from django.test import TestCase from ipam.choices import IPAddressStatusChoices, PrefixStatusChoices from ipam.models import IPAddress, Prefix, VRF import netaddr class OrderingTestBase(TestCase): vrfs = None def setUp(self): """ Setup the VRFs for the class as a whole """ self.vrfs = (VRF(name="VRF A"), VRF(name="VRF B"), VRF(name="VRF C")) VRF.objects.bulk_create(self.vrfs) def _compare(self, queryset, objectset): """ Perform the comparison of the queryset object and the object used to instantiate the queryset. """ for i, obj in enumerate(queryset): self.assertEqual(obj, objectset[i]) def _compare_ne(self, queryset, objectset): """ Perform the comparison of the queryset object and the object used to instantiate the queryset. """ for i, obj in enumerate(queryset): self.assertNotEqual(obj, objectset[i]) class PrefixOrderingTestCase(OrderingTestBase): def test_prefix_vrf_ordering(self): """ This is a very basic test, which tests both prefixes without VRFs and prefixes with VRFs """ # Setup VRFs vrfa, vrfb, vrfc = self.vrfs # Setup Prefixes prefixes = ( Prefix(status=PrefixStatusChoices.STATUS_CONTAINER, vrf=None, prefix=netaddr.IPNetwork('192.168.0.0/16')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=None, prefix=netaddr.IPNetwork('192.168.0.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=None, prefix=netaddr.IPNetwork('192.168.1.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=None, prefix=netaddr.IPNetwork('192.168.2.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=None, prefix=netaddr.IPNetwork('192.168.3.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=None, prefix=netaddr.IPNetwork('192.168.4.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=None, prefix=netaddr.IPNetwork('192.168.5.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.0.0.0/8')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.0.0.0/16')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.0.0.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.0.1.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.0.2.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.0.3.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.0.4.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.1.0.0/16')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.1.1.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.1.2.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.1.3.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.1.4.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.2.0.0/16')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.2.1.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.2.2.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.2.3.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.2.4.0/24')), Prefix(status=PrefixStatusChoices.STATUS_CONTAINER, vrf=vrfb, prefix=netaddr.IPNetwork('172.16.0.0/12')), Prefix(status=PrefixStatusChoices.STATUS_CONTAINER, vrf=vrfb, prefix=netaddr.IPNetwork('172.16.0.0/16')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfb, prefix=netaddr.IPNetwork('172.16.0.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfb, prefix=netaddr.IPNetwork('172.16.1.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfb, prefix=netaddr.IPNetwork('172.16.2.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfb, prefix=netaddr.IPNetwork('172.16.3.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfb, prefix=netaddr.IPNetwork('172.16.4.0/24')), Prefix(status=PrefixStatusChoices.STATUS_CONTAINER, vrf=vrfb, prefix=netaddr.IPNetwork('172.17.0.0/16')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfb, prefix=netaddr.IPNetwork('172.17.0.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfb, prefix=netaddr.IPNetwork('172.17.1.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfb, prefix=netaddr.IPNetwork('172.17.2.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfb, prefix=netaddr.IPNetwork('172.17.3.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfb, prefix=netaddr.IPNetwork('172.17.4.0/24')), ) Prefix.objects.bulk_create(prefixes) # Test self._compare(Prefix.objects.all(), prefixes) def test_prefix_complex_ordering(self): """ This function tests a complex ordering of interwoven prefixes and vrfs. This is the current expected ordering of VRFs This includes the testing of the Container status. The proper ordering, to get proper containerization should be: None:10.0.0.0/8 None:10.0.0.0/16 VRF A:10.0.0.0/24 VRF A:10.0.1.0/24 VRF A:10.0.1.0/25 None:10.1.0.0/16 VRF A:10.1.0.0/24 VRF A:10.1.1.0/24 None: 192.168.0.0/16 """ # Setup VRFs vrfa, vrfb, vrfc = self.vrfs # Setup Prefixes prefixes = [ Prefix(status=PrefixStatusChoices.STATUS_CONTAINER, vrf=None, prefix=netaddr.IPNetwork('10.0.0.0/8')), Prefix(status=PrefixStatusChoices.STATUS_CONTAINER, vrf=None, prefix=netaddr.IPNetwork('10.0.0.0/16')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=None, prefix=netaddr.IPNetwork('10.1.0.0/16')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=None, prefix=netaddr.IPNetwork('192.168.0.0/16')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.0.0.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.0.1.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.0.1.0/25')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.1.0.0/24')), Prefix(status=PrefixStatusChoices.STATUS_ACTIVE, vrf=vrfa, prefix=netaddr.IPNetwork('10.1.1.0/24')), ] Prefix.objects.bulk_create(prefixes) # Test self._compare(Prefix.objects.all(), prefixes) class IPAddressOrderingTestCase(OrderingTestBase): def test_address_vrf_ordering(self): """ This function tests ordering with the inclusion of vrfs """ # Setup VRFs vrfa, vrfb, vrfc = self.vrfs # Setup Addresses addresses = ( IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfa, address=netaddr.IPNetwork('10.0.0.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfa, address=netaddr.IPNetwork('10.0.1.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfa, address=netaddr.IPNetwork('10.0.2.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfa, address=netaddr.IPNetwork('10.0.3.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfa, address=netaddr.IPNetwork('10.0.4.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfa, address=netaddr.IPNetwork('10.1.0.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfa, address=netaddr.IPNetwork('10.1.1.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfa, address=netaddr.IPNetwork('10.1.2.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfa, address=netaddr.IPNetwork('10.1.3.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfa, address=netaddr.IPNetwork('10.1.4.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfa, address=netaddr.IPNetwork('10.2.0.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfa, address=netaddr.IPNetwork('10.2.1.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfa, address=netaddr.IPNetwork('10.2.2.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfa, address=netaddr.IPNetwork('10.2.3.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfa, address=netaddr.IPNetwork('10.2.4.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfb, address=netaddr.IPNetwork('172.16.0.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfb, address=netaddr.IPNetwork('172.16.1.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfb, address=netaddr.IPNetwork('172.16.2.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfb, address=netaddr.IPNetwork('172.16.3.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfb, address=netaddr.IPNetwork('172.16.4.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfb, address=netaddr.IPNetwork('172.17.0.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfb, address=netaddr.IPNetwork('172.17.1.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfb, address=netaddr.IPNetwork('172.17.2.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfb, address=netaddr.IPNetwork('172.17.3.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=vrfb, address=netaddr.IPNetwork('172.17.4.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=None, address=netaddr.IPNetwork('192.168.0.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=None, address=netaddr.IPNetwork('192.168.1.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=None, address=netaddr.IPNetwork('192.168.2.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=None, address=netaddr.IPNetwork('192.168.3.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=None, address=netaddr.IPNetwork('192.168.4.1/24')), IPAddress(status=IPAddressStatusChoices.STATUS_ACTIVE, vrf=None, address=netaddr.IPNetwork('192.168.5.1/24')), ) IPAddress.objects.bulk_create(addresses) # Test self._compare(IPAddress.objects.all(), addresses)