# Copyright (C) 2021-2024 VyOS maintainers and contributors # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License version 2 or later as # published by the Free Software Foundation. # # This program 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 this program. If not, see . import csv import gzip import os import re from pathlib import Path from socket import AF_INET from socket import AF_INET6 from socket import getaddrinfo from time import strftime from vyos.remote import download from vyos.template import is_ipv4 from vyos.template import render from vyos.utils.dict import dict_search_args from vyos.utils.dict import dict_search_recursive from vyos.utils.process import cmd from vyos.utils.process import run from vyos.utils.network import get_vrf_tableid from vyos.defaults import rt_global_table from vyos.defaults import rt_global_vrf # Conntrack def conntrack_required(conf): required_nodes = ['nat', 'nat66', 'load-balancing wan'] for path in required_nodes: if conf.exists(path): return True firewall = conf.get_config_dict(['firewall'], key_mangling=('-', '_'), no_tag_node_value_mangle=True, get_first_key=True) for rules, path in dict_search_recursive(firewall, 'rule'): if any(('state' in rule_conf or 'connection_status' in rule_conf or 'offload_target' in rule_conf) for rule_conf in rules.values()): return True return False # Domain Resolver def fqdn_config_parse(firewall): firewall['ip_fqdn'] = {} firewall['ip6_fqdn'] = {} for domain, path in dict_search_recursive(firewall, 'fqdn'): hook_name = path[1] priority = path[2] fw_name = path[2] rule = path[4] suffix = path[5][0] set_name = f'{hook_name}_{priority}_{rule}_{suffix}' if (path[0] == 'ipv4') and (path[1] == 'forward' or path[1] == 'input' or path[1] == 'output' or path[1] == 'name'): firewall['ip_fqdn'][set_name] = domain elif (path[0] == 'ipv6') and (path[1] == 'forward' or path[1] == 'input' or path[1] == 'output' or path[1] == 'name'): if path[1] == 'name': set_name = f'name6_{priority}_{rule}_{suffix}' firewall['ip6_fqdn'][set_name] = domain def fqdn_resolve(fqdn, ipv6=False): try: res = getaddrinfo(fqdn, None, AF_INET6 if ipv6 else AF_INET) return set(item[4][0] for item in res) except: return None # End Domain Resolver def find_nftables_rule(table, chain, rule_matches=[]): # Find rule in table/chain that matches all criteria and return the handle results = cmd(f'sudo nft --handle list chain {table} {chain}').split("\n") for line in results: if all(rule_match in line for rule_match in rule_matches): handle_search = re.search('handle (\d+)', line) if handle_search: return handle_search[1] return None def remove_nftables_rule(table, chain, handle): cmd(f'sudo nft delete rule {table} {chain} handle {handle}') # Functions below used by template generation def nft_action(vyos_action): if vyos_action == 'accept': return 'return' return vyos_action def parse_rule(rule_conf, hook, fw_name, rule_id, ip_name): output = [] if ip_name == 'ip6': def_suffix = '6' family = 'ipv6' else: def_suffix = '' family = 'bri' if ip_name == 'bri' else 'ipv4' if 'state' in rule_conf and rule_conf['state']: states = ",".join([s for s in rule_conf['state']]) if states: output.append(f'ct state {{{states}}}') if 'conntrack_helper' in rule_conf: helper_map = {'h323': ['RAS', 'Q.931'], 'nfs': ['rpc'], 'sqlnet': ['tns']} helper_out = [] for helper in rule_conf['conntrack_helper']: if helper in helper_map: helper_out.extend(helper_map[helper]) else: helper_out.append(helper) if helper_out: helper_str = ','.join(f'"{s}"' for s in helper_out) output.append(f'ct helper {{{helper_str}}}') if 'connection_status' in rule_conf and rule_conf['connection_status']: status = rule_conf['connection_status'] if status['nat'] == 'destination': nat_status = 'dnat' output.append(f'ct status {nat_status}') if status['nat'] == 'source': nat_status = 'snat' output.append(f'ct status {nat_status}') if 'protocol' in rule_conf and rule_conf['protocol'] != 'all': proto = rule_conf['protocol'] operator = '' if proto[0] == '!': operator = '!