from django.db import transaction
from django.shortcuts import render
from django.utils import timezone

from django.contrib.auth.models import User
from django.shortcuts import get_object_or_404

from rest_framework import viewsets, permissions
from rest_framework.response import Response
from rest_framework.exceptions import ValidationError

from .models import VMHost, VMProduct, VMSnapshotProduct, VMDiskProduct, VMDiskImageProduct, VMCluster
from uncloud_pay.models import Order, BillingAddress

from .serializers import *
from uncloud_pay.helpers import ProductViewSet

import datetime

###
# Generic disk image views. Do not require orders / billing.

class VMDiskImageProductViewSet(ProductViewSet):
    permission_classes = [permissions.IsAuthenticated]
    serializer_class = VMDiskImageProductSerializer

    def get_queryset(self):
        if self.request.user.is_superuser:
            obj = VMDiskImageProduct.objects.all()
        else:
            obj = VMDiskImageProduct.objects.filter(owner=self.request.user) | VMDiskImageProduct.objects.filter(is_public=True)

        return obj


    def create(self, request):
        serializer = VMDiskImageProductSerializer(data=request.data, context={'request': request})
        serializer.is_valid(raise_exception=True)

        # did not specify size NOR import url?
        if not serializer.validated_data['size_in_gb']:
            if not serializer.validated_data['import_url']:
                raise ValidationError(detail={ 'error_mesage': 'Specify either import_url or size_in_gb' })

        serializer.save(owner=request.user)
        return Response(serializer.data)

class VMDiskImageProductPublicViewSet(viewsets.ReadOnlyModelViewSet):
    permission_classes = [permissions.IsAuthenticated]
    serializer_class = VMDiskImageProductSerializer

    def get_queryset(self):
        return VMDiskImageProduct.objects.filter(is_public=True)

###
# User VM disk and snapshots.

class VMDiskProductViewSet(viewsets.ModelViewSet):
    """
    Let a user modify their own VMDisks
    """
    permission_classes = [permissions.IsAuthenticated]
    serializer_class = VMDiskProductSerializer

    def get_queryset(self):
        if self.request.user.is_superuser:
            obj = VMDiskProduct.objects.all()
        else:
            obj = VMDiskProduct.objects.filter(owner=self.request.user)

        return obj

    def create(self, request):
        serializer = VMDiskProductSerializer(data=request.data, context={'request': request})
        serializer.is_valid(raise_exception=True)

        # get disk size from image, if not specified
        if not 'size_in_gb' in serializer.validated_data:
            size_in_gb = serializer.validated_data['image'].size_in_gb
        else:
            size_in_gb = serializer.validated_data['size_in_gb']

        if size_in_gb < serializer.validated_data['image'].size_in_gb:
            raise ValidationError(detail={ 'error_mesage': 'Size is smaller than original image' })

        serializer.save(owner=request.user, size_in_gb=size_in_gb)
        return Response(serializer.data)

class VMSnapshotProductViewSet(viewsets.ModelViewSet):
    permission_classes = [permissions.IsAuthenticated]
    serializer_class = VMSnapshotProductSerializer

    def get_queryset(self):
        if self.request.user.is_superuser:
            obj = VMSnapshotProduct.objects.all()
        else:
            obj = VMSnapshotProduct.objects.filter(owner=self.request.user)

        return obj

    def create(self, request):
        serializer = VMSnapshotProductSerializer(data=request.data, context={'request': request})

        # This verifies that the VM belongs to the request user
        serializer.is_valid(raise_exception=True)

        vm = vm=serializer.validated_data['vm']
        disks = VMDiskProduct.objects.filter(vm=vm)
        ssds_size = sum([d.size_in_gb for d in disks if d.image.storage_class == 'ssd'])
        hdds_size = sum([d.size_in_gb for d in disks if d.image.storage_class == 'hdd'])

        recurring_price = serializer.pricing['per_gb_ssd'] * ssds_size + serializer.pricing['per_gb_hdd'] * hdds_size
        recurring_period = serializer.pricing['recurring_period']

