from django.db import models from django.db.models import Q from django.contrib.auth import get_user_model from django.utils.translation import gettext_lazy as _ from django.core.validators import MinValueValidator from django.utils import timezone from django.core.exceptions import ObjectDoesNotExist, ValidationError from django.contrib.contenttypes.fields import GenericForeignKey from django.contrib.contenttypes.models import ContentType import logging from functools import reduce import itertools from math import ceil import datetime from calendar import monthrange from decimal import Decimal import uncloud_pay.stripe from uncloud_pay.helpers import beginning_of_month, end_of_month from uncloud_pay import AMOUNT_DECIMALS, AMOUNT_MAX_DIGITS, COUNTRIES from uncloud.models import UncloudModel, UncloudStatus from decimal import Decimal import decimal # Used to generate bill due dates. BILL_PAYMENT_DELAY=datetime.timedelta(days=10) # Initialize logger. logger = logging.getLogger(__name__) def start_of_month(a_day): """ Returns first of the month of a given datetime object""" return a_day.replace(day=1,hour=0,minute=0,second=0, microsecond=0) def end_of_month(a_day): """ Returns first of the month of a given datetime object""" _, last_day = monthrange(a_day.year, a_day.month) return a_day.replace(day=last_day,hour=23,minute=59,second=59, microsecond=0) def start_of_this_month(): """ Returns first of this month""" a_day = timezone.now() return a_day.replace(day=1,hour=0,minute=0,second=0, microsecond=0) def end_of_this_month(): """ Returns first of this month""" a_day = timezone.now() _, last_day = monthrange(a_day.year, a_day.month) return a_day.replace(day=last_day,hour=23,minute=59,second=59, microsecond=0) def default_payment_delay(): return timezone.now() + BILL_PAYMENT_DELAY # See https://docs.djangoproject.com/en/dev/ref/models/fields/#field-choices-enum-types class RecurringPeriod(models.IntegerChoices): """ We don't support months are years, because they vary in length. This is not only complicated, but also unfair to the user, as the user pays the same amount for different durations. """ PER_365D = 365*24*3600, _('Per 365 days') PER_30D = 30*24*3600, _('Per 30 days') PER_WEEK = 7*24*3600, _('Per Week') PER_DAY = 24*3600, _('Per Day') PER_HOUR = 3600, _('Per Hour') PER_MINUTE = 60, _('Per Minute') PER_SECOND = 1, _('Per Second') ONE_TIME = 0, _('Onetime') class CountryField(models.CharField): def __init__(self, *args, **kwargs): kwargs.setdefault('choices', COUNTRIES) kwargs.setdefault('default', 'CH') kwargs.setdefault('max_length', 2) super().__init__(*args, **kwargs) def get_internal_type(self): return "CharField" def get_balance_for_user(user): bills = reduce( lambda acc, entry: acc + entry.total, Bill.objects.filter(owner=user), 0) payments = reduce( lambda acc, entry: acc + entry.amount, Payment.objects.filter(owner=user), 0) return payments - bills class StripeCustomer(models.Model): owner = models.OneToOneField( get_user_model(), primary_key=True, on_delete=models.CASCADE) stripe_id = models.CharField(max_length=32) ### # Payments and Payment Methods. class Payment(models.Model): owner = models.ForeignKey(get_user_model(), on_delete=models.CASCADE) amount = models.DecimalField( default=0.0, max_digits=AMOUNT_MAX_DIGITS, decimal_places=AMOUNT_DECIMALS, validators=[MinValueValidator(0)]) source = models.CharField(max_length=256, choices = ( ('wire', 'Wire Transfer'), ('stripe', 'Stripe'), ('voucher', 'Voucher'), ('referral', 'Referral'), ('unknown', 'Unknown') ), default='unknown') timestamp = models.DateTimeField(editable=False, auto_now_add=True) # We override save() in order to active products awaiting payment. def save(self, *args, **kwargs): # _state.adding is switched to false after super(...) call. being_created = self._state.adding unpaid_bills_before_payment = Bill.get_unpaid_for(self.owner) super(Payment, self).save(*args, **kwargs) # Save payment in DB. unpaid_bills_after_payment = Bill.get_unpaid_for(self.owner) newly_paid_bills = list( set(unpaid_bills_before_payment) - set(unpaid_bills_after_payment)) for bill in