=' proto = proto[1:] if proto == 'tcp_udp': proto = '{tcp, udp}' output.append(f'meta l4proto {operator} {proto}') for side in ['destination', 'source']: if side in rule_conf: prefix = side[0] side_conf = rule_conf[side] address_mask = side_conf.get('address_mask', None) if 'address' in side_conf: suffix = side_conf['address'] operator = '' exclude = suffix[0] == '!' if exclude: operator = '!= ' suffix = suffix[1:] if address_mask: operator = '!=' if exclude else '==' operator = f'& {address_mask} {operator} ' output.append(f'{ip_name} {prefix}addr {operator}{suffix}') if 'fqdn' in side_conf: fqdn = side_conf['fqdn'] hook_name = '' operator = '' if fqdn[0] == '!': operator = '!=' if hook == 'FWD': hook_name = 'forward' if hook == 'INP': hook_name = 'input' if hook == 'OUT': hook_name = 'output' if hook == 'PRE': hook_name = 'prerouting' if hook == 'NAM': hook_name = f'name{def_suffix}' output.append(f'{ip_name} {prefix}addr {operator} @FQDN_{hook_name}_{fw_name}_{rule_id}_{prefix}') if dict_search_args(side_conf, 'geoip', 'country_code'): operator = '' hook_name = '' if dict_search_args(side_conf, 'geoip', 'inverse_match') != None: operator = '!=' if hook == 'FWD': hook_name = 'forward' if hook == 'INP': hook_name = 'input' if hook == 'OUT': hook_name = 'output' if hook == 'PRE': hook_name = 'prerouting' if hook == 'NAM': hook_name = f'name' output.append(f'{ip_name} {prefix}addr {operator} @GEOIP_CC{def_suffix}_{hook_name}_{fw_name}_{rule_id}') if 'mac_address' in side_conf: suffix = side_conf["mac_address"] if suffix[0] == '!': suffix = f'!= {suffix[1:]}' output.append(f'ether {prefix}addr {suffix}') if 'port' in side_conf: proto = rule_conf['protocol'] port = side_conf['port'].split(',') ports = [] negated_ports = [] for p in port: if p[0] == '!': negated_ports.append(p[1:]) else: ports.append(p) if proto == 'tcp_udp': proto = 'th' if ports: ports_str = ','.join(ports) output.append(f'{proto} {prefix}port {{{ports_str}}}') if negated_ports: negated_ports_str = ','.join(negated_ports) output.append(f'{proto} {prefix}port != {{{negated_ports_str}}}') if 'group' in side_conf: group = side_conf['group'] if 'address_group' in group: group_name = group['address_group'] operator = '' exclude = group_name[0] == "!" if exclude: operator = '!=' group_name = group_name[1:] if address_mask: operator = '!=' if exclude else '==' operator = f'& {address_mask} {operator}' output.append(f'{ip_name} {prefix}addr {operator} @A{def_suffix}_{group_name}') elif 'dynamic_address_group' in group: group_name = group['dynamic_address_group'] operator = '' exclude = group_name[0] == "!" if exclude: operator = '!=' group_name = group_name[1:] output.append(f'{ip_name} {prefix}addr {operator} @DA{def_suffix}_{group_name}') # Generate firewall group domain-group elif 'domain_group' in group: group_name = group['domain_group'] operator = '' if group_name[0] == '!': operator = '!=' group_name = group_name[1:] output.append(f'{ip_name} {prefix}addr {operator} @D_{group_name}') elif 'network_group' in group: group_name = group['network_group'] operator = '' if group_name[0] == '!': operator = '!=' group_name = group_name[1:] output.append(f'{ip_name} {prefix}addr {operator} @N{def_suffix}_{group_name}') if 'mac_group' in group: group_name = group['mac_group'] operator = '' if group_name[0] == '!': operator = '!=' group_name = group_name[1:] output.append(f'ether {prefix}addr {operator} @M_{group_name}') if 'port_group' in group: proto = rule_conf['protocol'] group_name = group['port_group'] if proto == 'tcp_udp': proto = 'th' operator = '' if group_name[0] == '!': operator = '!