# This file is part of Ansible # # Ansible is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # Ansible is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with Ansible. If not, see . # Make coding more python3-ish from __future__ import (absolute_import, division, print_function) __metaclass__ = type from ansible.compat.tests import unittest from ansible.plugins.filter.ipaddr import (ipaddr, _netmask_query, nthhost, next_nth_usable, previous_nth_usable, network_in_usable, network_in_network) class TestIpFilter(unittest.TestCase): def test_netmask(self): address = '1.1.1.1/24' self.assertEqual(ipaddr(address, 'netmask'), '255.255.255.0') address = '1.1.1.1/25' self.assertEqual(ipaddr(address, 'netmask'), '255.255.255.128') address = '1.12.1.34/32' self.assertEqual(ipaddr(address, 'netmask'), '255.255.255.255') def test_network(self): # Unfixable in current state # address = '1.12.1.34/32' # self.assertEqual(ipaddr(address, 'network'), '1.12.1.34') # address = '1.12.1.34/255.255.255.255' # self.assertEqual(ipaddr(address, 'network'), '1.12.1.34') # address = '1.12.1.34' # self.assertEqual(ipaddr(address, 'network'), '1.12.1.34') # address = '1.12.1.35/31' # self.assertEqual(ipaddr(address, 'network'), '1.12.1.34') address = '1.12.1.34/24' self.assertEqual(ipaddr(address, 'network'), '1.12.1.0') def test_broadcast(self): address = '1.12.1.34/24' self.assertEqual(ipaddr(address, 'broadcast'), '1.12.1.255') address = '1.12.1.34/16' self.assertEqual(ipaddr(address, 'broadcast'), '1.12.255.255') address = '1.12.1.34/27' self.assertEqual(ipaddr(address, 'broadcast'), '1.12.1.63') address = '1.12.1.34/32' self.assertEqual(ipaddr(address, 'broadcast'), None) address = '1.12.1.35/31' self.assertEqual(ipaddr(address, 'broadcast'), None) def test_first_usable(self): address = '1.12.1.0/24' self.assertEqual(ipaddr(address, 'first_usable'), '1.12.1.1') address = '1.12.1.36/24' self.assertEqual(ipaddr(address, 'first_usable'), '1.12.1.1') # address = '1.12.1.34' # self.assertFalse(ipaddr(address, 'first_usable'), 'Not a network address') address = '1.12.1.36/28' self.assertEqual(ipaddr(address, 'first_usable'), '1.12.1.33') address = '1.12.1.36/255.255.255.240' self.assertEqual(ipaddr(address, 'first_usable'), '1.12.1.33') address = '1.12.1.36/31' self.assertEqual(ipaddr(address, 'first_usable'), '1.12.1.36') address = '1.12.1.37/31' self.assertEqual(ipaddr(address, 'first_usable'), '1.12.1.36') address = '1.12.1.36/32' self.assertEqual(ipaddr(address, 'first_usable'), None) def test_last_usable(self): address = '1.12.1.0/24' self.assertEqual(ipaddr(address, 'last_usable'), '1.12.1.254') address = '1.12.1.36/24' self.assertEqual(ipaddr(address, 'last_usable'), '1.12.1.254') # address = '1.12.1.34' # self.assertFalse(ipaddr(address, 'last_usable'), 'Not a network address') address = '1.12.1.36/28' self.assertEqual(ipaddr(address, 'last_usable'), '1.12.1.46') address = '1.12.1.36/255.255.255.240' self.assertEqual(ipaddr(address, 'last_usable'), '1.12.1.46') address = '1.12.1.36/31' self.assertEqual(ipaddr(address, 'last_usable'), '1.12.1.37') address = '1.12.1.37/31' self.assertEqual(ipaddr(address, 'last_usable'), '1.12.1.37') address = '1.12.1.36/32' self.assertEqual(ipaddr(address, 'last_usable'), None) def test_wildcard(self): address = '1.12.1.0/24' self.assertEqual(ipaddr(address, 'wildcard'), '0.0.0.255') address = '1.12.1.0/25' self.assertEqual(ipaddr(address, 'wildcard'), '0.0.0.127') # address = '1.12.1.34' # self.assertFalse(ipaddr(address, 'last_usable'), 'Not a network address') address = '1.12.1.36/28' self.assertEqual(ipaddr(address, 'wildcard'), '0.0.0.15') address = '1.12.1.36/255.255.255.240' self.assertEqual(ipaddr(address, 'wildcard'), '0.0.0.15') address = '1.12.1.36/31' self.assertEqual(ipaddr(address, 'wildcard'), '0.0.0.1') address = '1.12.1.37/31' self.assertEqual(ipaddr(address, 'wildcard'), '0.0.0.1') address = '1.12.1.36/32' self.assertEqual(ipaddr(address, 'wildcard'), '0.0.0.0') address = '1.12.1.254/24' self.assertEqual(ipaddr(address, 'wildcard'), '0.0.0.255') def test_size_usable(self): address = '1.12.1.0/24' self.assertEqual(ipaddr(address, 'size_usable'), 254) address = '1.12.1.0/25' self.assertEqual(ipaddr(address, 'size_usable'), 126) # address = '1.12.1.34' # self.assertFalse(ipaddr(address, 'last_usable'), 'Not a network address') address = '1.12.1.36/28' self.assertEqual(ipaddr(address, 'size_usable'), 14) address = '1.12.1.36/255.255.255.240' self.assertEqual(ipaddr(address, 'size_usable'), 14) address = '1.12.1.36/31' self.assertEqual(ipaddr(address, 'size_usable'), 2) address = '1.12.1.37/31' self.assertEqual(ipaddr(address, 'size_usable'), 2) address = '1.12.1.36/32' self.assertEqual(ipaddr(address, 'size_usable'), 0) address = '1.12.1.254/24' self.assertEqual(ipaddr(address, 'size_usable'), 254) def test_range_usable(self): address = '1.12.1.0/24' self.assertEqual(ipaddr(address, 'range_usable'), '1.12.1.1-1.12.1.254') address = '1.12.1.0/25' self.assertEqual(ipaddr(address, 'range_usable'), '1.12.1.1-1.12.1.126') # address = '1.12.1.34' # self.assertFalse(ipaddr(address, 'last_usable'), 'Not a network address') address = '1.12.1.36/28' self.assertEqual(ipaddr(address, 'range_usable'), '1.12.1.33-1.12.1.46') address = '1.12.1.36/255.255.255.240' self.assertEqual(ipaddr(address, 'range_usable'), '1.12.1.33-1.12.1.46') address = '1.12.1.36/31' self.assertEqual(ipaddr(address, 'range_usable'), '1.12.1.36-1.12.1.37') address = '1.12.1.37/31' self.assertEqual(ipaddr(address, 'range_usable'), '1.12.1.36-1.12.1.37') address = '1.12.1.36/32' self.assertEqual(ipaddr(address, 'range_usable'), None) address = '1.12.1.254/24' self.assertEqual(ipaddr(address, 'range_usable'), '1.12.1.1-1.12.1.254') def test_address_prefix(self): address = '1.12.1.0/24' self.assertEqual(ipaddr(address, 'address/prefix'), None) address = '1.12.1.0/25' self.assertEqual(ipaddr(address, 'address/prefix'), None) # address = '1.12.1.34' # self.assertFalse(ipaddr(address, 'last_usable'), 'Not a network address') address = '1.12.1.36/28' self.assertEqual(ipaddr(address, 'address/prefix'), '1.12.1.36/28') address = '1.12.1.36/255.255.255.240' self.assertEqual(ipaddr(address, 'address/prefix'), '1.12.1.36/28') # address = '1.12.1.36/31' # self.assertEqual(ipaddr(address, 'address/prefix'), '1.12.1.36/31') - unfixable? # address = '1.12.1.37/31' # self.assertEqual(ipaddr(address, 'address/prefix'), '1.12.1.37/31') - unfixable? address = '1.12.1.36/32' self.assertEqual(ipaddr(address, 'address/prefix'), None) address = '1.12.1.254/24' self.assertEqual(ipaddr(address, 'address/prefix'), '1.12.1.254/24') def test_ip_prefix(self): address = '1.12.1.0/24' self.assertEqual(ipaddr(address, 'ip/prefix'), None) address = '1.12.1.0/25' self.assertEqual(ipaddr(address, 'ip/prefix'), None) # address = '1.12.1.34' # self.assertFalse(ipaddr(address, 'last_usable'), 'Not a network address') address = '1.12.1.36/28' self.assertEqual(ipaddr(address, 'ip/prefix'), '1.12.1.36/28') address = '1.12.1.36/255.255.255.240' self.assertEqual(ipaddr(address, 'ip/prefix'), '1.12.1.36/28') address = '1.12.1.36/31' self.assertEqual(ipaddr(address, 'ip/prefix'), '1.12.1.36/31') address = '1.12.1.37/31' self.assertEqual(ipaddr(address, 'ip/prefix'), '1.12.1.37/31') address = '1.12.1.36/32' self.assertEqual(ipaddr(address, 