AlkantarClanX12
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# -*- coding: utf-8 -*- # # Copyright (C) 2018 Red Hat, Inc. # # Authors: # Eric Garver <e@erig.me> # # This program 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 2 of the License, or # (at your option) any later version. # # 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 <http://www.gnu.org/licenses/>. # from __future__ import absolute_import import copy import json import ipaddress from firewall.core.logger import log from firewall.functions import check_mac, getPortRange, normalizeIP6, \ check_single_address, check_address from firewall.errors import FirewallError, UNKNOWN_ERROR, INVALID_RULE, \ INVALID_ICMPTYPE, INVALID_TYPE, INVALID_ENTRY, \ INVALID_PORT from firewall.core.rich import Rich_Accept, Rich_Reject, Rich_Drop, Rich_Mark, \ Rich_Masquerade, Rich_ForwardPort, Rich_IcmpBlock from nftables.nftables import Nftables TABLE_NAME = "firewalld" TABLE_NAME_POLICY = TABLE_NAME + "_" + "policy_drop" POLICY_CHAIN_PREFIX = "policy_" # Map iptables (table, chain) to hooks and priorities. # These are well defined by NF_IP_PRI_* defines in netfilter. # # This is analogous to ipXtables.BUILT_IN_CHAINS, but we omit the chains that # are only used for direct rules. # # Note: All hooks use their standard position + NFT_HOOK_OFFSET. This means # iptables will have DROP precedence. It also means that even if iptables # ACCEPTs a packet it may still be dropped later by firewalld's rules. # NFT_HOOK_OFFSET = 10 IPTABLES_TO_NFT_HOOK = { #"security": { # "INPUT": ("input", 50 + NFT_HOOK_OFFSET), # "OUTPUT": ("output", 50 + NFT_HOOK_OFFSET), # "FORWARD": ("forward", 50 + NFT_HOOK_OFFSET), #}, "raw": { # "PREROUTING": ("prerouting", -300 + NFT_HOOK_OFFSET), # "OUTPUT": ("output", -300 + NFT_HOOK_OFFSET), }, "mangle": { "PREROUTING": ("prerouting", -150 + NFT_HOOK_OFFSET), # "POSTROUTING": ("postrouting", -150 + NFT_HOOK_OFFSET), # "INPUT": ("input", -150 + NFT_HOOK_OFFSET), # "OUTPUT": ("output", -150 + NFT_HOOK_OFFSET), # "FORWARD": ("forward", -150 + NFT_HOOK_OFFSET), }, "nat": { "PREROUTING": ("prerouting", -100 + NFT_HOOK_OFFSET), "POSTROUTING": ("postrouting", 100 + NFT_HOOK_OFFSET), # "INPUT": ("input", 100 + NFT_HOOK_OFFSET), # "OUTPUT": ("output", -100 + NFT_HOOK_OFFSET), }, "filter": { "PREROUTING": ("prerouting", 0 + NFT_HOOK_OFFSET), "INPUT": ("input", 0 + NFT_HOOK_OFFSET), "FORWARD": ("forward", 0 + NFT_HOOK_OFFSET), "OUTPUT": ("output", 0 + NFT_HOOK_OFFSET), }, } def _icmp_types_fragments(protocol, type, code=None): fragments = [{"match": {"left": {"payload": {"protocol": protocol, "field": "type"}}, "op": "==", "right": type}}] if code is not None: fragments.append({"match": {"left": {"payload": {"protocol": protocol, "field": "code"}}, "op": "==", "right": code}}) return fragments # Most ICMP types are provided by nft, but for the codes we have to use numeric # values. # ICMP_TYPES_FRAGMENTS = { "ipv4": { "communication-prohibited": _icmp_types_fragments("icmp", "destination-unreachable", 13), "destination-unreachable": _icmp_types_fragments("icmp", "destination-unreachable"), "echo-reply": _icmp_types_fragments("icmp", "echo-reply"), "echo-request": _icmp_types_fragments("icmp", "echo-request"), "fragmentation-needed": _icmp_types_fragments("icmp", "destination-unreachable", 4), "host-precedence-violation": _icmp_types_fragments("icmp", "destination-unreachable", 14), "host-prohibited": _icmp_types_fragments("icmp", "destination-unreachable", 10), "host-redirect": _icmp_types_fragments("icmp", "redirect", 1), "host-unknown": _icmp_types_fragments("icmp", "destination-unreachable", 7), "host-unreachable": _icmp_types_fragments("icmp", "destination-unreachable", 1), "ip-header-bad": _icmp_types_fragments("icmp", "parameter-problem", 1), "network-prohibited": _icmp_types_fragments("icmp", "destination-unreachable", 8), "network-redirect": _icmp_types_fragments("icmp", "redirect", 0), "network-unknown": _icmp_types_fragments("icmp", "destination-unreachable", 6), "network-unreachable": _icmp_types_fragments("icmp", "destination-unreachable", 0), "parameter-problem": _icmp_types_fragments("icmp", "parameter-problem"), "port-unreachable": _icmp_types_fragments("icmp", "destination-unreachable", 3), "precedence-cutoff": _icmp_types_fragments("icmp", "destination-unreachable", 15), "protocol-unreachable": _icmp_types_fragments("icmp", "destination-unreachable", 2), "redirect": _icmp_types_fragments("icmp", "redirect"), "required-option-missing": _icmp_types_fragments("icmp", "parameter-problem", 1), "router-advertisement": _icmp_types_fragments("icmp", "router-advertisement"), "router-solicitation": _icmp_types_fragments("icmp", "router-solicitation"), "source-quench": _icmp_types_fragments("icmp", "source-quench"), "source-route-failed": _icmp_types_fragments("icmp", "destination-unreachable", 5), "time-exceeded": _icmp_types_fragments("icmp", "time-exceeded"), "timestamp-reply": _icmp_types_fragments("icmp", "timestamp-reply"), "timestamp-request": _icmp_types_fragments("icmp", "timestamp-request"), "tos-host-redirect": _icmp_types_fragments("icmp", "redirect", 3), "tos-host-unreachable": _icmp_types_fragments("icmp", "destination-unreachable", 12), "tos-network-redirect": _icmp_types_fragments("icmp", "redirect", 2), "tos-network-unreachable": _icmp_types_fragments("icmp", "destination-unreachable", 11), "ttl-zero-during-reassembly": _icmp_types_fragments("icmp", "time-exceeded", 1), "ttl-zero-during-transit": _icmp_types_fragments("icmp", "time-exceeded", 0), }, "ipv6": { "address-unreachable": _icmp_types_fragments("icmpv6", "destination-unreachable", 3), "bad-header": _icmp_types_fragments("icmpv6", "parameter-problem", 0), "beyond-scope": _icmp_types_fragments("icmpv6", "destination-unreachable", 2), "communication-prohibited": _icmp_types_fragments("icmpv6", "destination-unreachable", 1), "destination-unreachable": _icmp_types_fragments("icmpv6", "destination-unreachable"), "echo-reply": _icmp_types_fragments("icmpv6", "echo-reply"), "echo-request": _icmp_types_fragments("icmpv6", "echo-request"), "failed-policy": _icmp_types_fragments("icmpv6", "destination-unreachable", 