newly_paid_bills: bill.activate_products() class PaymentMethod(models.Model): owner = models.ForeignKey(get_user_model(), on_delete=models.CASCADE, editable=False) source = models.CharField(max_length=256, choices = ( ('stripe', 'Stripe'), ('unknown', 'Unknown'), ), default='stripe') description = models.TextField() primary = models.BooleanField(default=False, editable=False) # Only used for "Stripe" source stripe_payment_method_id = models.CharField(max_length=32, blank=True, null=True) stripe_setup_intent_id = models.CharField(max_length=32, blank=True, null=True) @property def stripe_card_last4(self): if self.source == 'stripe' and self.active: payment_method = uncloud_pay.stripe.get_payment_method( self.stripe_payment_method_id) return payment_method.card.last4 else: return None @property def active(self): if self.source == 'stripe' and self.stripe_payment_method_id != None: return True else: return False def charge(self, amount): if not self.active: raise Exception('This payment method is inactive.') if amount < 0: # Make sure we don't charge negative amount by errors... raise Exception('Cannot charge negative amount.') if self.source == 'stripe': stripe_customer = StripeCustomer.objects.get(owner=self.owner).stripe_id stripe_payment = uncloud_pay.stripe.charge_customer( amount, stripe_customer, self.stripe_payment_method_id) if 'paid' in stripe_payment and stripe_payment['paid'] == False: raise Exception(stripe_payment['error']) else: payment = Payment.objects.create( owner=self.owner, source=self.source, amount=amount) return payment else: raise Exception('This payment method is unsupported/cannot be charged.') def set_as_primary_for(self, user): methods = PaymentMethod.objects.filter(owner=user, primary=True) for method in methods: print(method) method.primary = False method.save() self.primary = True self.save() def get_primary_for(user): methods = PaymentMethod.objects.filter(owner=user) for method in methods: # Do we want to do something with non-primary method? if method.active and method.primary: return method return None class Meta: # TODO: limit to one primary method per user. # unique_together is no good since it won't allow more than one # non-primary method. pass ### # Bills. class BillingAddress(models.Model): owner = models.ForeignKey(get_user_model(), on_delete=models.CASCADE) organization = models.CharField(max_length=100, blank=True, null=True) name = models.CharField(max_length=100) street = models.CharField(max_length=100) city = models.CharField(max_length=50) postal_code = models.CharField(max_length=50) country = CountryField(blank=True) vat_number = models.CharField(max_length=100, default="", blank=True) active = models.BooleanField(default=False) class Meta: constraints = [ models.UniqueConstraint(fields=['owner'], condition=Q(active=True), name='one_active_billing_address_per_user') ] @staticmethod def get_address_for(user): return BillingAddress.objects.get(owner=user, active=True) def __str__(self): return "{} - {}, {}, {} {}, {}".format( self.owner, self.name, self.street, self.postal_code, self.city, self.country) ### # VAT class VATRate(models.Model): start_date = models.DateField(blank=True, null=True) stop_date = models.DateField(blank=True, null=True) territory_codes = models.TextField(blank=True, default='') currency_code = models.CharField(max_length=10) rate = models.FloatField() rate_type = models.TextField(blank=True, default='') description = models.TextField(blank=True, default='') @staticmethod def get_for_country(country_code): vat_rate = None try: vat_rate = VATRate.objects.get( territory_codes=country_code, start_date__isnull=False, stop_date=None ) return vat_rate.rate except VATRate.DoesNotExist as dne: logger.debug(str(dne)) logger.debug("Did not find VAT rate for %s, returning 0" % country_code) return 0 ### # Orders. class Order(models.Model): """ Order are assumed IMMUTABLE and used as SOURCE OF TRUST for generating bills. Do **NOT** mutate then! """ owner = models.ForeignKey(get_user_model(), on_delete=models.CASCADE, editable=True) billing_address = models.ForeignKey(BillingAddress, on_delete=models.CASCADE) description = models.TextField() # TODO: enforce ending_date - starting_date to be larger than recurring_period. creation_date = models.DateTimeField(auto_now_add=True) starting_date = models.DateTimeField(default=timezone.now) ending_date = models.DateTimeField(blank=True, null=True) recurring_period = models.IntegerField(choices = RecurringPeriod.choices, default = RecurringPeriod.PER_30D) one_time_price = models.DecimalField(default=0.0, max_digits=AMOUNT_MAX_DIGITS, decimal_places=AMOUNT_DECIMALS, validators=[MinValueValidator(0)]) recurring_price = models.DecimalField(default=0.0, max_digits=AMOUNT_MAX_DIGITS, decimal_places=AMOUNT_DECIMALS, validators=[MinValueValidator(0)]) replaces = models.ForeignKey('self', related_name='replaced_by', on_delete=models.PROTECT, blank=True, null=True) depends_on = models.ForeignKey('self', related_name='parent_of', on_delete=models.PROTECT, blank=True, null=True) @property def count_billed(self): """ How many times this order was billed so far. This logic is mainly thought to be for recurring bills, but also works for one time bills """ return sum([ br.quantity for br in self.bill_records.all() ]) def active_before(self, ending_date): # Was this order started before the specified ending date? if self.starting_date <= ending_date: if self.ending_date: if self.ending_date > ending_date: pass @property def is_recurring(self): return not self.recurring_period == RecurringPeriod.ONE_TIME @property def is_terminated(self): return self.ending_date != None and self.ending_date < timezone.now() def is_terminated_at(self, a_date): return self.ending_date != None and self.ending_date < timezone.now() def terminate(self): if not self.is_terminated: self.ending_date = timezone.now() self.save() # Trigger initial bill generation at order creation. def save(self, *args, **kwargs): if self.ending_date and self.ending_date < self.starting_date: raise ValidationError("End date cannot be before starting date") super().save(*args, **kwargs) def generate_initial_bill(self): return Bill.generate_for(self.starting_date.year, self.starting_date.month, self.owner) # Used by uncloud_pay tests. @property def bills(self): return Bill.objects.filter(order=self) @staticmethod def from_product(product, **kwargs): # FIXME: this is only a workaround. billing_address = BillingAddress.get_preferred_address_for(product.owner) if billing_address == None: raise Exception("Owner does not have a billing address!") return Order(description=product.description, one_time_price=product.one_time_price, recurring_price=product.recurring_price, billing_address=billing_address, owner=product.owner, **kwargs) @property def records(self): return OrderRecord.objects.filter(order=self) # these are real fields!!! # @property # def one_time_price(self): # return reduce(lambda acc, record: acc + record.one_time_price, self.records, 0) # @property # def recurring_price(self): # return reduce(lambda acc, record: acc + record.recurring_price, self.records, 0) # Used by uncloud_pay tests. @property def bills(self): return Bill.objects.filter(order=self) def add_record(self, one_time_price, recurring_price, description): OrderRecord.objects.create(order=self, one_time_price=one_time_price, recurring_price=recurring_price, description=description) def __str__(self): return f"Order {self.owner}-{self.id}" # return "{} created at {}, {}->{}, recurring period {}. One time price {}, recurring price {}".format( # self.id, self.creation_date, # self.starting_date, self.ending_date, # self.recurring_period, # self.one_time_price, # self.recurring_price) class Bill(models.Model): owner = models.ForeignKey(get_user_model(), on_delete=models.CASCADE) creation_date = models.DateTimeField(auto_now_add=True) # FIXME: this is a race condition, if ending_date is evaluated # in the next month the bill spawns two months! starting_date = models.DateTimeField(default=start_of_this_month) ending_date = models.DateTimeField(default=end_of_this_month) due_date = models.DateField(default=default_payment_delay) valid = models.BooleanField(default=True) # Mapping