'ip/prefix'), None) address = '1.12.1.254/24' self.assertEqual(ipaddr(address, 'ip/prefix'), '1.12.1.254/24') def test_ip_netmask(self): address = '1.12.1.0/24' self.assertEqual(ipaddr(address, 'ip_netmask'), None) address = '1.12.1.0/25' self.assertEqual(ipaddr(address, 'ip_netmask'), None) address = '1.12.1.36/28' self.assertEqual(ipaddr(address, 'ip_netmask'), '1.12.1.36 255.255.255.240') address = '1.12.1.36/255.255.255.240' self.assertEqual(ipaddr(address, 'ip_netmask'), '1.12.1.36 255.255.255.240') address = '1.12.1.36/31' self.assertEqual(ipaddr(address, 'ip_netmask'), '1.12.1.36 255.255.255.254') address = '1.12.1.37/31' self.assertEqual(ipaddr(address, 'ip_netmask'), '1.12.1.37 255.255.255.254') address = '1.12.1.36/32' self.assertEqual(ipaddr(address, 'ip_netmask'), None) address = '1.12.1.254/24' self.assertEqual(ipaddr(address, 'ip_netmask'), '1.12.1.254 255.255.255.0') ''' def test_ip_wildcard(self): address = '1.12.1.0/24' self.assertEqual(ipaddr(address, 'ip_wildcard'), None) address = '1.12.1.0/25' self.assertEqual(ipaddr(address, 'ip_wildcard'), None) #address = '1.12.1.34' #self.assertFalse(ipaddr(address, 'last_usable'), 'Not a network address') address = '1.12.1.36/28' self.assertEqual(ipaddr(address, 'ip_wildcard'), '1.12.1.36 0.0.0.15') address = '1.12.1.36/255.255.255.240' self.assertEqual(ipaddr(address, 'ip_wildcard'), '1.12.1.36 0.0.0.15') address = '1.12.1.36/31' self.assertEqual(ipaddr(address, 'ip_wildcard'), '1.12.1.36 0.0.0.1') address = '1.12.1.37/31' self.assertEqual(ipaddr(address, 'ip_wildcard'), '1.12.1.37 0.0.0.1') address = '1.12.1.36/32' self.assertEqual(ipaddr(address, 'ip_wildcard'), None) address = '1.12.1.254/24' self.assertEqual(ipaddr(address, 'ip_wildcard'), '1.12.1.254 0.0.0.255') ''' def test_network_id(self): address = '1.12.1.0/24' self.assertEqual(ipaddr(address, 'network_id'), '1.12.1.0') address = '1.12.1.0/25' self.assertEqual(ipaddr(address, 'network_id'), '1.12.1.0') # address = '1.12.1.34' # self.assertFalse(ipaddr(address, 'last_usable'), 'Not a network address') address = '1.12.1.36/28' self.assertEqual(ipaddr(address, 'network_id'), '1.12.1.32') address = '1.12.1.36/255.255.255.240' self.assertEqual(ipaddr(address, 'network_id'), '1.12.1.32') address = '1.12.1.36/31' self.assertEqual(ipaddr(address, 'network_id'), '1.12.1.36') address = '1.12.1.37/31' self.assertEqual(ipaddr(address, 'network_id'), '1.12.1.36') address = '1.12.1.36/32' self.assertEqual(ipaddr(address, 'network_id'), '1.12.1.36') address = '1.12.1.254/24' self.assertEqual(ipaddr(address, 'network_id'), '1.12.1.0') def test_network_prefix(self): address = '1.12.1.0/24' self.assertEqual(ipaddr(address, 'network/prefix'), '1.12.1.0/24') address = '1.12.1.0/25' self.assertEqual(ipaddr(address, 'network/prefix'), '1.12.1.0/25') # address = '1.12.1.34' # self.assertFalse(ipaddr(address, 'last_usable'), 'Not a network address') address = '1.12.1.36/28' self.assertEqual(ipaddr(address, 'network/prefix'), '1.12.1.32/28') address = '1.12.1.36/255.255.255.240' self.assertEqual(ipaddr(address, 'network/prefix'), '1.12.1.32/28') address = '1.12.1.36/31' self.assertEqual(ipaddr(address, 'network/prefix'), '1.12.1.36/31') address = '1.12.1.37/31' self.assertEqual(ipaddr(address, 'network/prefix'), '1.12.1.36/31') address = '1.12.1.36/32' self.assertEqual(ipaddr(address, 'network/prefix'), '1.12.1.36/32') address = '1.12.1.254/24' self.assertEqual(ipaddr(address, 'network/prefix'), '1.12.1.0/24') def test_network_netmask(self): address = '1.12.1.0/24' self.assertEqual(ipaddr(address, 'network_netmask'), '1.12.1.0 255.255.255.0') address = '1.12.1.0/25' self.assertEqual(ipaddr(address, 'network_netmask'), '1.12.1.0 255.255.255.128') # address = '1.12.1.34' # self.assertFalse(ipaddr(address, 'last_usable'), 'Not a network address') address = '1.12.1.36/28' self.assertEqual(ipaddr(address, 'network_netmask'), '1.12.1.32 255.255.255.240') address = '1.12.1.36/255.255.255.240' self.assertEqual(ipaddr(address, 'network_netmask'), '1.12.1.32 255.255.255.240') address = '1.12.1.36/31' self.assertEqual(ipaddr(address, 'network_netmask'), '1.12.1.36 255.255.255.254') address = '1.12.1.37/31' self.assertEqual(ipaddr(address, 'network_netmask'), '1.12.1.36 255.255.255.254') address = '1.12.1.36/32' self.assertEqual(ipaddr(address, 'network_netmask'), '1.12.1.36 255.255.255.255') address = '1.12.1.254/24' self.assertEqual(ipaddr(address, 'network_netmask'), '1.12.1.0 255.255.255.0') def test_network_wildcard(self): address = '1.12.1.0/24' self.assertEqual(ipaddr(address, 'network_wildcard'), '1.12.1.0 0.0.0.255') address = '1.12.1.0/25' self.assertEqual(ipaddr(address, 'network_wildcard'), '1.12.1.0 0.0.0.127') # address = '1.12.1.34' # self.assertFalse(ipaddr(address, 'last_usable'), 'Not a network address') address = '1.12.1.36/28' self.assertEqual(ipaddr(address, 'network_wildcard'), '1.12.1.32 0.0.0.15') address = '1.12.1.36/255.255.255.240' self.assertEqual(ipaddr(address, 'network_wildcard'), '1.12.1.32 0.0.0.15') address = '1.12.1.36/31' self.assertEqual(ipaddr(address, 'network_wildcard'), '1.12.1.36 0.0.0.1') address = '1.12.1.37/31' self.assertEqual(ipaddr(address, 'network_wildcard'), '1.12.1.36 0.0.0.1') address = '1.12.1.36/32' self.assertEqual(ipaddr(address, 'network_wildcard'), '1.12.1.36 0.0.0.0') address = '1.12.1.254/24' self.assertEqual(ipaddr(address, 'network_wildcard'), '1.12.1.0 0.0.0.255') def test_next_usable(self): address = '1.12.1.0/24' self.assertEqual(ipaddr(address, 'next_usable'), '1.12.1.1') address = '1.12.1.36/24' self.assertEqual(ipaddr(address, 'next_usable'), '1.12.1.37') # address = '1.12.1.34' # self.assertFalse(ipaddr(address, 'last_usable'), 'Not a network address') address = '1.12.1.36/28' self.assertEqual(ipaddr(address, 'next_usable'), '1.12.1.37') address = '1.12.1.36/255.255.255.240' self.assertEqual(ipaddr(address, 'next_usable'), '1.12.1.37') address = '1.12.1.36/31' self.assertEqual(ipaddr(address, 'next_usable'), '1.12.1.37') address = '1.12.1.37/31' self.assertEqual(ipaddr(address, 'next_usable'), None) address = '1.12.1.36/32' self.assertEqual(ipaddr(address, 'next_usable'), None) address = '1.12.1.254/24' self.assertEqual(ipaddr(address, 'next_usable'), None) def test_previous_usable(self): address = '1.12.1.0/24' self.assertEqual(ipaddr(address, 'previous_usable'), None) address = '1.12.1.36/24' self.assertEqual(ipaddr(address, 'previous_usable'), '1.12.1.35') # address = '1.12.1.34' # self.assertFalse(ipaddr(address, 'last_usable'), 'Not a network address') address = '1.12.1.36/28' self.assertEqual(ipaddr(address, 'previous_usable'), '1.12.1.35') address = '1.12.1.36/255.255.255.240' self.assertEqual(ipaddr(address, 'previous_usable'), '1.12.1.35') address = '1.12.1.36/31' self.assertEqual(ipaddr(address, 'previous_usable'), None) address = '1.12.1.37/31' self.assertEqual(ipaddr(address, 'previous_usable'), '1.12.1.36') address = '1.12.1.36/32' self.assertEqual(ipaddr(address, 'previous_usable'), None) address = '1.12.1.254/24' self.assertEqual(ipaddr(address, 'previous_usable'), '1.12.1.253') def test_next_nth_usable(self): address = '1.12.1.0/24' self.assertEqual(next_nth_usable(address, 5), '1.12.1.5') address = '1.12.1.36/24' self.assertEqual(next_nth_usable(address, 10), '1.12.1.46') # address = '1.12.1.34' # self.assertFalse(ipaddr(address, 'last_usable'), 'Not a network address') address = '1.12.1.36/28' self.assertEqual(next_nth_usable(address, 4), '1.12.1.40') address = '1.12.1.36/255.255.255.240' self.assertEqual(next_nth_usable(address, 4), '1.12.1.40') address = '1.12.1.36/31' self.assertEqual(next_nth_usable(address, 1), '1.12.1.37') address = '1.12.1.37/31' self.assertEqual(next_nth_usable(address, 1), None) address = '1.12.1.36/32' self.assertEqual(next_nth_usable(address, 1), None) address = '1.12.1.254/24' self.assertEqual(next_nth_usable(address, 2), None) def test_previous_nth_usable(self): address = '1.12.1.0/24' self.assertEqual(previous_nth_usable(address, 5), None) address = '1.12.1.36/24' self.assertEqual(previous_nth_usable(address, 10), '1.12.1.26') # address = '1.12.1.34' # self.assertFalse(ipaddr(address, 'last_usable'), 'Not a network address') address = '1.12.1.36/28' self.assertEqual(previous_nth_usable(address, 2), '1.12.1.34') address = '1.12.1.36/255.255.255.240' self.assertEqual(previous_nth_usable(address, 2), '1.12.1.34') address = '1.12.1.36/31' self.assertEqual(previous_nth_usable(address, 1), None) address = '1.12.1.37/31' self.assertEqual(previous_nth_usable(address, 1), '1.12.1.36') address = '1.12.1.36/32' self.assertEqual(previous_nth_usable(address, 1), None) address = '1.12.1.254/24' self.assertEqual(previous_nth_usable(address, 2), '1.12.1.252') def test_network_in_usable(self): subnet = '1.12.1.0/24' address = '1.12.1.10' self.assertEqual(network_in_usable(subnet, address), True) subnet = '1.12.1.0/24' address = '1.12.0.10' self.assertEqual(network_in_usable(subnet, address), False) subnet = '1.12.1.32/28' address = '1.12.1.36' self.assertEqual(network_in_usable(subnet, address), True) subnet = '1.12.1.32/28' address = '1.12.1.36/31' self.assertEqual(network_in_usable(subnet, address), True) subnet = '1.12.1.32/28' address = '1.12.1.48/31' self.assertEqual(network_in_usable(subnet, address), False) subnet = '1.12.1.32/255.255.255.240' address = '1.12.1.31' self.assertEqual(network_in_usable(subnet, address), False) subnet = '1.12.1.36/31' address = '1.12.1.36' self.assertEqual(network_in_usable(subnet, address), True) subnet = '1.12.1.37/31' address = '1.12.1.35' self.assertEqual(network_in_usable(subnet, address), False) subnet = '1.12.1.36/32' address = '1.12.1.36' self.assertEqual(network_in_usable(subnet, address), True) subnet = '1.12.1.0/24' address = '1.12.2.0' self.assertEqual(network_in_usable(subnet, address), False) def test_network_in_network(self): subnet = '1.12.1.0/24' address = '1.12.1.0' self.assertEqual(network_in_network(subnet, address), True) subnet = '1.12.1.0/24' address = '1.12.0.10' self.assertEqual(network_in_network(subnet, address), False) subnet = '1.12.1.32/28' address = '1.12.1.32/28' self.assertEqual(network_in_network(subnet, address), True) subnet = '1.12.1.32/28' address = '1.12.1.47' self.assertEqual(network_in_network(subnet, address), True) subnet = '1.12.1.32/28' address = '1.12.1.48/31' self.assertEqual(network_in_network(subnet, address), False) subnet = '1.12.1.32/255.255.255.240' address = '1.12.1.31' self.assertEqual(network_in_network(subnet, address), False) subnet = '1.12.1.36/31' address = '1.12.1.36' self.assertEqual(network_in_network(subnet, address), True) subnet = '1.12.1.37/31' address = '1.12.1.35' self.assertEqual(network_in_network(subnet, address), False) subnet = '1.12.1.36/32' address = '1.12.1.36' self.assertEqual(network_in_network(subnet, address), True) subnet = '1.12.1.0/24' address = '1.12.2.0' self.assertEqual(network_in_network(subnet, address), False)