# vim: tabstop=4 shiftwidth=4 softtabstop=4 # # Copyright 2012, Nachi Ueno, NTT MCL, Inc. # All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. import copy import mock from mock import call from oslo.config import cfg from quantum.agent.common import config as a_cfg from quantum.agent.linux.iptables_firewall import IptablesFirewallDriver from quantum.tests.unit import test_api_v2 from quantum.tests import base _uuid = test_api_v2._uuid FAKE_PREFIX = {'IPv4': '10.0.0.0/24', 'IPv6': 'fe80::0/48'} FAKE_IP = {'IPv4': '10.0.0.1', 'IPv6': 'fe80::1'} class IptablesFirewallTestCase(base.BaseTestCase): def setUp(self): super(IptablesFirewallTestCase, self).setUp() cfg.CONF.register_opts(a_cfg.ROOT_HELPER_OPTS, 'AGENT') self.utils_exec_p = mock.patch( 'quantum.agent.linux.utils.execute') self.utils_exec = self.utils_exec_p.start() self.addCleanup(self.utils_exec_p.stop) self.iptables_cls_p = mock.patch( 'quantum.agent.linux.iptables_manager.IptablesManager') iptables_cls = self.iptables_cls_p.start() self.addCleanup(self.iptables_cls_p.stop) self.iptables_inst = mock.Mock() self.v4filter_inst = mock.Mock() self.v6filter_inst = mock.Mock() self.iptables_inst.ipv4 = {'filter': self.v4filter_inst} self.iptables_inst.ipv6 = {'filter': self.v6filter_inst} iptables_cls.return_value = self.iptables_inst self.firewall = IptablesFirewallDriver() self.firewall.iptables = self.iptables_inst def _fake_port(self): return {'device': 'tapfake_dev', 'mac_address': 'ff:ff:ff:ff', 'fixed_ips': [FAKE_IP['IPv4'], FAKE_IP['IPv6']]} def test_prepare_port_filter_with_no_sg(self): port = self._fake_port() self.firewall.prepare_port_filter(port) calls = [call.add_chain('sg-fallback'), call.add_rule('sg-fallback', '-j DROP'), call.ensure_remove_chain('sg-chain'), call.add_chain('sg-chain'), call.add_chain('ifake_dev'), call.add_rule('FORWARD', '-m physdev --physdev-is-bridged ' '--physdev-out tapfake_dev ' '-j $sg-chain'), call.add_rule('sg-chain', '-m physdev --physdev-is-bridged ' '--physdev-out tapfake_dev ' '-j $ifake_dev'), call.add_rule( 'ifake_dev', '-m state --state INVALID -j DROP'), call.add_rule( 'ifake_dev', '-m state --state ESTABLISHED,RELATED -j RETURN'), call.add_rule('ifake_dev', '-j $sg-fallback'), call.add_chain('ofake_dev'), call.add_rule('FORWARD', '-m physdev --physdev-is-bridged ' '--physdev-in tapfake_dev ' '-j $sg-chain'), call.add_rule('sg-chain', '-m physdev --physdev-is-bridged ' '--physdev-in tapfake_dev ' '-j $ofake_dev'), call.add_rule('INPUT', '-m physdev --physdev-is-bridged ' '--physdev-in tapfake_dev ' '-j $ofake_dev'), call.add_rule( 'ofake_dev', '-m mac ! --mac-source ff:ff:ff:ff -j DROP'), call.add_rule( 'ofake_dev', '-p udp --sport 68 --dport 67 -j RETURN'), call.add_rule('ofake_dev', '! -s 10.0.0.1 -j DROP'), call.add_rule( 'ofake_dev', '-p udp --sport 67 --dport 68 -j DROP'), call.add_rule( 'ofake_dev', '-m state --state INVALID -j DROP'), call.add_rule( 'ofake_dev', '-m state --state ESTABLISHED,RELATED -j RETURN'), call.add_rule('ofake_dev', '-j $sg-fallback'), call.add_rule('sg-chain', '-j ACCEPT')] self.v4filter_inst.assert_has_calls(calls) def test_filter_ipv4_ingress(self): rule = {'ethertype': 'IPv4', 'direction': 'ingress'} ingress = call.add_rule('ifake_dev', '-j RETURN') egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_ingress_prefix(self): prefix = FAKE_PREFIX['IPv4'] rule = {'ethertype': 'IPv4', 'direction': 'ingress', 'source_ip_prefix': prefix} ingress = call.add_rule('ifake_dev', '-j RETURN -s %s' % prefix) egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_ingress_tcp(self): rule = {'ethertype': 'IPv4', 'direction': 'ingress', 'protocol': 'tcp'} ingress = call.add_rule('ifake_dev', '-j RETURN -p tcp') egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_ingress_tcp_prefix(self): prefix = FAKE_PREFIX['IPv4'] rule = {'ethertype': 'IPv4', 'direction': 'ingress', 'protocol': 'tcp', 'source_ip_prefix': prefix} ingress = call.add_rule('ifake_dev', '-j RETURN -p tcp -s %s' % prefix) egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_ingress_icmp(self): rule = {'ethertype': 'IPv4', 'direction': 'ingress', 'protocol': 'icmp'} ingress = call.add_rule('ifake_dev', '-j RETURN -p icmp') egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_ingress_icmp_prefix(self): prefix = FAKE_PREFIX['IPv4'] rule = {'ethertype': 'IPv4', 'direction': 'ingress', 'protocol': 'icmp', 'source_ip_prefix': prefix} ingress = call.add_rule( 'ifake_dev', '-j RETURN -p icmp -s %s' % prefix) egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_ingress_tcp_port(self): rule = {'ethertype': 'IPv4', 'direction': 'ingress', 'protocol': 'tcp', 'port_range_min': 10, 'port_range_max': 10} ingress = call.add_rule('ifake_dev', '-j RETURN -p tcp --dport 10') egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_ingress_tcp_mport(self): rule = {'ethertype': 'IPv4', 'direction': 'ingress', 'protocol': 'tcp', 'port_range_min': 10, 'port_range_max': 100} ingress = call.add_rule( 'ifake_dev', '-j RETURN -p tcp -m multiport --dports 10:100') egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_ingress_tcp_mport_prefix(self): prefix = FAKE_PREFIX['IPv4'] rule = {'ethertype': 'IPv4', 'direction': 'ingress', 'protocol': 'tcp', 'port_range_min': 10, 'port_range_max': 100, 'source_ip_prefix': prefix} ingress = call.add_rule( 'ifake_dev', '-j RETURN -p tcp -m multiport ' '--dports 10:100 -s %s' % prefix) egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_ingress_udp(self): rule = {'ethertype': 'IPv4', 'direction': 'ingress', 'protocol': 'udp'} ingress = call.add_rule('ifake_dev', '-j RETURN -p udp') egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_ingress_udp_prefix(self): prefix = FAKE_PREFIX['IPv4'] rule = {'ethertype': 'IPv4', 'direction': 'ingress', 'protocol': 'udp', 'source_ip_prefix': prefix} ingress = call.add_rule('ifake_dev', '-j RETURN -p udp -s %s' % prefix) egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_ingress_udp_port(self): rule = {'ethertype': 'IPv4', 'direction': 'ingress', 'protocol': 'udp', 'port_range_min': 10, 'port_range_max': 10} ingress = call.add_rule('ifake_dev', '-j RETURN -p udp --dport 10') egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_ingress_udp_mport(self): rule = {'ethertype': 'IPv4', 'direction': 'ingress', 'protocol': 'udp', 'port_range_min': 10, 'port_range_max': 100} ingress = call.add_rule( 'ifake_dev', '-j RETURN -p udp -m multiport --dports 10:100') egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_ingress_udp_mport_prefix(self): prefix = FAKE_PREFIX['IPv4'] rule = {'ethertype': 'IPv4', 'direction': 'ingress', 'protocol': 'udp', 'port_range_min': 10, 'port_range_max': 100, 'source_ip_prefix': prefix} ingress = call.add_rule( 'ifake_dev', '-j RETURN -p udp -m multiport ' '--dports 10:100 -s %s' % prefix) egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_egress(self): rule = {'ethertype': 'IPv4', 'direction': 'egress'} egress = call.add_rule('ofake_dev', '-j RETURN') ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_egress_prefix(self): prefix = FAKE_PREFIX['IPv4'] rule = {'ethertype': 'IPv4', 