to BillRecords # https://stackoverflow.com/questions/4443190/djangos-manytomany-relationship-with-additional-fields bill_records = models.ManyToManyField(Order, through="BillRecord") class Meta: constraints = [ models.UniqueConstraint(fields=['owner', 'starting_date', 'ending_date' ], name='one_bill_per_month_per_user') ] # billing address and vat rate is the same for the whole bill # @property # def vat_rate(self): # return Decimal(VATRate.get_for_country(self.bill.billing_address.country)) def __str__(self): return f"Bill {self.owner}-{self.id}" @classmethod def create_all_bills(cls): for owner in get_user_model().objects.all(): # mintime = time of first order # maxtime = time of last order # iterate month based through it cls.assign_orders_to_bill(owner, year, month) pass def assign_orders_to_bill(self, owner, year, month): """ Generate a bill for the specific month of a user. First handle all one time orders FIXME: - limit this to active users in the future! (2020-05-23) """ """ Find all one time orders that have a starting date that falls into this month recurring_period=RecurringPeriod.ONE_TIME, Can we do this even for recurring / all of them """ # FIXME: add something to check whether the order should be billed at all - i.e. a marker that # disables searching -> optimization for later # Create the initial bill record # FIXME: maybe limit not even to starting/ending date, but to empty_bill record -- to be fixed in the future # for order in Order.objects.filter(Q(starting_date__gte=self.starting_date), # Q(starting_date__lte=self.ending_date), # FIXME below: only check for active orders # Ensure all orders of that owner have at least one bill record for order in Order.objects.filter(owner=owner, bill_records=None): bill_record = BillRecord.objects.create(bill=self, quantity=1, starting_date=order.starting_date, ending_date=order.starting_date + timedelta(seconds=order.recurring_period)) # For each recurring order get the usage and bill it for order in Order.objects.filter(~Q(recurring_period=RecurringPeriod.ONE_TIME), Q(starting_date__lt=self.starting_date), owner=owner): if order.recurring_period > 0: # avoid div/0 - these are one time payments # How much time will have passed by the end of the billing cycle td = self.ending_date - order.starting_date # How MANY times it will have been used by then used_times = ceil(td / timedelta(seconds=order.recurring_period)) billed_times = len(order.bills) # How many times it WAS billed -- can also be inferred from the bills that link to it! if used_times > billed_times: billing_times = used_times - billed_times # ALSO REGISTER THE TIME PERIOD! pass class BillRecord(models.Model): """ Entry of a bill, dynamically generated from an order. """ bill = models.ForeignKey(Bill, on_delete=models.CASCADE) order = models.ForeignKey(Order, on_delete=models.CASCADE) # How many times the order has been used in this record quantity = models.IntegerField(default=1) # The timeframe the bill record is for can (and probably often will) differ # from the bill time creation_date = models.DateTimeField(auto_now_add=True) starting_date = models.DateTimeField() ending_date = models.DateTimeField() def __str__(self): return f"{self.bill}: {self.quantity} x {self.order}" class OrderRecord(models.Model): """ Order records store billing informations for products: the actual product might be mutated and/or moved to another order but we do not want to loose the details of old orders. Used as source of trust to dynamically generate bill entries. """ order = models.ForeignKey(Order, on_delete=models.CASCADE) one_time_price = models.DecimalField(default=0.0, max_digits=AMOUNT_MAX_DIGITS, decimal_places=AMOUNT_DECIMALS, validators=[MinValueValidator(0)]) recurring_price = models.DecimalField(default=0.0, max_digits=AMOUNT_MAX_DIGITS, decimal_places=AMOUNT_DECIMALS, validators=[MinValueValidator(0)]) description = models.TextField() @property def recurring_period(self): return self.order.recurring_period @property def starting_date(self): return self.order.starting_date @property def ending_date(self): return