# 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 netaddr from oslo.config import cfg from neutron.agent import firewall from neutron.agent.linux import iptables_manager from neutron.common import constants from neutron.openstack.common import log as logging LOG = logging.getLogger(__name__) SG_CHAIN = 'sg-chain' INGRESS_DIRECTION = 'ingress' EGRESS_DIRECTION = 'egress' SPOOF_FILTER = 'spoof-filter' CHAIN_NAME_PREFIX = {INGRESS_DIRECTION: 'i', EGRESS_DIRECTION: 'o', SPOOF_FILTER: 's'} LINUX_DEV_LEN = 14 class IptablesFirewallDriver(firewall.FirewallDriver): """Driver which enforces security groups through iptables rules.""" IPTABLES_DIRECTION = {INGRESS_DIRECTION: 'physdev-out', EGRESS_DIRECTION: 'physdev-in'} def __init__(self): self.iptables = iptables_manager.IptablesManager( root_helper=cfg.CONF.AGENT.root_helper, use_ipv6=True) # list of port which has security group self.filtered_ports = {} self._add_fallback_chain_v4v6() self._defer_apply = False self._pre_defer_filtered_ports = None @property def ports(self): return self.filtered_ports def prepare_port_filter(self, port): LOG.debug(_("Preparing device (%s) filter"), port['device']) self._remove_chains() self.filtered_ports[port['device']] = port # each security group has it own chains self._setup_chains() self.iptables.apply() def update_port_filter(self, port): LOG.debug(_("Updating device (%s) filter"), port['device']) if port['device'] not in self.filtered_ports: LOG.info(_('Attempted to update port filter which is not ' 'filtered %s'), port['device']) return self._remove_chains() self.filtered_ports[port['device']] = port self._setup_chains() self.iptables.apply() def remove_port_filter(self, port): LOG.debug(_("Removing device (%s) filter"), port['device']) if not self.filtered_ports.get(port['device']): LOG.info(_('Attempted to remove port filter which is not ' 'filtered %r'), port) return self._remove_chains() self.filtered_ports.pop(port['device'], None) self._setup_chains() self.iptables.apply() def _setup_chains(self): """Setup ingress and egress chain for a port.""" if not self._defer_apply: self._setup_chains_apply(self.filtered_ports) def _setup_chains_apply(self, ports): self._add_chain_by_name_v4v6(SG_CHAIN) for port in ports.values(): self._setup_chain(port, INGRESS_DIRECTION) self._setup_chain(port, EGRESS_DIRECTION) self.iptables.ipv4['filter'].add_rule(SG_CHAIN, '-j ACCEPT') self.iptables.ipv6['filter'].add_rule(SG_CHAIN, '-j ACCEPT') def _remove_chains(self): """Remove ingress and egress chain for a port.""" if not self._defer_apply: self._remove_chains_apply(self.filtered_ports) def _remove_chains_apply(self, ports): for port in ports.values(): self._remove_chain(port, INGRESS_DIRECTION) self._remove_chain(port, EGRESS_DIRECTION) self._remove_chain(port, SPOOF_FILTER) self._remove_chain_by_name_v4v6(SG_CHAIN) def _setup_chain(self, port, DIRECTION): self._add_chain(port, DIRECTION) self._add_rule_by_security_group(port, DIRECTION) def _remove_chain(self, port, DIRECTION): chain_name = self._port_chain_name(port, DIRECTION) self._remove_chain_by_name_v4v6(chain_name) def _add_fallback_chain_v4v6(self): self.iptables.ipv4['filter'].add_chain('sg-fallback') self.iptables.ipv4['filter'].add_rule('sg-fallback', '-j DROP') self.iptables.ipv6['filter'].add_chain('sg-fallback') self.iptables.ipv6['filter'].add_rule('sg-fallback', '-j DROP') def _add_chain_by_name_v4v6(self, chain_name): self.iptables.ipv6['filter'].add_chain(chain_name) self.iptables.ipv4['filter'].add_chain(chain_name) def _remove_chain_by_name_v4v6(self, chain_name): self.iptables.ipv4['filter'].ensure_remove_chain(chain_name) self.iptables.ipv6['filter'].ensure_remove_chain(chain_name) def _add_rule_to_chain_v4v6(self, chain_name, ipv4_rules, ipv6_rules): for rule in ipv4_rules: self.iptables.ipv4['filter'].add_rule(chain_name, rule) for rule in ipv6_rules: self.iptables.ipv6['filter'].add_rule(chain_name, rule) def _get_device_name(self, port): return port['device'] def _add_chain(self, port, direction): chain_name = self._port_chain_name(port, direction) self._add_chain_by_name_v4v6(chain_name) # Note(nati) jump to the security group chain (SG_CHAIN) # This is needed because the packet may much two rule in port # if the two port is in the same host # We accept the packet at the end of SG_CHAIN. # jump to the security group chain device = self._get_device_name(port) jump_rule = ['-m physdev --%s %s --physdev-is-bridged ' '-j $%s' % (self.IPTABLES_DIRECTION[direction], device, SG_CHAIN)] self._add_rule_to_chain_v4v6('FORWARD', jump_rule, jump_rule) # jump to the chain based on the device jump_rule = ['-m physdev --%s %s --physdev-is-bridged ' '-j $%s' % (self.IPTABLES_DIRECTION[direction], device, chain_name)] self._add_rule_to_chain_v4v6(SG_CHAIN, jump_rule, jump_rule) if direction == EGRESS_DIRECTION: self._add_rule_to_chain_v4v6('INPUT', jump_rule, jump_rule) def _split_sgr_by_ethertype(self, security_group_rules): ipv4_sg_rules = [] ipv6_sg_rules = [] for rule in security_group_rules: if rule.get('ethertype') == constants.IPv4: ipv4_sg_rules.append(rule) elif rule.get('ethertype') == constants.IPv6: if rule.get('protocol') == 'icmp': rule['protocol'] = 'icmpv6' ipv6_sg_rules.append(rule) return ipv4_sg_rules, ipv6_sg_rules def _select_sgr_by_direction(self, port, direction): return [rule for rule in port.get('security_group_rules', []) if rule['direction'] == direction] def _arp_spoofing_rule(self, port): return '-m mac ! --mac-source %s -j DROP' % port['mac_address'] def _setup_spoof_filter_chain(self, port, table, mac_ip_pairs, rules): if mac_ip_pairs: chain_name = self._port_chain_name(port, SPOOF_FILTER) table.add_chain(chain_name) for mac, ip in mac_ip_pairs: if ip is None: # If fixed_ips is [] this rule will be added to the end # of the list after the allowed_address_pair rules. table.add_rule(chain_name, '-m mac --mac-source %s -j RETURN' % mac) else: table.add_rule(chain_name, '-m mac --mac-source %s -s %s -j RETURN' % (mac, ip)) table.add_rule(chain_name, '-j DROP') rules.append('-j $%s' % chain_name) def _build_ipv4v6_mac_ip_list(self, mac, ip_address, mac_ipv4_pairs, mac_ipv6_pairs): if netaddr.IPNetwork(ip_address).version == 4: mac_ipv4_pairs.append((mac, ip_address)) else: mac_ipv6_pairs.append((mac, ip_address)) def _spoofing_rule(self, port, ipv4_rules, ipv6_rules): #Note(nati) allow dhcp or RA packet ipv4_rules += ['-p udp -m udp --sport 68 --dport 67 -j RETURN'] ipv6_rules += ['-p icmpv6 -j RETURN'] mac_ipv4_pairs = [] mac_ipv6_pairs = [] if isinstance(port.get('allowed_address_pairs'), list): for address_pair in port['allowed_address_pairs']: self._build_ipv4v6_mac_ip_list(address_pair['mac_address'], address_pair['ip_address'], mac_ipv4_pairs, mac_ipv6_pairs) for ip in port['fixed_ips']: self._build_ipv4v6_mac_ip_list(port['mac_address'], ip, mac_ipv4_pairs, mac_ipv6_pairs) if not port['fixed_ips']: mac_ipv4_pairs.append((port['mac_address'], None)) mac_ipv6_pairs.append((port['mac_address'], None)) self._setup_spoof_filter_chain(port, self.iptables.ipv4['filter'], mac_ipv4_pairs, ipv4_rules) self._setup_spoof_filter_chain(port, self.iptables.ipv6['filter'], mac_ipv6_pairs, ipv6_rules) def _drop_dhcp_rule(self): #Note(nati) Drop dhcp packet from VM return ['-p udp -m udp --sport 67 --dport 68 -j DROP'] def _accept_inbound_icmpv6(self): # Allow router advertisements, multicast listener # and neighbor advertisement into the instance icmpv6_rules = [] for icmp6_type in constants.ICMPV6_ALLOWED_TYPES: icmpv6_rules += ['-p icmpv6 --icmpv6-type %s -j RETURN' % icmp6_type] return icmpv6_rules def _add_rule_by_security_group(self, port, direction): chain_name = self._port_chain_name(port, direction) # select rules for current direction security_group_rules = self._select_sgr_by_direction(port, direction) # split groups by ip version # for ipv4, iptables command is used # for ipv6, iptables6 command is used ipv4_sg_rules, ipv6_sg_rules = self._split_sgr_by_ethertype( security_group_rules) ipv4_iptables_rule = [] ipv6_iptables_rule = [] if direction == EGRESS_DIRECTION: self._spoofing_rule(port, ipv4_iptables_rule, ipv6_iptables_rule) ipv4_iptables_rule += self._drop_dhcp_rule() if direction == INGRESS_DIRECTION: ipv6_iptables_rule += self._accept_inbound_icmpv6() ipv4_iptables_rule += self._convert_sgr_to_iptables_rules( ipv4_sg_rules) ipv6_iptables_rule += self._convert_sgr_to_iptables_rules( ipv6_sg_rules) self._add_rule_to_chain_v4v6(chain_name, ipv4_iptables_rule, ipv6_iptables_rule) def _convert_sgr_to_iptables_rules(self, security_group_rules): iptables_rules = [] self._drop_invalid_packets(iptables_rules) self._allow_established(iptables_rules) for rule in security_group_rules: # These arguments MUST be in the format iptables-save will # display them: source/dest, protocol, sport, dport, target # Otherwise the iptables_manager code won't be able to find # them to preserve their [packet:byte] counts. args = self._ip_prefix_arg('s', rule.get('source_ip_prefix')) args += self._ip_prefix_arg('d', rule.get('dest_ip_prefix')) args += self._protocol_arg(rule.get('protocol')) args += self._port_arg('sport', rule.get('protocol'), rule.get('source_port_range_min'), rule.get('source_port_range_max')) args += self._port_arg('dport', rule.get('protocol'), rule.get('port_range_min'), rule.get('port_range_max')) args += ['-j RETURN'] iptables_rules += [' '.join(args)] iptables_rules += ['-j $sg-fallback'] return iptables_rules def _drop_invalid_packets(self, iptables_rules): # Always drop invalid packets iptables_rules += ['-m state --state ' 'INVALID -j DROP'] return iptables_rules def _allow_established(self, iptables_rules): # Allow established connections iptables_rules += ['-m state --state RELATED,ESTABLISHED -j RETURN'] return iptables_rules def _protocol_arg(self, protocol): if not protocol: return [] iptables_rule = ['-p', protocol] # iptables always adds '-m protocol' for udp and tcp if protocol in ['udp', 'tcp']: iptables_rule += ['-m', protocol] return iptables_rule def _port_arg(self, direction, protocol, port_range_min, port_range_max): if not (protocol in ['udp', 'tcp'] and port_range_min): return [] if port_range_min == port_range_max: return ['--%s' % direction, '%s' % (port_range_min,)] else: return ['-m', 'multiport', '--%ss' % direction, '%s:%s' % (port_range_min, port_range_max)] def _ip_prefix_arg(self, direction, ip_prefix): #NOTE (nati) : source_group_id is converted to list of source_ # ip_prefix in server side if ip_prefix: return ['-%s' % direction, ip_prefix] return [] def _port_chain_name(self, port, direction): return iptables_manager.get_chain_name( '%s%s' % (CHAIN_NAME_PREFIX[direction], port['device'][3:])) def filter_defer_apply_on(self): if not self._defer_apply: self.iptables.defer_apply_on() self._pre_defer_filtered_ports = dict(self.filtered_ports) self._defer_apply = True def filter_defer_apply_off(self): if self._defer_apply: self._defer_apply = False self._remove_chains_apply(self._pre_defer_filtered_ports) self._pre_defer_filtered_ports = None self._setup_chains_apply(self.filtered_ports) self.iptables.defer_apply_off() class OVSHybridIptablesFirewallDriver(IptablesFirewallDriver): OVS_HYBRID_TAP_PREFIX = 'tap' def _port_chain_name(self, port, direction): return iptables_manager.get_chain_name( '%s%s' % (CHAIN_NAME_PREFIX[direction], port['device'])) def _get_device_name(self, port): return (self.OVS_HYBRID_TAP_PREFIX + port['device'])[:LINUX_DEV_LEN]