'direction': 'egress', 'source_ip_prefix': prefix} egress = call.add_rule('ofake_dev', '-j RETURN -s %s' % prefix) ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_egress_tcp(self): rule = {'ethertype': 'IPv4', 'direction': 'egress', 'protocol': 'tcp'} egress = call.add_rule('ofake_dev', '-j RETURN -p tcp') ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_egress_tcp_prefix(self): prefix = FAKE_PREFIX['IPv4'] rule = {'ethertype': 'IPv4', 'direction': 'egress', 'protocol': 'tcp', 'source_ip_prefix': prefix} egress = call.add_rule('ofake_dev', '-j RETURN -p tcp -s %s' % prefix) ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_egress_icmp(self): rule = {'ethertype': 'IPv4', 'direction': 'egress', 'protocol': 'icmp'} egress = call.add_rule('ofake_dev', '-j RETURN -p icmp') ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_egress_icmp_prefix(self): prefix = FAKE_PREFIX['IPv4'] rule = {'ethertype': 'IPv4', 'direction': 'egress', 'protocol': 'icmp', 'source_ip_prefix': prefix} egress = call.add_rule( 'ofake_dev', '-j RETURN -p icmp -s %s' % prefix) ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_egress_tcp_port(self): rule = {'ethertype': 'IPv4', 'direction': 'egress', 'protocol': 'tcp', 'port_range_min': 10, 'port_range_max': 10} egress = call.add_rule('ofake_dev', '-j RETURN -p tcp --dport 10') ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_egress_tcp_mport(self): rule = {'ethertype': 'IPv4', 'direction': 'egress', 'protocol': 'tcp', 'port_range_min': 10, 'port_range_max': 100} egress = call.add_rule( 'ofake_dev', '-j RETURN -p tcp -m multiport --dports 10:100') ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_egress_tcp_mport_prefix(self): prefix = FAKE_PREFIX['IPv4'] rule = {'ethertype': 'IPv4', 'direction': 'egress', 'protocol': 'tcp', 'port_range_min': 10, 'port_range_max': 100, 'source_ip_prefix': prefix} egress = call.add_rule( 'ofake_dev', '-j RETURN -p tcp -m multiport ' '--dports 10:100 -s %s' % prefix) ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_egress_udp(self): rule = {'ethertype': 'IPv4', 'direction': 'egress', 'protocol': 'udp'} egress = call.add_rule('ofake_dev', '-j RETURN -p udp') ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_egress_udp_prefix(self): prefix = FAKE_PREFIX['IPv4'] rule = {'ethertype': 'IPv4', 'direction': 'egress', 'protocol': 'udp', 'source_ip_prefix': prefix} egress = call.add_rule('ofake_dev', '-j RETURN -p udp -s %s' % prefix) ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_egress_udp_port(self): rule = {'ethertype': 'IPv4', 'direction': 'egress', 'protocol': 'udp', 'port_range_min': 10, 'port_range_max': 10} egress = call.add_rule('ofake_dev', '-j RETURN -p udp --dport 10') ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_egress_udp_mport(self): rule = {'ethertype': 'IPv4', 'direction': 'egress', 'protocol': 'udp', 'port_range_min': 10, 'port_range_max': 100} egress = call.add_rule( 'ofake_dev', '-j RETURN -p udp -m multiport --dports 10:100') ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv4_egress_udp_mport_prefix(self): prefix = FAKE_PREFIX['IPv4'] rule = {'ethertype': 'IPv4', 'direction': 'egress', 'protocol': 'udp', 'port_range_min': 10, 'port_range_max': 100, 'source_ip_prefix': prefix} egress = call.add_rule( 'ofake_dev', '-j RETURN -p udp -m multiport ' '--dports 10:100 -s %s' % prefix) ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_ingress(self): rule = {'ethertype': 'IPv6', 'direction': 'ingress'} ingress = call.add_rule('ifake_dev', '-j