        # Create order
        now = datetime.datetime.now()
        order = Order(owner=request.user,
                      recurring_period=recurring_period)
        order.save()
        order.add_record(one_time_price=0,
                         recurring_price=recurring_price,
                         description="Snapshot of VM {} from {}".format(vm, now))

        serializer.save(owner=request.user,
                        order=order,
                        gb_ssd=ssds_size,
                        gb_hdd=hdds_size)

        return Response(serializer.data)

###
# User VMs.

class VMProductViewSet(ProductViewSet):
    permission_classes = [permissions.IsAuthenticated]

    def get_queryset(self):
        if self.request.user.is_superuser:
            obj = VMWithOSProduct.objects.all()
        else:
            obj = VMWithOSProduct.objects.filter(owner=self.request.user)

        return obj

    def get_serializer_class(self):
        if self.action == 'create':
            return OrderVMProductSerializer
        else:
            return VMProductSerializer

    # Use a database transaction so that we do not get half-created structure
    # if something goes wrong.
    @transaction.atomic
    def create(self, request):
        # Extract serializer data.
        serializer = self.get_serializer(data=request.data)
        serializer.is_valid(raise_exception=True)
        order_recurring_period = serializer.validated_data.pop("recurring_period")

        # Create disk image.
        disk = VMDiskProduct(owner=request.user,
                **serializer.validated_data.pop("primary_disk"))
        vm = VMWithOSProduct(owner=request.user, primary_disk=disk,
                **serializer.validated_data)
        disk.vm = vm # XXX: Is this really needed?

        # Create VM and Disk orders.
        vm_order = Order.from_product(
                vm,
                recurring_period=order_recurring_period,
                starting_date=timezone.now()
                )

        disk_order = Order.from_product(
                disk,
                recurring_period=order_recurring_period,
                starting_date=timezone.now(),
                depends_on=vm_order
                )


        # Commit to DB.
        vm.order = vm_order
        vm.save()
        vm_order.save()

        disk.order = disk_order
        disk_order.save()
        disk.save()

        return Response(VMProductSerializer(vm, context={'request': request}).data)

class NicoVMProductViewSet(ProductViewSet):
    permission_classes = [permissions.IsAuthenticated]
    serializer_class = NicoVMProductSerializer

    def get_queryset(self):
        obj = VMProduct.objects.filter(owner=self.request.user)
        return obj

    def create(self, request):
        serializer = self.serializer_class(data=request.data, context={'request': request})
        serializer.is_valid(raise_exception=True)
        vm = serializer.save(owner=request.user)

        return Response(serializer.data)


###
# Admin stuff.

class VMHostViewSet(viewsets.ModelViewSet):
    serializer_class = VMHostSerializer
    queryset = VMHost.objects.all()
    permission_classes = [permissions.IsAdminUser]

class VMClusterViewSet(viewsets.ModelViewSet):
    serializer_class = VMClusterSerializer
    queryset = VMCluster.objects.all()
    permission_classes = [permissions.IsAdminUser]

##
# Nico's playground.

# Also create:
# - /dcl/available_os
#   Basically a view of public and my disk images
# -
class DCLCreateVMProductViewSet(ProductViewSet):
    """
    This view resembles the way how DCL VMs are created by default.

    The user chooses an OS, os disk size, ram, cpu and whether or not to have a mapped IPv4 address
    """

    permission_classes = [permissions.IsAuthenticated]
    serializer_class = DCLVMProductSerializer

    def get_queryset(self):
        return VMProduct.objects.filter(owner=self.request.user)

    # Use a database transaction so that we do not get half-created structure
    # if something goes wrong.
    @transaction.atomic
    def create(self, request):
        # Extract serializer data.
        serializer = VMProductSerializer(data=request.data, context={'request': request})
        serializer.is_valid(raise_exception=True)
        order_recurring_period = serializer.validated_data.pop("recurring_period")

        # Create base order.
        order = Order.objects.create(
                recurring_period=order_recurring_period,
                owner=request.user
                )
        order.save()

        # Create VM.
        vm = serializer.save(owner=request.user, order=order)

        return Response(serializer.data)