name="permanencies", verbose_name=_("user"), on_delete=models.CASCADE, ) counter = models.ForeignKey( Counter, related_name="permanencies", verbose_name=_("counter"), on_delete=models.CASCADE, ) start = models.DateTimeField(_("start date")) end = models.DateTimeField(_("end date"), null=True, db_index=True) activity = models.DateTimeField(_("last activity date"), auto_now=True) class Meta: verbose_name = _("permanency") def __str__(self): return "%s in %s from %s (last activity: %s) to %s" % ( self.user, self.counter, self.start.strftime("%Y-%m-%d %H:%M:%S"), self.activity.strftime("%Y-%m-%d %H:%M:%S"), self.end.strftime("%Y-%m-%d %H:%M:%S") if self.end else "", ) @property def duration(self): if self.end is None: return self.activity - self.start return self.end - self.start class CashRegisterSummary(models.Model): user = models.ForeignKey( User, related_name="cash_summaries", verbose_name=_("user"), on_delete=models.CASCADE, ) counter = models.ForeignKey( Counter, related_name="cash_summaries", verbose_name=_("counter"), on_delete=models.CASCADE, ) date = models.DateTimeField(_("date")) comment = models.TextField(_("comment"), null=True, blank=True) emptied = models.BooleanField(_("emptied"), default=False) class Meta: verbose_name = _("cash register summary") def __str__(self): return "At %s by %s - Total: %s €" % (self.counter, self.user, self.get_total()) def save(self, *args, **kwargs): if not self.id: self.date = timezone.now() return super().save(*args, **kwargs) def get_absolute_url(self): return reverse("counter:cash_summary_list") def __getattribute__(self, name): if name[:5] == "check": checks = self.items.filter(check=True).order_by("value").all() if name == "ten_cents": return self.items.filter(value=0.1, is_check=False).first() elif name == "twenty_cents": return self.items.filter(value=0.2, is_check=False).first() elif name == "fifty_cents": return self.items.filter(value=0.5, is_check=False).first() elif name == "one_euro": return self.items.filter(value=1, is_check=False).first() elif name == "two_euros": return self.items.filter(value=2, is_check=False).first() elif name == "five_euros": return self.items.filter(value=5, is_check=False).first() elif name == "ten_euros": return self.items.filter(value=10, is_check=False).first() elif name == "twenty_euros": return self.items.filter(value=20, is_check=False).first() elif name == "fifty_euros": return self.items.filter(value=50, is_check=False).first() elif name == "hundred_euros": return self.items.filter(value=100, is_check=False).first() elif name == "check_1": return checks[0] if len(checks) > 0 else None elif name == "check_2": return checks[1] if len(checks) > 1 else None elif name == "check_3": return checks[2] if len(checks) > 2 else None elif name == "check_4": return checks[3] if len(checks) > 3 else None elif name == "check_5": return checks[4] if len(checks) > 4 else None else: return object.__getattribute__(self, name) def is_owned_by(self, user): """Method to see if that object can be edited by the given user.""" if user.is_anonymous: return False return user.is_in_group(pk=settings.SITH_GROUP_COUNTER_ADMIN_ID) def get_total(self): t = 0 for it in self.items.all(): t += it.quantity * it.value return t class CashRegisterSummaryItem(models.Model): cash_summary = models.ForeignKey( CashRegisterSummary, related_name="items", verbose_name=_("cash summary"), on_delete=models.CASCADE, ) value = CurrencyField(_("value")) quantity = models.IntegerField(_("quantity"), default=0) is_check = models.BooleanField( _("check"), default=False, help_text=_("True if this is a bank check, else False"), ) class Meta: verbose_name = _("cash register summary item") def __str__(self): return str(self.value) class Eticket(models.Model): """Eticket can be linked to a product an allows PDF generation.""" product = models.OneToOneField( Product, related_name="eticket", verbose_name=_("product"), on_delete=models.CASCADE, ) banner = models.ImageField( upload_to="etickets", null=True, blank=True, verbose_name=_("banner") ) event_date = models.DateField(_("event date"), null=True, blank=True) event_title = models.CharField( _("event title"), max_length=64, null=True, blank=True ) secret = models.CharField(_("secret"), max_length=64, unique=True) def __str__(self): return self.product.name def save(self, *args, **kwargs): if not self.id: self.secret = base64.b64encode(os.urandom(32)) return super().save(*args, **kwargs) def get_absolute_url(self): return reverse("counter:eticket_list") def is_owned_by(self, user): """Method to see if that object can be edited by the given user.""" if user.is_anonymous: return False return user.is_in_group(pk=settings.SITH_GROUP_COUNTER_ADMIN_ID) def get_hash(self, string): import hashlib import hmac return hmac.new( bytes(self.secret, "utf-8"), bytes(string, "utf-8"), hashlib.sha1 ).hexdigest() class StudentCard(models.Model): """Alternative way to connect a customer into a counter. We are using Mifare DESFire EV1 specs since it's used for izly cards https://www.nxp.com/docs/en/application-note/AN10927.pdf UID is 7 byte long that means 14 hexa characters. """ UID_SIZE = 14 uid = models.CharField( _("uid"), max_length=UID_SIZE, unique=True, validators=[MinLengthValidator(4)] ) customer = models.OneToOneField( Customer, related_name="student_card", verbose_name=_("student card"), on_delete=models.CASCADE, ) class Meta: verbose_name = _("student card") verbose_name_plural = _("student cards") def __str__(self): return self.uid @staticmethod def is_valid(uid: str) -> bool: return ( (uid.isupper() or uid.isnumeric()) and len(uid) == StudentCard.UID_SIZE and not StudentCard.objects.filter(uid=uid).exists() ) @staticmethod def can_create(customer, user): return user.pk == customer.user.pk or user.is_board_member or user.is_root def can_be_edited_by(self, obj): if isinstance(obj, User): return StudentCard.can_create(self.customer, obj) return False