RETURN') egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_ingress_prefix(self): prefix = FAKE_PREFIX['IPv6'] rule = {'ethertype': 'IPv6', 'direction': 'ingress', 'source_ip_prefix': prefix} ingress = call.add_rule('ifake_dev', '-j RETURN -s %s' % prefix) egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_ingress_tcp(self): rule = {'ethertype': 'IPv6', 'direction': 'ingress', 'protocol': 'tcp'} ingress = call.add_rule('ifake_dev', '-j RETURN -p tcp') egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_ingress_tcp_prefix(self): prefix = FAKE_PREFIX['IPv6'] rule = {'ethertype': 'IPv6', 'direction': 'ingress', 'protocol': 'tcp', 'source_ip_prefix': prefix} ingress = call.add_rule('ifake_dev', '-j RETURN -p tcp -s %s' % prefix) egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_ingress_tcp_port(self): rule = {'ethertype': 'IPv6', 'direction': 'ingress', 'protocol': 'tcp', 'port_range_min': 10, 'port_range_max': 10} ingress = call.add_rule('ifake_dev', '-j RETURN -p tcp --dport 10') egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_ingress_icmp(self): rule = {'ethertype': 'IPv6', 'direction': 'ingress', 'protocol': 'icmp'} ingress = call.add_rule('ifake_dev', '-j RETURN -p icmpv6') egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_ingress_icmp_prefix(self): prefix = FAKE_PREFIX['IPv6'] rule = {'ethertype': 'IPv6', 'direction': 'ingress', 'protocol': 'icmp', 'source_ip_prefix': prefix} ingress = call.add_rule( 'ifake_dev', '-j RETURN -p icmpv6 -s %s' % prefix) egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_ingress_tcp_mport(self): rule = {'ethertype': 'IPv6', 'direction': 'ingress', 'protocol': 'tcp', 'port_range_min': 10, 'port_range_max': 100} ingress = call.add_rule( 'ifake_dev', '-j RETURN -p tcp -m multiport --dports 10:100') egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_ingress_tcp_mport_prefix(self): prefix = FAKE_PREFIX['IPv6'] rule = {'ethertype': 'IPv6', 'direction': 'ingress', 'protocol': 'tcp', 'port_range_min': 10, 'port_range_max': 100, 'source_ip_prefix': prefix} ingress = call.add_rule( 'ifake_dev', '-j RETURN -p tcp -m multiport ' '--dports 10:100 -s %s' % prefix) egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_ingress_udp(self): rule = {'ethertype': 'IPv6', 'direction': 'ingress', 'protocol': 'udp'} ingress = call.add_rule('ifake_dev', '-j RETURN -p udp') egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_ingress_udp_prefix(self): prefix = FAKE_PREFIX['IPv6'] rule = {'ethertype': 'IPv6', 'direction': 'ingress', 'protocol': 'udp', 'source_ip_prefix': prefix} ingress = call.add_rule('ifake_dev', '-j RETURN -p udp -s %s' % prefix) egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_ingress_udp_port(self): rule = {'ethertype': 'IPv6', 'direction': 'ingress', 'protocol': 'udp', 'port_range_min': 10, 'port_range_max': 10} ingress = call.add_rule('ifake_dev', '-j RETURN -p udp --dport 10') egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_ingress_udp_mport(self): rule = {'ethertype': 'IPv6', 'direction': 'ingress', 'protocol': 'udp', 'port_range_min': 10, 'port_range_max': 100} ingress = call.add_rule( 'ifake_dev', '-j RETURN -p udp -m multiport --dports 10:100') egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_ingress_udp_mport_prefix(self): prefix = FAKE_PREFIX['IPv6'] rule = {'ethertype': 'IPv6', 'direction': 'ingress', 'protocol': 'udp', 'port_range_min': 10, 'port_range_max': 100, 'source_ip_prefix': prefix} ingress = call.add_rule( 'ifake_dev', '-j RETURN -p udp -m multiport ' '--dports 10:100 -s %s' % prefix) egress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_egress(self): rule = {'ethertype': 'IPv6', 'direction': 'egress'} egress = call.add_rule('ofake_dev', '-j RETURN') ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_egress_prefix(self): prefix = FAKE_PREFIX['IPv6'] rule = {'ethertype': 'IPv6', 'direction': 'egress', 'source_ip_prefix': prefix} egress = call.add_rule('ofake_dev', '-j RETURN -s %s' % prefix) ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_egress_tcp(self): rule = {'ethertype': 'IPv6', 'direction': 'egress', 'protocol': 'tcp'} egress = call.add_rule('ofake_dev', '-j RETURN -p tcp') ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_egress_tcp_prefix(self): prefix = FAKE_PREFIX['IPv6'] rule = {'ethertype': 'IPv6', 'direction': 'egress', 'protocol': 'tcp', 'source_ip_prefix': prefix} egress = call.add_rule('ofake_dev', '-j RETURN -p tcp -s %s' % prefix) ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_egress_icmp(self): rule = {'ethertype': 'IPv6', 'direction': 'egress', 'protocol': 'icmp'} egress = call.add_rule('ofake_dev', '-j RETURN -p icmpv6') ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_egress_icmp_prefix(self): prefix = FAKE_PREFIX['IPv6'] rule = {'ethertype': 'IPv6', 'direction': 'egress', 'protocol': 'icmp', 'source_ip_prefix': prefix} egress = call.add_rule( 'ofake_dev', '-j RETURN -p icmpv6 -s %s' % prefix) ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_egress_tcp_port(self): rule = {'ethertype': 'IPv6', 'direction': 'egress', 'protocol': 'tcp', 'port_range_min': 10, 'port_range_max': 10} egress = call.add_rule('ofake_dev', '-j RETURN -p tcp --dport 10') ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_egress_tcp_mport(self): rule = {'ethertype': 'IPv6', 'direction': 'egress', 'protocol': 'tcp', 'port_range_min': 10, 'port_range_max': 100} egress = call.add_rule( 'ofake_dev', '-j RETURN -p tcp -m multiport --dports 10:100') ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_egress_tcp_mport_prefix(self): prefix = FAKE_PREFIX['IPv6'] rule = {'ethertype': 'IPv6', 'direction': 'egress', 'protocol': 'tcp', 'port_range_min': 10, 'port_range_max': 100, 'source_ip_prefix': prefix} egress = call.add_rule( 'ofake_dev', '-j RETURN -p tcp -m multiport ' '--dports 10:100 -s %s' % prefix) ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_egress_udp(self): rule = {'ethertype': 'IPv6', 'direction': 'egress', 'protocol': 'udp'} egress = call.add_rule('ofake_dev', '-j RETURN -p udp') ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_egress_udp_prefix(self): prefix = FAKE_PREFIX['IPv6'] rule = {'ethertype': 'IPv6', 'direction': 'egress', 'protocol': 'udp', 'source_ip_prefix': prefix} egress = call.add_rule('ofake_dev', '-j RETURN -p udp -s %s' % prefix) ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_egress_udp_port(self): rule = {'ethertype': 'IPv6', 'direction': 'egress', 'protocol': 'udp', 'port_range_min': 10, 'port_range_max': 10} egress = call.add_rule('ofake_dev', '-j RETURN -p udp --dport 10') ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_egress_udp_mport(self): rule = {'ethertype': 'IPv6', 'direction': 'egress', 'protocol': 'udp', 'port_range_min': 10, 'port_range_max': 100} egress = call.add_rule( 'ofake_dev', '-j RETURN -p udp -m multiport --dports 10:100') ingress = None self._test_prepare_port_filter(rule, ingress, egress) def test_filter_ipv6_egress_udp_mport_prefix(self): prefix = FAKE_PREFIX['IPv6'] rule = {'ethertype': 'IPv6', 'direction': 'egress', 'protocol': 'udp', 'port_range_min': 10, 'port_range_max': 100, 