5), "mld-listener-done": _icmp_types_fragments("icmpv6", "mld-listener-done"), "mld-listener-query": _icmp_types_fragments("icmpv6", "mld-listener-query"), "mld-listener-report": _icmp_types_fragments("icmpv6", "mld-listener-report"), "mld2-listener-report": _icmp_types_fragments("icmpv6", "mld2-listener-report"), "neighbour-advertisement": _icmp_types_fragments("icmpv6", "nd-neighbor-advert"), "neighbour-solicitation": _icmp_types_fragments("icmpv6", "nd-neighbor-solicit"), "no-route": _icmp_types_fragments("icmpv6", "destination-unreachable", 0), "packet-too-big": _icmp_types_fragments("icmpv6", "packet-too-big"), "parameter-problem": _icmp_types_fragments("icmpv6", "parameter-problem"), "port-unreachable": _icmp_types_fragments("icmpv6", "destination-unreachable", 4), "redirect": _icmp_types_fragments("icmpv6", "nd-redirect"), "reject-route": _icmp_types_fragments("icmpv6", "destination-unreachable", 6), "router-advertisement": _icmp_types_fragments("icmpv6", "nd-router-advert"), "router-solicitation": _icmp_types_fragments("icmpv6", "nd-router-solicit"), "time-exceeded": _icmp_types_fragments("icmpv6", "time-exceeded"), "ttl-zero-during-reassembly": _icmp_types_fragments("icmpv6", "time-exceeded", 1), "ttl-zero-during-transit": _icmp_types_fragments("icmpv6", "time-exceeded", 0), "unknown-header-type": _icmp_types_fragments("icmpv6", "parameter-problem", 1), "unknown-option": _icmp_types_fragments("icmpv6", "parameter-problem", 2), } } class nftables(object): name = "nftables" policies_supported = True def __init__(self, fw): self._fw = fw self.restore_command_exists = True self.available_tables = [] self.rule_to_handle = {} self.rule_ref_count = {} self.rich_rule_priority_counts = {} self.policy_priority_counts = {} self.zone_source_index_cache = {} self.created_tables = {"inet": [], "ip": [], "ip6": []} self.nftables = Nftables() self.nftables.set_echo_output(True) self.nftables.set_handle_output(True) def _run_replace_zone_source(self, rule, zone_source_index_cache): for verb in ["add", "insert", "delete"]: if verb in rule: break if "%%ZONE_SOURCE%%" in rule[verb]["rule"]: zone_source = (rule[verb]["rule"]["%%ZONE_SOURCE%%"]["zone"], rule[verb]["rule"]["%%ZONE_SOURCE%%"]["address"]) del rule[verb]["rule"]["%%ZONE_SOURCE%%"] elif "%%ZONE_INTERFACE%%" in rule[verb]["rule"]: zone_source = None del rule[verb]["rule"]["%%ZONE_INTERFACE%%"] else: return family = rule[verb]["rule"]["family"] if zone_source and verb == "delete": if family in zone_source_index_cache and \ zone_source in zone_source_index_cache[family]: zone_source_index_cache[family].remove(zone_source) elif verb != "delete": if family not in zone_source_index_cache: zone_source_index_cache[family] = [] if zone_source: # order source based dispatch by zone name if zone_source not in zone_source_index_cache[family]: zone_source_index_cache[family].append(zone_source) zone_source_index_cache[family].sort(key=lambda x: x[0]) index = zone_source_index_cache[family].index(zone_source) else: if self._fw._allow_zone_drifting: index = 0 else: index = len(zone_source_index_cache[family]) _verb_snippet = rule[verb] del rule[verb] if index == 0: rule["insert"] = _verb_snippet else: index -= 1 # point to the rule before insertion point rule["add"] = _verb_snippet rule["add"]["rule"]["index"] = index def reverse_rule(self, dict): if "insert" in dict: return {"delete": copy.deepcopy(dict["insert"])} elif "add" in dict: return {"delete": copy.deepcopy(dict["add"])} else: raise FirewallError(UNKNOWN_ERROR, "Failed to reverse rule") def _set_rule_replace_priority(self, rule, priority_counts, token): for verb in ["add", "insert", "delete"]: if verb in rule: break if token in rule[verb]["rule"]: priority = rule[verb]["rule"][token] del rule[verb]["rule"][token] if type(priority) != int: raise FirewallError(INVALID_RULE, "priority must be followed by a number") chain = (rule[verb]["rule"]["family"], rule[verb]["rule"]["chain"]) # family, chain # Add the rule to the priority counts. We don't need to store the # rule, just bump the ref count for the priority value. if verb == "delete": if chain not in priority_counts or \ priority not in priority_counts[chain] or \ priority_counts[chain][priority] <= 0: raise FirewallError(UNKNOWN_ERROR, "nonexistent or underflow of priority count") priority_counts[chain][priority] -= 1 else: if chain not in priority_counts: priority_counts[chain] = {} if priority not in priority_counts[chain]: priority_counts[chain][priority] = 0 # calculate index of new rule index = 0 for p in sorted(priority_counts[chain].keys()): if p == priority and verb == "insert": break index += priority_counts[chain][p] if p == priority and verb == "add": break priority_counts[chain][priority] += 1 _verb_snippet = rule[verb] del rule[verb] if index == 0: rule["insert"] = _verb_snippet else: index -= 1 # point to the rule before insertion point rule["add"] = _verb_snippet rule["add"]["rule"]["index"] = index def _get_rule_key(self, rule): for verb in ["add", "insert", "delete"]: if verb in rule and "rule" in rule[verb]: rule_key = copy.deepcopy(rule[verb]["rule"]) for non_key in ["index", "handle", "position"]: if non_key in rule_key: del rule_key[non_key] # str(rule_key) is insufficient because dictionary order is # not stable.. so abuse the JSON library rule_key = json.dumps(rule_key, sort_keys=True) return rule_key # Not a rule (it's a table, chain, etc) return None def set_rules(self, rules, log_denied): _valid_verbs = ["add", "insert", "delete", "flush", "replace"] _valid_add_verbs = ["add", "insert", "replace"] _deduplicated_rules = [] _executed_rules = [] rich_rule_priority_counts = copy.deepcopy(self.rich_rule_priority_counts) policy_priority_counts = copy.deepcopy(self.policy_priority_counts) zone_source_index_cache = copy.deepcopy(self.zone_source_index_cache) rule_ref_count = self.rule_ref_count.copy() for rule in rules: if type(rule) != dict: raise FirewallError(UNKNOWN_ERROR, "rule must be a dictionary, rule: %s" % (rule)) for verb in _valid_verbs: if verb in rule: break if verb not in rule: raise FirewallError(INVALID_RULE, "no valid verb found, rule: %s" % (rule)) rule_key = self._get_rule_key(rule) # rule deduplication if rule_key in rule_ref_count: log.debug2("%s: prev rule ref cnt %d, %s", self.