=' group_name = group_name[1:] output.append(f'{proto} {prefix}port {operator} @P_{group_name}') if dict_search_args(rule_conf, 'action') == 'synproxy': output.append('ct state invalid,untracked') if 'hop_limit' in rule_conf: operators = {'eq': '==', 'gt': '>', 'lt': '<'} for op, operator in operators.items(): if op in rule_conf['hop_limit']: value = rule_conf['hop_limit'][op] output.append(f'ip6 hoplimit {operator} {value}') if 'inbound_interface' in rule_conf: operator = '' if 'name' in rule_conf['inbound_interface']: iiface = rule_conf['inbound_interface']['name'] if iiface[0] == '!': operator = '!=' iiface = iiface[1:] output.append(f'iifname {operator} {{{iiface}}}') elif 'group' in rule_conf['inbound_interface']: iiface = rule_conf['inbound_interface']['group'] if iiface[0] == '!': operator = '!=' iiface = iiface[1:] output.append(f'iifname {operator} @I_{iiface}') if 'outbound_interface' in rule_conf: operator = '' if 'name' in rule_conf['outbound_interface']: oiface = rule_conf['outbound_interface']['name'] if oiface[0] == '!': operator = '!=' oiface = oiface[1:] output.append(f'oifname {operator} {{{oiface}}}') elif 'group' in rule_conf['outbound_interface']: oiface = rule_conf['outbound_interface']['group'] if oiface[0] == '!': operator = '!=' oiface = oiface[1:] output.append(f'oifname {operator} @I_{oiface}') if 'ttl' in rule_conf: operators = {'eq': '==', 'gt': '>', 'lt': '<'} for op, operator in operators.items(): if op in rule_conf['ttl']: value = rule_conf['ttl'][op] output.append(f'ip ttl {operator} {value}') for icmp in ['icmp', 'icmpv6']: if icmp in rule_conf: if 'type_name' in rule_conf[icmp]: output.append(icmp + ' type ' + rule_conf[icmp]['type_name']) else: if 'code' in rule_conf[icmp]: output.append(icmp + ' code ' + rule_conf[icmp]['code']) if 'type' in rule_conf[icmp]: output.append(icmp + ' type ' + rule_conf[icmp]['type']) if 'packet_length' in rule_conf: lengths_str = ','.join(rule_conf['packet_length']) output.append(f'ip{def_suffix} length {{{lengths_str}}}') if 'packet_length_exclude' in rule_conf: negated_lengths_str = ','.join(rule_conf['packet_length_exclude']) output.append(f'ip{def_suffix} length != {{{negated_lengths_str}}}') if 'packet_type' in rule_conf: output.append(f'pkttype ' + rule_conf['packet_type']) if 'dscp' in rule_conf: dscp_str = ','.join(rule_conf['dscp']) output.append(f'ip{def_suffix} dscp {{{dscp_str}}}') if 'dscp_exclude' in rule_conf: negated_dscp_str = ','.join(rule_conf['dscp_exclude']) output.append(f'ip{def_suffix} dscp != {{{negated_dscp_str}}}') if 'ipsec' in rule_conf: if 'match_ipsec_in' in rule_conf['ipsec']: output.append('meta ipsec == 1') if 'match_none_in' in rule_conf['ipsec']: output.append('meta ipsec == 0') if 'match_ipsec_out' in rule_conf['ipsec']: output.append('rt ipsec exists') if 'match_none_out' in rule_conf['ipsec']: output.append('rt ipsec missing') if 'fragment' in rule_conf: # Checking for fragmentation after priority -400 is not possible, # so we use a priority -450 hook to set a mark if 'match_frag' in rule_conf['fragment']: output.append('meta mark 0xffff1') if 'match_non_frag' in rule_conf['fragment']: output.append('meta mark != 0xffff1') if 'limit' in rule_conf: if 'rate' in rule_conf['limit']: output.append(f'limit rate {rule_conf["limit"]["rate"]}') if 'burst' in rule_conf['limit']: output.append(f'burst {rule_conf["limit"]["burst"]} packets') if 'recent' in rule_conf: count = rule_conf['recent']['count'] time = rule_conf['recent']['time'] output.append(f'add @RECENT{def_suffix}_{hook}_{fw_name}_{rule_id} {{ {ip_name} saddr limit rate over {count}/{time} burst {count} packets }}') if 'time' in rule_conf: output.append(parse_time(rule_conf['time'])) tcp_flags = dict_search_args(rule_conf, 'tcp', 'flags') if tcp_flags: output.append(parse_tcp_flags(tcp_flags)) # TCP MSS tcp_mss = dict_search_args(rule_conf, 'tcp', 'mss') if tcp_mss: output.append(f'tcp option maxseg size {tcp_mss}') if 'connection_mark' in rule_conf: conn_mark_str = ','.join(rule_conf['connection_mark']) output.append(f'ct mark {{{conn_mark_str}}}') if 'mark' in rule_conf: mark = rule_conf['mark'] operator = '' if mark[0] == '!': operator = '!