'source_ip_prefix': prefix} egress = call.add_rule( 'ofake_dev', '-j RETURN -p udp -m multiport ' '--dports 10:100 -s %s' % prefix) ingress = None self._test_prepare_port_filter(rule, ingress, egress) def _test_prepare_port_filter(self, rule, ingress_expected_call=None, egress_expected_call=None): port = self._fake_port() ethertype = rule['ethertype'] prefix = FAKE_IP[ethertype] filter_inst = self.v4filter_inst dhcp_rule = call.add_rule( 'ofake_dev', '-p udp --sport 68 --dport 67 -j RETURN') if ethertype == 'IPv6': filter_inst = self.v6filter_inst dhcp_rule = call.add_rule('ofake_dev', '-p icmpv6 -j RETURN') sg = [rule] port['security_group_rules'] = sg self.firewall.prepare_port_filter(port) calls = [call.add_chain('sg-fallback'), call.add_rule('sg-fallback', '-j DROP'), call.ensure_remove_chain('sg-chain'), call.add_chain('sg-chain'), call.add_chain('ifake_dev'), call.add_rule('FORWARD', '-m physdev --physdev-is-bridged ' '--physdev-out tapfake_dev ' '-j $sg-chain'), call.add_rule('sg-chain', '-m physdev --physdev-is-bridged ' '--physdev-out tapfake_dev ' '-j $ifake_dev'), call.add_rule( 'ifake_dev', '-m state --state INVALID -j DROP'), call.add_rule( 'ifake_dev', '-m state --state ESTABLISHED,RELATED -j RETURN')] if ingress_expected_call: calls.append(ingress_expected_call) calls += [call.add_rule('ifake_dev', '-j $sg-fallback'), call.add_chain('ofake_dev'), call.add_rule('FORWARD', '-m physdev --physdev-is-bridged ' '--physdev-in tapfake_dev ' '-j $sg-chain'), call.add_rule('sg-chain', '-m physdev --physdev-is-bridged ' '--physdev-in tapfake_dev ' '-j $ofake_dev'), call.add_rule('INPUT', '-m physdev --physdev-is-bridged ' '--physdev-in tapfake_dev ' '-j $ofake_dev'), call.add_rule( 'ofake_dev', '-m mac ! --mac-source ff:ff:ff:ff -j DROP'), dhcp_rule, call.add_rule('ofake_dev', '! -s %s -j DROP' % prefix)] if ethertype == 'IPv4': calls.append(call.add_rule( 'ofake_dev', '-p udp --sport 67 --dport 68 -j DROP')) calls += [call.add_rule( 'ofake_dev', '-m state --state INVALID -j DROP'), call.add_rule( 'ofake_dev', '-m state --state ESTABLISHED,RELATED -j RETURN')] if egress_expected_call: calls.append(egress_expected_call) calls += [call.add_rule('ofake_dev', '-j $sg-fallback'), call.add_rule('sg-chain', '-j ACCEPT')] filter_inst.assert_has_calls(calls) def test_update_delete_port_filter(self): port = self._fake_port() port['security_group_rules'] = [{'ethertype': 'IPv4', 'direction': 'ingress'}] self.firewall.prepare_port_filter(port) port['security_group_rules'] = [{'ethertype': 'IPv4', 'direction': 'egress'}] self.firewall.update_port_filter(port) self.firewall.update_port_filter({'device': 'no-exist-device'}) self.firewall.remove_port_filter(port) self.firewall.remove_port_filter({'device': 'no-exist-device'}) calls = [call.add_chain('sg-fallback'), call.add_rule('sg-fallback', '-j DROP'), call.ensure_remove_chain('sg-chain'), call.add_chain('sg-chain'), call.add_chain('ifake_dev'), call.add_rule( 'FORWARD', '-m physdev --physdev-is-bridged ' '--physdev-out tapfake_dev -j $sg-chain'), call.add_rule( 'sg-chain', '-m physdev --physdev-is-bridged ' '--physdev-out tapfake_dev -j $ifake_dev'), call.add_rule( 'ifake_dev', '-m state --state INVALID -j DROP'), call.add_rule( 'ifake_dev', '-m state --state ESTABLISHED,RELATED -j RETURN'), call.add_rule('ifake_dev', '-j RETURN'), call.add_rule('ifake_dev', '-j $sg-fallback'), call.add_chain('ofake_dev'), call.add_rule( 'FORWARD', '-m physdev --physdev-is-bridged ' '--physdev-in tapfake_dev -j $sg-chain'), call.add_rule( 'sg-chain', '-m physdev --physdev-is-bridged ' '--physdev-in tapfake_dev -j $ofake_dev'), call.add_rule( 'INPUT', '-m physdev --physdev-is-bridged ' '--physdev-in tapfake_dev -j $ofake_dev'), call.add_rule( 'ofake_dev', '-m mac ! --mac-source ff:ff:ff:ff -j DROP'), call.add_rule( 'ofake_dev', '-p udp --sport 68 --dport 67 -j RETURN'), call.add_rule( 'ofake_dev', '! -s 10.0.0.1 -j DROP'), call.add_rule( 'ofake_dev', '-p udp --sport 67 --dport 68 -j DROP'), call.add_rule( 'ofake_dev', '-m state --state INVALID -j DROP'), call.add_rule( 'ofake_dev', '-m state --state ESTABLISHED,RELATED -j RETURN'), call.add_rule('ofake_dev', '-j $sg-fallback'), call.add_rule('sg-chain', '-j ACCEPT'), call.ensure_remove_chain('ifake_dev'), call.ensure_remove_chain('ofake_dev'), call.ensure_remove_chain('sfake_dev'), call.ensure_remove_chain('sg-chain'), call.add_chain('sg-chain'), call.add_chain('ifake_dev'), call.add_rule( 'FORWARD', '-m physdev --physdev-is-bridged ' '--physdev-out tapfake_dev -j $sg-chain'), call.add_rule( 'sg-chain', '-m physdev --physdev-is-bridged ' '--physdev-out tapfake_dev -j $ifake_dev'), call.add_rule( 'ifake_dev', '-m state --state INVALID -j DROP'), call.add_rule( 'ifake_dev', '-m state --state ESTABLISHED,RELATED -j RETURN'), call.add_rule('ifake_dev', '-j $sg-fallback'), call.add_chain('ofake_dev'), call.add_rule( 'FORWARD', '-m physdev --physdev-is-bridged ' '--physdev-in tapfake_dev -j $sg-chain'), call.add_rule( 'sg-chain', '-m physdev --physdev-is-bridged ' '--physdev-in tapfake_dev -j $ofake_dev'), call.add_rule( 'INPUT', '-m physdev --physdev-is-bridged ' '--physdev-in tapfake_dev -j $ofake_dev'), call.add_rule( 'ofake_dev', '-m mac ! --mac-source ff:ff:ff:ff -j DROP'), call.add_rule( 'ofake_dev', '-p udp --sport 68 --dport 67 -j RETURN'), call.add_rule( 'ofake_dev', '! -s 10.0.0.1 -j DROP'), call.add_rule( 'ofake_dev', '-p udp --sport 67 --dport 68 -j DROP'), call.add_rule( 'ofake_dev', '-m state --state INVALID -j DROP'), call.add_rule( 'ofake_dev', '-m state --state ESTABLISHED,RELATED -j RETURN'), call.add_rule('ofake_dev', '-j RETURN'), call.add_rule('ofake_dev', '-j $sg-fallback'), call.add_rule('sg-chain', '-j ACCEPT'), call.ensure_remove_chain('ifake_dev'), call.ensure_remove_chain('ofake_dev'), call.ensure_remove_chain('sfake_dev'), call.ensure_remove_chain('sg-chain'), call.add_chain('sg-chain')] self.v4filter_inst.assert_has_calls(calls) def test_remove_unknown_port(self): port = self._fake_port() self.firewall.remove_port_filter(port) # checking no exception occures self.v4filter_inst.assert_has_calls([]) def test_defer_apply(self): with self.firewall.defer_apply(): pass self.iptables_inst.assert_has_calls([call.defer_apply_on(), call.defer_apply_off()]) def test_filter_defer_with_exception(self): try: with self.firewall.defer_apply(): raise Exception("same exception") except: pass self.iptables_inst.assert_has_calls([call.defer_apply_on(), call.defer_apply_off()]) def _mock_chain_applies(self): class CopyingMock(mock.MagicMock): """Copies arguments so mutable arguments can be asserted on. Copied verbatim from unittest.mock documentation. """ def __call__(self, *args, **kwargs): args = copy.deepcopy(args) kwargs = copy.deepcopy(kwargs) return super(CopyingMock, self).