__class__, rule_ref_count[rule_key], rule_key) if verb != "delete": rule_ref_count[rule_key] += 1 continue elif rule_ref_count[rule_key] > 1: rule_ref_count[rule_key] -= 1 continue elif rule_ref_count[rule_key] == 1: rule_ref_count[rule_key] -= 1 else: raise FirewallError(UNKNOWN_ERROR, "rule ref count bug: rule_key '%s', cnt %d" % (rule_key, rule_ref_count[rule_key])) elif rule_key and verb != "delete": rule_ref_count[rule_key] = 1 _deduplicated_rules.append(rule) _rule = copy.deepcopy(rule) if rule_key: # filter empty rule expressions. Rich rules add quite a bit of # them, but it makes the rest of the code simpler. libnftables # does not tolerate them. _rule[verb]["rule"]["expr"] = list(filter(None, _rule[verb]["rule"]["expr"])) self._set_rule_replace_priority(_rule, rich_rule_priority_counts, "%%RICH_RULE_PRIORITY%%") self._set_rule_replace_priority(_rule, policy_priority_counts, "%%POLICY_PRIORITY%%") self._run_replace_zone_source(_rule, zone_source_index_cache) # delete using rule handle if verb == "delete": _rule = {"delete": {"rule": {"family": _rule["delete"]["rule"]["family"], "table": _rule["delete"]["rule"]["table"], "chain": _rule["delete"]["rule"]["chain"], "handle": self.rule_to_handle[rule_key]}}} _executed_rules.append(_rule) json_blob = {"nftables": [{"metainfo": {"json_schema_version": 1}}] + _executed_rules} if log.getDebugLogLevel() >= 3: # guarded with if statement because json.dumps() is expensive. log.debug3("%s: calling python-nftables with JSON blob: %s", self.__class__, json.dumps(json_blob)) rc, output, error = self.nftables.json_cmd(json_blob) if rc != 0: raise ValueError("'%s' failed: %s\nJSON blob:\n%s" % ("python-nftables", error, json.dumps(json_blob))) self.rich_rule_priority_counts = rich_rule_priority_counts self.policy_priority_counts = policy_priority_counts self.zone_source_index_cache = zone_source_index_cache self.rule_ref_count = rule_ref_count index = 0 for rule in _deduplicated_rules: index += 1 # +1 due to metainfo rule_key = self._get_rule_key(rule) if not rule_key: continue if "delete" in rule: del self.rule_to_handle[rule_key] del self.rule_ref_count[rule_key] continue for verb in _valid_add_verbs: if verb in output["nftables"][index]: break if verb not in output["nftables"][index]: continue self.rule_to_handle[rule_key] = output["nftables"][index][verb]["rule"]["handle"] def set_rule(self, rule, log_denied): self.set_rules([rule], log_denied) return "" def get_available_tables(self, table=None): # Tables always exist in nftables return [table] if table else IPTABLES_TO_NFT_HOOK.keys() def _build_delete_table_rules(self, table): # To avoid nftables returning ENOENT we always add the table before # deleting to guarantee it will exist. # # In the future, this add+delete should be replaced with "destroy", but # that verb is too new to rely upon. rules = [] for family in ["inet", "ip", "ip6"]: rules.append({"add": {"table": {"family": family, "name": table}}}) rules.append({"delete": {"table": {"family": family, "name": table}}}) return rules def build_flush_rules(self): # Policy is stashed in a separate table that we're _not_ going to # flush. As such, we retain the policy rule handles and ref counts. saved_rule_to_handle = {} saved_rule_ref_count = {} for rule in self._build_set_policy_rules_ct_rules(True): policy_key = self._get_rule_key(rule) if policy_key in self.rule_to_handle: saved_rule_to_handle[policy_key] = self.rule_to_handle[policy_key] saved_rule_ref_count[policy_key] = self.rule_ref_count[policy_key] self.rule_to_handle = saved_rule_to_handle self.rule_ref_count = saved_rule_ref_count self.rich_rule_priority_counts = {} self.policy_priority_counts = {} self.zone_source_index_cache = {} for family in ["inet", "ip", "ip6"]: if TABLE_NAME in self.created_tables[family]: self.created_tables[family].remove(TABLE_NAME) return self._build_delete_table_rules(TABLE_NAME) def _build_set_policy_rules_ct_rules(self, enable): add_del = { True: "add", False: "delete" }[enable] rules = [] for hook in ["input", "forward", "output"]: rules.append({add_del: {"rule": {"family": "inet", "table": TABLE_NAME_POLICY, "chain": "%s_%s" % ("filter", hook), "expr": [{"match": {"left": {"ct": {"key": "state"}}, "op": "in", "right": {"set": ["established", "related"]}}}, {"accept": None}]}}}) return rules def build_set_policy_rules(self, policy): # Policy is not exposed to the user. It's only to make sure we DROP # packets while reloading and for panic mode. As such, using hooks with # a higher priority than our base chains is sufficient. rules = [] if policy == "PANIC": rules.append({"add": {"table": {"family": "inet", "name": TABLE_NAME_POLICY}}}) self.created_tables["inet"].append(TABLE_NAME_POLICY) # Use "raw" priority for panic mode. This occurs before # conntrack, mangle, nat, etc for hook in ["prerouting", "output"]: rules.append({"add": {"chain": {"family": "inet", "table": TABLE_NAME_POLICY, "name": "%s_%s" % ("raw", hook), "type": "filter", "hook": hook, "prio": -300 + NFT_HOOK_OFFSET - 1, "policy": "drop"}}}) if policy == "DROP": rules.append({"add": {"table": {"family": "inet", "name": TABLE_NAME_POLICY}}}) self.created_tables["inet"].append(TABLE_NAME_POLICY) # To drop everything except existing connections we use # "filter" because it occurs _after_ conntrack. for hook in ["input", "forward", "output"]: rules.append({"add": {"chain": {"family": "inet", "table": TABLE_NAME_POLICY, "name": "%s_%s" % ("filter", hook), "type": "filter", "hook": hook, "prio": 0 + NFT_HOOK_OFFSET - 1, "policy": "drop"}}}) rules += self._build_set_policy_rules_ct_rules(True) elif policy == "ACCEPT": for rule in self._build_set_policy_rules_ct_rules(False): policy_key = self._get_rule_key(rule) if policy_key in self.rule_to_handle: rules.append(rule) rules += self._build_delete_table_rules(TABLE_NAME_POLICY) if TABLE_NAME_POLICY in self.created_tables["inet"]: self.created_tables["inet"].remove(TABLE_NAME_POLICY) else: FirewallError(UNKNOWN_ERROR, "not implemented") return rules def