=' mark = mark[1:] output.append(f'meta mark {operator} {{{mark}}}') if 'vlan' in rule_conf: if 'id' in rule_conf['vlan']: output.append(f'vlan id {rule_conf["vlan"]["id"]}') if 'priority' in rule_conf['vlan']: output.append(f'vlan pcp {rule_conf["vlan"]["priority"]}') if 'log' in rule_conf: action = rule_conf['action'] if 'action' in rule_conf else 'accept' #output.append(f'log prefix "[{fw_name[:19]}-{rule_id}-{action[:1].upper()}]"') output.append(f'log prefix "[{family}-{hook}-{fw_name}-{rule_id}-{action[:1].upper()}]"') ##{family}-{hook}-{fw_name}-{rule_id} if 'log_options' in rule_conf: if 'level' in rule_conf['log_options']: log_level = rule_conf['log_options']['level'] output.append(f'log level {log_level}') if 'group' in rule_conf['log_options']: log_group = rule_conf['log_options']['group'] output.append(f'log group {log_group}') if 'queue_threshold' in rule_conf['log_options']: queue_threshold = rule_conf['log_options']['queue_threshold'] output.append(f'queue-threshold {queue_threshold}') if 'snapshot_length' in rule_conf['log_options']: log_snaplen = rule_conf['log_options']['snapshot_length'] output.append(f'snaplen {log_snaplen}') output.append('counter') if 'add_address_to_group' in rule_conf: for side in ['destination_address', 'source_address']: if side in rule_conf['add_address_to_group']: prefix = side[0] side_conf = rule_conf['add_address_to_group'][side] dyn_group = side_conf['address_group'] if 'timeout' in side_conf: timeout_value = side_conf['timeout'] output.append(f'set update ip{def_suffix} {prefix}addr timeout {timeout_value} @DA{def_suffix}_{dyn_group}') else: output.append(f'set update ip{def_suffix} saddr @DA{def_suffix}_{dyn_group}') set_table = False if 'set' in rule_conf: # Parse set command used in policy route: if 'connection_mark' in rule_conf['set']: conn_mark = rule_conf['set']['connection_mark'] output.append(f'ct mark set {conn_mark}') if 'dscp' in rule_conf['set']: dscp = rule_conf['set']['dscp'] output.append(f'ip{def_suffix} dscp set {dscp}') if 'mark' in rule_conf['set']: mark = rule_conf['set']['mark'] output.append(f'meta mark set {mark}') if 'vrf' in rule_conf['set']: set_table = True vrf_name = rule_conf['set']['vrf'] if vrf_name == 'default': table = rt_global_vrf else: # NOTE: VRF->table ID lookup depends on the VRF iface already existing. table = get_vrf_tableid(vrf_name) if 'table' in rule_conf['set']: set_table = True table = rule_conf['set']['table'] if table == 'main': table = rt_global_table if set_table: mark = 0x7FFFFFFF - int(table) output.append(f'meta mark set {mark}') if 'tcp_mss' in rule_conf['set']: mss = rule_conf['set']['tcp_mss'] output.append(f'tcp option maxseg size set {mss}') if 'action' in rule_conf: if rule_conf['action'] == 'offload': offload_target = rule_conf['offload_target'] output.append(f'flow add @VYOS_FLOWTABLE_{offload_target}') else: output.append(f'{rule_conf["action"]}') if 'jump' in rule_conf['action']: target = rule_conf['jump_target'] output.append(f'NAME{def_suffix}_{target}') if 'queue' in rule_conf['action']: if 'queue' in rule_conf: target = rule_conf['queue'] output.append(f'num {target}') if 'queue_options' in rule_conf: queue_opts = ','.join(rule_conf['queue_options']) output.append(f'{queue_opts}') # Synproxy if 'synproxy' in rule_conf: synproxy_mss = dict_search_args(rule_conf, 'synproxy', 'tcp', 'mss') if synproxy_mss: output.append(f'mss {synproxy_mss}') synproxy_ws = dict_search_args(rule_conf, 'synproxy', 'tcp', 'window_scale') if synproxy_ws: output.append(f'wscale {synproxy_ws} timestamp