self.order.ending_date ### # Products class Product(UncloudModel): owner = models.ForeignKey(get_user_model(), on_delete=models.CASCADE, editable=False) description = "Generic Product" order = models.ForeignKey(Order, on_delete=models.CASCADE, editable=True, null=True) # FIXME: editable=True -> is in the admin, but also editable in DRF status = models.CharField(max_length=32, choices=UncloudStatus.choices, default=UncloudStatus.AWAITING_PAYMENT) # Default period for all products default_recurring_period = RecurringPeriod.PER_30D def create_or_update_order(self, when_to_start=None): if not when_to_start: when_to_start = timezone.now() if not self.order: billing_address = BillingAddress.get_address_for(self.owner) if not billing_address: raise ValidationError("Cannot order without a billing address") self.order = Order.objects.create(owner=self.owner, billing_address=billing_address, starting_date=when_to_start, one_time_price=self.one_time_price, recurring_period=self.default_recurring_period, recurring_price=self.recurring_price, description=str(self)) else: previous_order = self.order when_to_end = when_to_start - datetime.timedelta(seconds=1) new_order = Order.objects.create(owner=self.owner, billing_address=self.order.billing_address, starting_date=when_to_start, one_time_price=self.one_time_price, recurring_period=self.default_recurring_period, recurring_price=self.recurring_price, description=str(self), replaces=self.order) self.order.end_date = when_to_end self.order.save() self.order = new_order def save(self, *args, **kwargs): # Create order the first time a product is created if self._state.adding: self.create_or_update_order() super().save(*args, **kwargs) @property def recurring_price(self): pass # To be implemented in child. @property def one_time_price(self): """ Default is 0 CHF """ return 0 @property def billing_address(self): return self.order.billing_address @staticmethod def allowed_recurring_periods(): return RecurringPeriod.choices class Meta: abstract = True def discounted_price_by_period(self, requested_period): """ Each product has a standard recurring period for which we define a pricing. I.e. VPN is usually year, VM is usually monthly. The user can opt-in to use a different period, which influences the price: The longer a user commits, the higher the discount. Products can also be limited in the available periods. For instance a VPN only makes sense to be bought for at least one day. Rules are as follows: given a standard recurring period of ..., changing to ... modifies price ... # One month for free if buying / year, compared to a month: about 8.33% discount per_year -> per_month -> /11 per_month -> per_year -> *11 # Month has 30.42 days on average. About 7.9% discount to go monthly per_month -> per_day -> /28 per_day -> per_month -> *28 # Day has 24h, give one for free per_day -> per_hour -> /23 per_hour -> per_day -> /23 Examples VPN @ 120CHF/y becomes - 10.91 CHF/month (130.91 CHF/year) - 0.39 CHF/day (142.21 CHF/year) VM @ 15 CHF/month becomes - 165 CHF/month (13.75 CHF/month) - 0.54 CHF/day (16.30 CHF/month) """ if self.default_recurring_period == RecurringPeriod.PER_365D: if requested_period == RecurringPeriod.PER_365D: return self.recurring_price if requested_period == RecurringPeriod.PER_30D: return self.recurring_price/11. if requested_period == RecurringPeriod.PER_DAY: return self.recurring_price/11./28. elif self.default_recurring_period == RecurringPeriod.PER_30D: if requested_period == RecurringPeriod.PER_365D: return self.recurring_price*11 if requested_period == RecurringPeriod.PER_30D: return self.recurring_price if requested_period == RecurringPeriod.PER_DAY: return self.recurring_price/28. elif self.default_recurring_period == RecurringPeriod.PER_DAY: if requested_period == RecurringPeriod.PER_365D: return self.recurring_price*11*28 if requested_period == RecurringPeriod.PER_30D: return self.recurring_price*28 if requested_period == RecurringPeriod.PER_DAY: return self.recurring_price else: # FIXME: use the right type of exception here! raise Exception("Did not implement the discounter for this case")