supported_icmp_types(self, ipv=None): # nftables supports any icmp_type via arbitrary type/code matching. # We just need a translation for it in ICMP_TYPES_FRAGMENTS. supported = set() for _ipv in [ipv] if ipv else ICMP_TYPES_FRAGMENTS.keys(): supported.update(ICMP_TYPES_FRAGMENTS[_ipv].keys()) return list(supported) def build_default_tables(self): default_tables = [] for family in ["inet", "ip", "ip6"]: default_tables.append({"add": {"table": {"family": family, "name": TABLE_NAME}}}) self.created_tables[family].append(TABLE_NAME) return default_tables def build_default_rules(self, log_denied="off"): default_rules = [] for chain in IPTABLES_TO_NFT_HOOK["mangle"].keys(): default_rules.append({"add": {"chain": {"family": "inet", "table": TABLE_NAME, "name": "mangle_%s" % chain, "type": "filter", "hook": "%s" % IPTABLES_TO_NFT_HOOK["mangle"][chain][0], "prio": IPTABLES_TO_NFT_HOOK["mangle"][chain][1]}}}) for dispatch_suffix in ["POLICIES_pre", "ZONES_SOURCE", "ZONES", "POLICIES_post"] if self._fw._allow_zone_drifting else ["POLICIES_pre", "ZONES", "POLICIES_post"]: default_rules.append({"add": {"chain": {"family": "inet", "table": TABLE_NAME, "name": "mangle_%s_%s" % (chain, dispatch_suffix)}}}) default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "mangle_%s" % chain, "expr": [{"jump": {"target": "mangle_%s_%s" % (chain, dispatch_suffix)}}]}}}) for family in ["ip", "ip6"]: for chain in IPTABLES_TO_NFT_HOOK["nat"].keys(): default_rules.append({"add": {"chain": {"family": family, "table": TABLE_NAME, "name": "nat_%s" % chain, "type": "nat", "hook": "%s" % IPTABLES_TO_NFT_HOOK["nat"][chain][0], "prio": IPTABLES_TO_NFT_HOOK["nat"][chain][1]}}}) for dispatch_suffix in ["POLICIES_pre", "ZONES_SOURCE", "ZONES", "POLICIES_post"] if self._fw._allow_zone_drifting else ["POLICIES_pre", "ZONES", "POLICIES_post"]: default_rules.append({"add": {"chain": {"family": family, "table": TABLE_NAME, "name": "nat_%s_%s" % (chain, dispatch_suffix)}}}) default_rules.append({"add": {"rule": {"family": family, "table": TABLE_NAME, "chain": "nat_%s" % chain, "expr": [{"jump": {"target": "nat_%s_%s" % (chain, dispatch_suffix)}}]}}}) for chain in IPTABLES_TO_NFT_HOOK["filter"].keys(): default_rules.append({"add": {"chain": {"family": "inet", "table": TABLE_NAME, "name": "filter_%s" % chain, "type": "filter", "hook": "%s" % IPTABLES_TO_NFT_HOOK["filter"][chain][0], "prio": IPTABLES_TO_NFT_HOOK["filter"][chain][1]}}}) # filter, INPUT default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s" % "INPUT", "expr": [{"match": {"left": {"ct": {"key": "state"}}, "op": "in", "right": {"set": ["established", "related"]}}}, {"accept": None}]}}}) default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s" % "INPUT", "expr": [{"match": {"left": {"ct": {"key": "status"}}, "op": "in", "right": "dnat"}}, {"accept": None}]}}}) default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s" % "INPUT", "expr": [{"match": {"left": {"meta": {"key": "iifname"}}, "op": "==", "right": "lo"}}, {"accept": None}]}}}) for dispatch_suffix in ["POLICIES_pre", "ZONES_SOURCE", "ZONES", "POLICIES_post"] if self._fw._allow_zone_drifting else ["POLICIES_pre", "ZONES", "POLICIES_post"]: default_rules.append({"add": {"chain": {"family": "inet", "table": TABLE_NAME, "name": "filter_%s_%s" % ("INPUT", dispatch_suffix)}}}) default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s" % "INPUT", "expr": [{"jump": {"target": "filter_%s_%s" % ("INPUT", dispatch_suffix)}}]}}}) if log_denied != "off": default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s" % "INPUT", "expr": [{"match": {"left": {"ct": {"key": "state"}}, "op": "in", "right": {"set": ["invalid"]}}}, self._pkttype_match_fragment(log_denied), {"log": {"prefix": "STATE_INVALID_DROP: "}}]}}}) default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s" % "INPUT", "expr": [{"match": {"left": {"ct": {"key": "state"}}, "op": "in", "right": {"set": ["invalid"]}}}, {"drop": None}]}}}) if log_denied != "off": default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s" % "INPUT", "expr": [self._pkttype_match_fragment(log_denied), {"log": {"prefix": "FINAL_REJECT: "}}]}}}) default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s" % "INPUT", "expr": [{"reject": {"type": "icmpx", "expr": "admin-prohibited"}}]}}}) # filter, FORWARD default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s" % "FORWARD", "expr": [{"match": {"left": {"ct": {"key": "state"}}, "op": "in", "right": {"set": ["established", "related"]}}}, {"accept": None}]}}}) default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s" % "FORWARD", "expr": [{"match": {"left": {"ct": {"key": "status"}}, "op": "in", "right": "dnat"}}, {"accept": None}]}}}) default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s" % "FORWARD", "expr": [{"match": {"left": {"meta": {"key": "iifname"}}, "op": "==", "right": "lo"}}, {"accept": None}]}}}) for dispatch_suffix in ["POLICIES_pre"]: default_rules.append({"add": {"chain": {"family": "inet", "table": TABLE_NAME, "name": "filter_%s_%s" % ("FORWARD", dispatch_suffix)}}}) default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s" % "FORWARD", "expr": [{"jump": {"target": "filter_%s_%s" % ("FORWARD", dispatch_suffix)}}]}}}) for direction in ["IN", "OUT"]: for dispatch_suffix in ["ZONES_SOURCE", "ZONES"] if self._fw._allow_zone_drifting else ["ZONES"]: default_rules.append({"add": {"chain": {"family": "inet", "table": TABLE_NAME, "name": "filter_%s_%s_%s" % ("FORWARD", direction, dispatch_suffix)}}}) default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s" % "FORWARD", "expr": [{"jump": {"target": "filter_%s_%s_%s" % ("FORWARD", direction, dispatch_suffix)}}]}}}) for dispatch_suffix in ["POLICIES_post"]: default_rules.append({"add": {"chain": {"family": "inet", "table": TABLE_NAME, "name": "filter_%s_%s" % ("FORWARD", dispatch_suffix)}}}) default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s" % "FORWARD", "expr": [{"jump": {"target": "filter_%s_%s" % ("FORWARD", dispatch_suffix)}}]}}}) if log_denied != "off": default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s" % "FORWARD", "expr": [{"match": {"left": {"ct": {"key": "state"}}, "op": "in", "right": {"set": ["invalid"]}}}, self._pkttype_match_fragment(log_denied), {"log": {"prefix": "STATE_INVALID_DROP: "}}]}}}) default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s" % "FORWARD", "expr": [{"match": {"left": {"ct": {"key": "state"}}, "op": "in", "right": {"set": ["invalid"]}}}, {"drop": None}]}}}) if log_denied != "off": default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s" % "FORWARD", "expr": [self._pkttype_match_fragment(log_denied), {"log": {"prefix": "FINAL_REJECT: "}}]}}}) default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s" % "FORWARD", "expr": [{"reject": {"type": "icmpx", "expr": "admin-prohibited"}}]}}}) # filter, OUTPUT default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s" % "OUTPUT", "expr": [{"match": {"left": {"ct": {"key": "state"}}, "op": "in", "right": {"set": ["established", "related"]}}}, {"accept": None}]}}}) default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_OUTPUT", "expr": [{"match": {"left": {"meta": {"key": "oifname"}}, "op": "==", "right": "lo"}}, {"accept": None}]}}}) for dispatch_suffix in ["POLICIES_pre"]: default_rules.append({"add": {"chain": {"family": "inet", "table": TABLE_NAME, "name": "filter_%s_%s" % ("OUTPUT", dispatch_suffix)}}}) default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s" % "OUTPUT", "expr": [{"jump": {"target": "filter_%s_%s" % ("OUTPUT", dispatch_suffix)}}]}}}) for dispatch_suffix in ["POLICIES_post"]: default_rules.append({"add": {"chain": {"family": "inet", "table": TABLE_NAME, "name": "filter_%s_%s" % ("OUTPUT", dispatch_suffix)}}}) default_rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s" % "OUTPUT", "expr": [{"jump": {"target": "filter_%s_%s" % ("OUTPUT", dispatch_suffix)}}]}}}) return default_rules def get_zone_table_chains(self, table): if table == "filter": return ["INPUT", "FORWARD_IN", "FORWARD_OUT"] if table == "mangle": return ["PREROUTING"] if table == "nat": return ["PREROUTING", "POSTROUTING"] return [] def build_policy_ingress_egress_rules(self, enable, policy, table, chain, ingress_interfaces, egress_interfaces, ingress_sources, egress_sources, family="inet"): # nat tables need to use ip/ip6 family if table == "nat" and family == "inet": rules = [] rules.extend(self.build_policy_ingress_egress_rules(enable, policy, table, chain, ingress_interfaces, egress_interfaces, ingress_sources, egress_sources, family="ip")) rules.extend(self.build_policy_ingress_egress_rules(enable, policy, table, chain, ingress_interfaces, egress_interfaces, ingress_sources, egress_sources, family="ip6")) return rules p_obj = self._fw.policy.get_policy(policy) chain_suffix = "pre" if p_obj.priority < 0 else "post" isSNAT = True if (table == "nat" and chain == "POSTROUTING") else False _policy = self._fw.policy.policy_base_chain_name(policy, table, POLICY_CHAIN_PREFIX, isSNAT) ingress_fragments = [] egress_fragments = [] if ingress_interfaces: ingress_fragments.append({"match": {"left": {"meta": {"key": "iifname"}}, "op": "==", "right": {"set": list(ingress_interfaces)}}}) if egress_interfaces: egress_fragments.append({"match": {"left": {"meta": {"key": "oifname"}}, "op": "==", "right": {"set": list(egress_interfaces)}}}) ipv_to_family = {"ipv4": "ip", "ipv6": "ip6"} if ingress_sources: for src in ingress_sources: # skip if this source doesn't apply to the current family. if table == "nat": ipv = self._fw.zone.check_source(src) if ipv in ipv_to_family and family != ipv_to_family[ipv]: continue ingress_fragments.append(self._rule_addr_fragment("saddr", src)) if egress_sources: for dst in egress_sources: # skip if this source doesn't apply to the current family. if table == "nat": ipv = self._fw.zone.check_source(dst) if ipv in ipv_to_family and family != ipv_to_family[ipv]: continue egress_fragments.append(self._rule_addr_fragment("daddr", dst)) def _generate_policy_dispatch_rule(ingress_fragment, egress_fragment): expr_fragments = [] if ingress_fragment: expr_fragments.append(ingress_fragment) if egress_fragment: expr_fragments.append(egress_fragment) expr_fragments.append({"jump": {"target": "%s_%s" % (table, _policy)}}) rule = {"family": family, "table": TABLE_NAME, "chain": "%s_%s_POLICIES_%s" % (table, chain, chain_suffix), "expr": expr_fragments} rule.update(self._policy_priority_fragment(p_obj)) if enable: return {"add": {"rule": rule}} else: return {"delete": {"rule": rule}} rules = [] if ingress_fragments: # zone --> [zone, ANY, HOST] for ingress_fragment in ingress_fragments: if egress_fragments: # zone --> zone for egress_fragment in egress_fragments: rules.append(_generate_policy_dispatch_rule(ingress_fragment, egress_fragment)) elif table =="nat" and egress_sources: # if the egress source is not for the current family (there # are no egress fragments), then avoid creating an invalid # catch all rule. pass else: # zone --> [ANY, HOST] rules.append(_generate_policy_dispatch_rule(ingress_fragment, None)) elif table =="nat" and ingress_sources: # if the ingress source is not for the current family (there are no # ingress fragments), then avoid creating an invalid catch all # rule. pass else: # [ANY, HOST] --> [zone, ANY, HOST] if egress_fragments: # [ANY, HOST] --> zone for egress_fragment in egress_fragments: rules.append(_generate_policy_dispatch_rule(None, egress_fragment)) elif table =="nat" and egress_sources: # if the egress source is not for the current family (there are # no egress fragments), then avoid creating an invalid catch # all rule. pass else: # [ANY, HOST] --> [ANY, HOST] rules.append(_generate_policy_dispatch_rule(None, None)) return rules def build_zone_source_interface_rules(self, enable, zone, policy, interface, table, chain, append=False, family="inet"): # nat tables needs to use ip/ip6 family if table == "nat" and family == "inet": rules = [] rules.extend(self.build_zone_source_interface_rules(enable, zone, policy, interface, table, chain, append, "ip")) rules.extend(self.build_zone_source_interface_rules(enable, zone, policy, interface, table, chain, append, "ip6")) return rules isSNAT = True if (table == "nat" and chain == "POSTROUTING") else False _policy = self._fw.policy.policy_base_chain_name(policy, table, POLICY_CHAIN_PREFIX, isSNAT=isSNAT) opt = { "PREROUTING": "iifname", "POSTROUTING": "oifname", "INPUT": "iifname", "FORWARD_IN": "iifname", "FORWARD_OUT": "oifname", "OUTPUT": "oifname", }[chain] if interface[len(interface)-1] == "+": interface = interface[:len(interface)-1] + "*" action = "goto" if interface == "*": expr_fragments = [{action: {"target": "%s_%s" % (table, _policy)}}] else: expr_fragments = [{"match": {"left": {"meta": {"key": opt}}, "op": "==", "right": interface}}, {action: {"target": "%s_%s" % (table, _policy)}}] if enable and not append: verb = "insert" rule = {"family": family, "table": TABLE_NAME, "chain": "%s_%s_ZONES" % (table, chain), "expr": expr_fragments} rule.update(self._zone_interface_fragment()) elif enable: verb = "add" rule = {"family": family, "table": TABLE_NAME, "chain": "%s_%s_ZONES" % (table, chain), "expr": expr_fragments} else: verb = "delete" rule = {"family": family, "table": TABLE_NAME, "chain": "%s_%s_ZONES" % (table, chain), "expr": expr_fragments} if not append: rule.update(self._zone_interface_fragment()) return [{verb: {"rule": rule}}] def build_zone_source_address_rules(self, enable, zone, policy, address, table, chain, family="inet"): # nat tables needs to use ip/ip6 family if table == "nat" and family == "inet": rules = [] if address.startswith("ipset:"): ipset_family = self._set_get_family(address[len("ipset:"):]) else: ipset_family = None if check_address("ipv4", address) or check_mac(address) or ipset_family == "ip": rules.extend(self.build_zone_source_address_rules(enable, zone, policy, address, table, chain, "ip")) if check_address("ipv6", address) or check_mac(address) or ipset_family == "ip6": rules.extend(self.build_zone_source_address_rules(enable, zone, policy, address, table, chain, "ip6")) return rules isSNAT = True if (table == "nat" and chain == "POSTROUTING") else False _policy = self._fw.policy.policy_base_chain_name(policy, table, POLICY_CHAIN_PREFIX, isSNAT=isSNAT) add_del = { True: "insert", False: "delete" }[enable] opt = { "PREROUTING": "saddr", "POSTROUTING": "daddr", "INPUT": "saddr", "FORWARD_IN": "saddr", "FORWARD_OUT": "daddr", "OUTPUT": "daddr", }[chain] if self._fw._allow_zone_drifting: zone_dispatch_chain = "%s_%s_ZONES_SOURCE" % (table, chain) else: zone_dispatch_chain = "%s_%s_ZONES" % (table, chain) action = "goto" rule = {"family": family, "table": TABLE_NAME, "chain": zone_dispatch_chain, "expr": [self._rule_addr_fragment(opt, address), {action: {"target": "%s_%s" % (table, _policy)}}]} rule.update(self._zone_source_fragment(zone, address)) return [{add_del: {"rule": rule}}] def build_policy_chain_rules(self, enable, policy, table, chain, family="inet"): # nat tables needs to use ip/ip6 family if table == "nat" and family == "inet": rules = [] rules.extend(self.build_policy_chain_rules(enable, policy, table, chain, "ip")) rules.extend(self.build_policy_chain_rules(enable, policy, table, chain, "ip6")) return rules add_del = { True: "add", False: "delete" }[enable] isSNAT = True if (table == "nat" and chain == "POSTROUTING") else False _policy = self._fw.policy.policy_base_chain_name(policy, table, POLICY_CHAIN_PREFIX, isSNAT=isSNAT) rules = [] rules.append({add_del: {"chain": {"family": family, "table": TABLE_NAME, "name": "%s_%s" % (table, _policy)}}}) for chain_suffix in ["pre", "log", "deny", "allow", "post"]: rules.append({add_del: {"chain": {"family": family, "table": TABLE_NAME, "name": "%s_%s_%s" % (table, _policy, chain_suffix)}}}) for chain_suffix in ["pre", "log", "deny", "allow", "post"]: rules.append({add_del: {"rule": {"family": family, "table": TABLE_NAME, "chain": "%s_%s" % (table, _policy), "expr": [{"jump": {"target": "%s_%s_%s" % (table, _policy, chain_suffix)}}]}}}) target = self._fw.policy._policies[policy].target if self._fw.get_log_denied() != "off": if table == "filter": if target in ["REJECT", "%%REJECT%%", "DROP"]: log_suffix = target if target == "%%REJECT%%": log_suffix = "REJECT" rules.append({add_del: {"rule": {"family": family, "table": TABLE_NAME, "chain": "%s_%s" % (table, _policy), "expr": [self._pkttype_match_fragment(self._fw.get_log_denied()), {"log": {"prefix": "\"filter_%s_%s: \"" % (_policy, log_suffix)}}]}}}) if table == "filter" and \ target in ["ACCEPT", "REJECT", "%%REJECT%%", "DROP"]: if target in ["%%REJECT%%", "REJECT"]: target_fragment = self._reject_fragment() else: target_fragment = {target.lower(): None} rules.append({add_del: {"rule": {"family": family, "table": TABLE_NAME, "chain": "%s_%s" % (table, _policy), "expr": [target_fragment]}}}) if not enable: rules.reverse() return rules def _pkttype_match_fragment(self, pkttype): if pkttype == "all": return {} elif pkttype in ["unicast", "broadcast", "multicast"]: return {"match": {"left": {"meta": {"key": "pkttype"}}, "op": "==", "right": pkttype}} raise FirewallError(INVALID_RULE, "Invalid pkttype \"%s\"", pkttype) def _reject_types_fragment(self, reject_type): frags = { # REJECT_TYPES : <nft reject rule fragment> "icmp-host-prohibited" : {"reject": {"type": "icmp", "expr": "host-prohibited"}}, "host-prohib" : {"reject": {"type": "icmp", "expr": "host-prohibited"}}, "icmp-net-prohibited" : {"reject": {"type": "icmp", "expr": "net-prohibited"}}, "net-prohib" : {"reject": {"type": "icmp", "expr": "net-prohibited"}}, "icmp-admin-prohibited" : {"reject": {"type": "icmp", "expr": "admin-prohibited"}}, "admin-prohib" : {"reject": {"type": "icmp", "expr": "admin-prohibited"}}, "icmp6-adm-prohibited" : {"reject": {"type": "icmpv6", "expr": "admin-prohibited"}}, "adm-prohibited" : {"reject": {"type": "icmpv6", "expr": "admin-prohibited"}}, "icmp-net-unreachable" : {"reject": {"type": "icmp", "expr": "net-unreachable"}}, "net-unreach" : {"reject": {"type": "icmp", "expr": "net-unreachable"}}, "icmp-host-unreachable" : {"reject": {"type": "icmp", "expr": "host-unreachable"}}, "host-unreach" : {"reject": {"type": "icmp", "expr": "host-unreachable"}}, "icmp-port-unreachable" : {"reject": {"type": "icmp", "expr": "port-unreachable"}}, "icmp6-port-unreachable" : {"reject": {"type": "icmpv6", "expr": "port-unreachable"}}, "port-unreach" : {"reject": {"type": "icmpx", "expr": "port-unreachable"}}, "icmp-proto-unreachable" : {"reject": {"type": "icmp", "expr": "prot-unreachable"}}, "proto-unreach" : {"reject": {"type": "icmp", "expr": "prot-unreachable"}}, "icmp6-addr-unreachable" : {"reject": {"type": "icmpv6", "expr": "addr-unreachable"}}, "addr-unreach" : {"reject": {"type": "icmpv6", "expr": "addr-unreachable"}}, "icmp6-no-route" : {"reject": {"type": "icmpv6", "expr": "no-route"}}, "no-route" : {"reject": {"type": "icmpv6", "expr": "no-route"}}, "tcp-reset" : {"reject": {"type": "tcp