sack-perm') else: if set_table: output.append('return') output.append(f'comment "{family}-{hook}-{fw_name}-{rule_id}"') return " ".join(output) def parse_tcp_flags(flags): include = [flag for flag in flags if flag != 'not'] exclude = list(flags['not']) if 'not' in flags else [] return f'tcp flags & ({"|".join(include + exclude)}) == {"|".join(include) if include else "0x0"}' def parse_time(time): out = [] if 'startdate' in time: start = time['startdate'] if 'T' not in start and 'starttime' in time: start += f' {time["starttime"]}' out.append(f'time >= "{start}"') if 'starttime' in time and 'startdate' not in time: out.append(f'hour >= "{time["starttime"]}"') if 'stopdate' in time: stop = time['stopdate'] if 'T' not in stop and 'stoptime' in time: stop += f' {time["stoptime"]}' out.append(f'time < "{stop}"') if 'stoptime' in time and 'stopdate' not in time: out.append(f'hour < "{time["stoptime"]}"') if 'weekdays' in time: days = time['weekdays'].split(",") out_days = [f'"{day}"' for day in days if day[0] != '!'] out.append(f'day {{{",".join(out_days)}}}') return " ".join(out) # GeoIP nftables_geoip_conf = '/run/nftables-geoip.conf' geoip_database = '/usr/share/vyos-geoip/dbip-country-lite.csv.gz' geoip_lock_file = '/run/vyos-geoip.lock' def geoip_load_data(codes=[]): data = None if not os.path.exists(geoip_database): return [] try: with gzip.open(geoip_database, mode='rt') as csv_fh: reader = csv.reader(csv_fh) out = [] for start, end, code in reader: if code.lower() in codes: out.append([start, end, code.lower()]) return out except: print('Error: Failed to open GeoIP database') return [] def geoip_download_data(): url = 'https://download.db-ip.com/free/dbip-country-lite-{}.csv.gz'.format(strftime("%Y-%m")) try: dirname = os.path.dirname(geoip_database) if not os.path.exists(dirname): os.mkdir(dirname) download(geoip_database, url) print("Downloaded GeoIP database") return True except: print("Error: Failed to download GeoIP database") return False class GeoIPLock(object): def __init__(self, file): self.file = file def __enter__(self): if os.path.exists(self.file): return False Path(self.file).touch() return True def __exit__(self, exc_type, exc_value, tb): os.unlink(self.file) def geoip_update(firewall, force=False): with GeoIPLock(geoip_lock_file) as lock: if not lock: print("Script is already running") return False if not firewall: print("Firewall is not configured") return True if not os.path.exists(geoip_database): if not geoip_download_data(): return False elif force: geoip_download_data() ipv4_codes = {} ipv6_codes = {} ipv4_sets = {} ipv6_sets = {} # Map country codes to set names for codes, path in dict_search_recursive(firewall, 'country_code'): set_name = f'GEOIP_CC_{path[1]}_{path[2]}_{path[4]}' if ( path[0] == 'ipv4'): for code in codes: ipv4_codes.setdefault(code, []).append(set_name) elif ( path[0] == 'ipv6' ): set_name = f'GEOIP_CC6_{path[1]}_{path[2]}_{path[4]}' for code in codes: ipv6_codes.setdefault(code, []).append(set_name) if not ipv4_codes and not ipv6_codes: if force: print("GeoIP not in use by firewall") return True geoip_data = geoip_load_data([*ipv4_codes, *ipv6_codes]) # Iterate IP blocks to assign to sets for start, end, code in geoip_data: ipv4 = is_ipv4(start) if code in ipv4_codes and ipv4: ip_range = f'{start}-{end}' if start != end else start for setname in ipv4_codes[code]: ipv4_sets.setdefault(setname, []).append(ip_range) if code in ipv6_codes and not ipv4: ip_range = f'{start}-{end}' if start != end else start for setname in ipv6_codes[code]: ipv6_sets.setdefault(setname, []).append(ip_range) render(nftables_geoip_conf, 'firewall/nftables-geoip-update.j2', { 'ipv4_sets': ipv4_sets, 'ipv6_sets': ipv6_sets }) result = run(f'nft --file {nftables_geoip_conf}') if result != 0: print('Error: GeoIP failed to update firewall') return False return True