__call__(*args, **kwargs) # Need to use CopyingMock because _{setup,remove}_chains_apply are # usually called with that's modified between calls (i.e., # self.firewall.filtered_ports). chain_applies = CopyingMock() self.firewall._setup_chains_apply = chain_applies.setup self.firewall._remove_chains_apply = chain_applies.remove return chain_applies def test_mock_chain_applies(self): chain_applies = self._mock_chain_applies() port_prepare = {'device': 'd1', 'mac_address': 'prepare'} port_update = {'device': 'd1', 'mac_address': 'update'} self.firewall.prepare_port_filter(port_prepare) self.firewall.update_port_filter(port_update) self.firewall.remove_port_filter(port_update) chain_applies.assert_has_calls([call.remove({}), call.setup({'d1': port_prepare}), call.remove({'d1': port_prepare}), call.setup({'d1': port_update}), call.remove({'d1': port_update}), call.setup({})]) def test_defer_chain_apply_need_pre_defer_copy(self): chain_applies = self._mock_chain_applies() port = self._fake_port() device2port = {port['device']: port} self.firewall.prepare_port_filter(port) with self.firewall.defer_apply(): self.firewall.remove_port_filter(port) chain_applies.assert_has_calls([call.remove({}), call.setup(device2port), call.remove(device2port), call.setup({})]) def test_defer_chain_apply_coalesce_simple(self): chain_applies = self._mock_chain_applies() port = self._fake_port() with self.firewall.defer_apply(): self.firewall.prepare_port_filter(port) self.firewall.update_port_filter(port) self.firewall.remove_port_filter(port) chain_applies.assert_has_calls([call.remove({}), call.setup({})]) def test_defer_chain_apply_coalesce_multiple_ports(self): chain_applies = self._mock_chain_applies() port1 = {'device': 'd1', 'mac_address': 'mac1'} port2 = {'device': 'd2', 'mac_address': 'mac2'} device2port = {'d1': port1, 'd2': port2} with self.firewall.defer_apply(): self.firewall.prepare_port_filter(port1) self.firewall.prepare_port_filter(port2) chain_applies.assert_has_calls([call.remove({}), call.setup(device2port)]) def test_ip_spoofing_filter_with_multiple_ips(self): port = {'device': 'tapfake_dev', 'mac_address': 'ff:ff:ff:ff', 'fixed_ips': ['10.0.0.1', 'fe80::1', '10.0.0.2']} self.firewall.prepare_port_filter(port) calls = [call.add_chain('sg-fallback'), call.add_rule('sg-fallback', '-j DROP'), call.ensure_remove_chain('sg-chain'), call.add_chain('sg-chain'), call.add_chain('ifake_dev'), call.add_rule('FORWARD', '-m physdev --physdev-is-bridged ' '--physdev-out tapfake_dev ' '-j $sg-chain'), call.add_rule('sg-chain', '-m physdev --physdev-is-bridged ' '--physdev-out tapfake_dev ' '-j $ifake_dev'), call.add_rule( 'ifake_dev', '-m state --state INVALID -j DROP'), call.add_rule( 'ifake_dev', '-m state --state ESTABLISHED,RELATED -j RETURN'), call.add_rule('ifake_dev', '-j $sg-fallback'), call.add_chain('ofake_dev'), call.add_rule('FORWARD', '-m physdev --physdev-is-bridged ' '--physdev-in tapfake_dev ' '-j $sg-chain'), call.add_rule('sg-chain', '-m physdev --physdev-is-bridged ' '--physdev-in tapfake_dev ' '-j $ofake_dev'), call.add_rule('INPUT', '-m physdev --physdev-is-bridged ' '--physdev-in tapfake_dev ' '-j $ofake_dev'), call.add_chain('sfake_dev'), call.add_rule('sfake_dev', '-s 10.0.0.1 -j RETURN'), call.add_rule('sfake_dev', '-s 10.0.0.2 -j RETURN'), call.add_rule('sfake_dev', '-j DROP'), call.add_rule( 'ofake_dev', '-m mac ! --mac-source ff:ff:ff:ff -j DROP'), call.add_rule( 'ofake_dev', '-p udp --sport 68 --dport 67 -j RETURN'), call.add_rule('ofake_dev', '-j $sfake_dev'), call.add_rule( 'ofake_dev', '-p udp --sport 67 --dport 68 -j DROP'), call.add_rule( 'ofake_dev', '-m state --state INVALID -j DROP'), call.add_rule( 'ofake_dev', '-m state --state ESTABLISHED,RELATED -j RETURN'), call.add_rule('ofake_dev', '-j $sg-fallback'), call.add_rule('sg-chain', '-j ACCEPT')] self.v4filter_inst.assert_has_calls(calls)