reset"}}, "tcp-rst" : {"reject": {"type": "tcp reset"}}, } return frags[reject_type] def _reject_fragment(self): return {"reject": {"type": "icmpx", "expr": "admin-prohibited"}} def _icmp_match_fragment(self): return {"match": {"left": {"meta": {"key": "l4proto"}}, "op": "==", "right": {"set": ["icmp", "icmpv6"]}}} def _rich_rule_limit_fragment(self, limit): if not limit: return {} rich_to_nft = { "s" : "second", "m" : "minute", "h" : "hour", "d" : "day", } rate, duration = limit.value_parse() d = { "rate": rate, "per": rich_to_nft[duration], } burst = limit.burst_parse() if burst is not None: d["burst"] = burst return {"limit": d} def _rich_rule_chain_suffix(self, rich_rule): if type(rich_rule.element) in [Rich_Masquerade, Rich_ForwardPort, Rich_IcmpBlock]: # These are special and don't have an explicit action pass elif rich_rule.action: if type(rich_rule.action) not in [Rich_Accept, Rich_Reject, Rich_Drop, Rich_Mark]: raise FirewallError(INVALID_RULE, "Unknown action %s" % type(rich_rule.action)) else: raise FirewallError(INVALID_RULE, "No rule action specified.") if rich_rule.priority == 0: if type(rich_rule.element) in [Rich_Masquerade, Rich_ForwardPort] or \ type(rich_rule.action) in [Rich_Accept, Rich_Mark]: return "allow" elif type(rich_rule.element) in [Rich_IcmpBlock] or \ type(rich_rule.action) in [Rich_Reject, Rich_Drop]: return "deny" elif rich_rule.priority < 0: return "pre" else: return "post" def _rich_rule_chain_suffix_from_log(self, rich_rule): if not rich_rule.log and not rich_rule.audit: raise FirewallError(INVALID_RULE, "Not log or audit") if rich_rule.priority == 0: return "log" elif rich_rule.priority < 0: return "pre" else: return "post" def _zone_interface_fragment(self): return {"%%ZONE_INTERFACE%%": None} def _zone_source_fragment(self, zone, address): if check_single_address("ipv6", address): address = normalizeIP6(address) elif check_address("ipv6", address): addr_split = address.split("/") address = normalizeIP6(addr_split[0]) + "/" + addr_split[1] return {"%%ZONE_SOURCE%%": {"zone": zone, "address": address}} def _policy_priority_fragment(self, policy): return {"%%POLICY_PRIORITY%%": policy.priority} def _rich_rule_priority_fragment(self, rich_rule): if not rich_rule or rich_rule.priority == 0: return {} return {"%%RICH_RULE_PRIORITY%%": rich_rule.priority} def _rich_rule_log(self, policy, rich_rule, enable, table, expr_fragments): if not rich_rule.log: return {} _policy = self._fw.policy.policy_base_chain_name(policy, table, POLICY_CHAIN_PREFIX) add_del = { True: "add", False: "delete" }[enable] chain_suffix = self._rich_rule_chain_suffix_from_log(rich_rule) log_options = {} if rich_rule.log.prefix: log_options["prefix"] = "%s" % rich_rule.log.prefix if rich_rule.log.level: level = "warn" if "warning" == rich_rule.log.level else rich_rule.log.level log_options["level"] = "%s" % level rule = {"family": "inet", "table": TABLE_NAME, "chain": "%s_%s_%s" % (table, _policy, chain_suffix), "expr": expr_fragments + [self._rich_rule_limit_fragment(rich_rule.log.limit), {"log": log_options}]} rule.update(self._rich_rule_priority_fragment(rich_rule)) return {add_del: {"rule": rule}} def _rich_rule_audit(self, policy, rich_rule, enable, table, expr_fragments): if not rich_rule.audit: return {} _policy = self._fw.policy.policy_base_chain_name(policy, table, POLICY_CHAIN_PREFIX) add_del = { True: "add", False: "delete" }[enable] chain_suffix = self._rich_rule_chain_suffix_from_log(rich_rule) rule = {"family": "inet", "table": TABLE_NAME, "chain": "%s_%s_%s" % (table, _policy, chain_suffix), "expr": expr_fragments + [self._rich_rule_limit_fragment(rich_rule.audit.limit), {"log": {"level": "audit"}}]} rule.update(self._rich_rule_priority_fragment(rich_rule)) return {add_del: {"rule": rule}} def _rich_rule_action(self, policy, rich_rule, enable, table, expr_fragments): if not rich_rule.action: return {} _policy = self._fw.policy.policy_base_chain_name(policy, table, POLICY_CHAIN_PREFIX) add_del = { True: "add", False: "delete" }[enable] chain_suffix = self._rich_rule_chain_suffix(rich_rule) chain = "%s_%s_%s" % (table, _policy, chain_suffix) if type(rich_rule.action) == Rich_Accept: rule_action = {"accept": None} elif type(rich_rule.action) == Rich_Reject: if rich_rule.action.type: rule_action = self._reject_types_fragment(rich_rule.action.type) else: rule_action = {"reject": None} elif type(rich_rule.action) == Rich_Drop: rule_action = {"drop": None} elif type(rich_rule.action) == Rich_Mark: table = "mangle" _policy = self._fw.policy.policy_base_chain_name(policy, table, POLICY_CHAIN_PREFIX) chain = "%s_%s_%s" % (table, _policy, chain_suffix) value = rich_rule.action.set.split("/") if len(value) > 1: rule_action = {"mangle": {"key": {"meta": {"key": "mark"}}, "value": {"^": [{"&": [{"meta": {"key": "mark"}}, value[1]]}, value[0]]}}} else: rule_action = {"mangle": {"key": {"meta": {"key": "mark"}}, "value": value[0]}} else: raise FirewallError(INVALID_RULE, "Unknown action %s" % type(rich_rule.action)) rule = {"family": "inet", "table": TABLE_NAME, "chain": chain, "expr": expr_fragments + [self._rich_rule_limit_fragment(rich_rule.action.limit), rule_action]} rule.update(self._rich_rule_priority_fragment(rich_rule)) return {add_del: {"rule": rule}} def _rule_addr_fragment(self, addr_field, address, invert=False): if address.startswith("ipset:"): return self._set_match_fragment(address[len("ipset:"):], True if "daddr" == addr_field else False, invert) else: if check_mac(address): family = "ether" elif check_single_address("ipv4", address): family = "ip" elif check_address("ipv4", address): family = "ip" normalized_address = ipaddress.IPv4Network(address, strict=False) address = {"prefix": {"addr": normalized_address.network_address.compressed, "len": normalized_address.prefixlen}} elif check_single_address("ipv6", address): family = "ip6" address = normalizeIP6(address) else: family = "ip6" addr_len = address.split("/") address = {"prefix": {"addr": normalizeIP6(addr_len[0]), "len": int(addr_len[1])}} return {"match": {"left": {"payload": {"protocol": family, "field": addr_field}}, "op": "!=" if invert else "==", "right": address}} def _rich_rule_family_fragment(self, rich_family): if not rich_family: return {} if rich_family not in ["ipv4", "ipv6"]: raise FirewallError(INVALID_RULE, "Invalid family" % rich_family) return {"match": {"left": {"meta": {"key": "nfproto"}}, "op": "==", "right": rich_family}} def _rich_rule_destination_fragment(self, rich_dest): if not rich_dest: return {} if rich_dest.addr: address = rich_dest.addr elif rich_dest.ipset: address = "ipset:" + rich_dest.ipset return self._rule_addr_fragment("daddr", address, invert=rich_dest.invert) def _rich_rule_source_fragment(self, rich_source): if not rich_source: return {} if rich_source.addr: address = rich_source.addr elif hasattr(rich_source, "mac") and rich_source.mac: address = rich_source.mac elif hasattr(rich_source, "ipset") and rich_source.ipset: address = "ipset:" + rich_source.ipset return self._rule_addr_fragment("saddr", address, invert=rich_source.invert) def _port_fragment(self, port): range = getPortRange(port) if isinstance(range, int) and range < 0: raise FirewallError(INVALID_PORT) elif len(range) == 1: return range[0] else: return {"range": [range[0], range[1]]} def build_policy_ports_rules(self, enable, policy, proto, port, destination=None, rich_rule=None): add_del = { True: "add", False: "delete" }[enable] table = "filter" _policy = self._fw.policy.policy_base_chain_name(policy, table, POLICY_CHAIN_PREFIX) expr_fragments = [] if rich_rule: expr_fragments.append(self._rich_rule_family_fragment(rich_rule.family)) if destination: expr_fragments.append(self._rule_addr_fragment("daddr", destination)) if rich_rule: expr_fragments.append(self._rich_rule_destination_fragment(rich_rule.destination)) expr_fragments.append(self._rich_rule_source_fragment(rich_rule.source)) expr_fragments.append({"match": {"left": {"payload": {"protocol": proto, "field": "dport"}}, "op": "==", "right": self._port_fragment(port)}}) if not rich_rule or type(rich_rule.action) != Rich_Mark: expr_fragments.append({"match": {"left": {"ct": {"key": "state"}}, "op": "in", "right": {"set": ["new", "untracked"]}}}) rules = [] if rich_rule: rules.append(self._rich_rule_log(policy, rich_rule, enable, table, expr_fragments)) rules.append(self._rich_rule_audit(policy, rich_rule, enable, table, expr_fragments)) rules.append(self._rich_rule_action(policy, rich_rule, enable, table, expr_fragments)) else: rules.append({add_del: {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "%s_%s_allow" % (table, _policy), "expr": expr_fragments + [{"accept": None}]}}}) return rules def build_policy_protocol_rules(self, enable, policy, protocol, destination=None, rich_rule=None): add_del = { True: "add", False: "delete" }[enable] table = "filter" _policy = self._fw.policy.policy_base_chain_name(policy, table, POLICY_CHAIN_PREFIX) expr_fragments = [] if rich_rule: expr_fragments.append(self._rich_rule_family_fragment(rich_rule.family)) if destination: expr_fragments.append(self._rule_addr_fragment("daddr", destination)) if rich_rule: expr_fragments.append(self._rich_rule_destination_fragment(rich_rule.destination)) expr_fragments.append(self._rich_rule_source_fragment(rich_rule.source)) expr_fragments.append({"match": {"left": {"meta": {"key": "l4proto"}}, "op": "==", "right": protocol}}) if not rich_rule or type(rich_rule.action) != Rich_Mark: expr_fragments.append({"match": {"left": {"ct": {"key": "state"}}, "op": "in", "right": {"set": ["new", "untracked"]}}}) rules = [] if rich_rule: rules.append(self._rich_rule_log(policy, rich_rule, enable, table, expr_fragments)) rules.append(self._rich_rule_audit(policy, rich_rule, enable, table, expr_fragments)) rules.append(self._rich_rule_action(policy, rich_rule, enable, table, expr_fragments)) else: rules.append({add_del: {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "%s_%s_allow" % (table, _policy), "expr": expr_fragments + [{"accept": None}]}}}) return rules def build_policy_source_ports_rules(self, enable, policy, proto, port, destination=None, rich_rule=None): add_del = { True: "add", False: "delete" }[enable] table = "filter" _policy = self._fw.policy.policy_base_chain_name(policy, table, POLICY_CHAIN_PREFIX) expr_fragments = [] if rich_rule: expr_fragments.append(self._rich_rule_family_fragment(rich_rule.family)) if destination: expr_fragments.append(self._rule_addr_fragment("daddr", destination)) if rich_rule: expr_fragments.append(self._rich_rule_destination_fragment(rich_rule.destination)) expr_fragments.append(self._rich_rule_source_fragment(rich_rule.source)) expr_fragments.append({"match": {"left": {"payload": {"protocol": proto, "field": "sport"}}, "op": "==", "right": self._port_fragment(port)}}) if not rich_rule or type(rich_rule.action) != Rich_Mark: expr_fragments.append({"match": {"left": {"ct": {"key": "state"}}, "op": "in", "right": {"set": ["new", "untracked"]}}}) rules = [] if rich_rule: rules.append(self._rich_rule_log(policy, rich_rule, enable, table, expr_fragments)) rules.append(self._rich_rule_audit(policy, rich_rule, enable, table, expr_fragments)) rules.append(self._rich_rule_action(policy, rich_rule, enable, table, expr_fragments)) else: rules.append({add_del: {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "%s_%s_allow" % (table, _policy), "expr": expr_fragments + [{"accept": None}]}}}) return rules def build_policy_helper_ports_rules(self, enable, policy, proto, port, destination, helper_name, module_short_name): table = "filter" _policy = self._fw.policy.policy_base_chain_name(policy, table, POLICY_CHAIN_PREFIX) add_del = { True: "add", False: "delete" }[enable] rules = [] if enable: rules.append({"add": {"ct helper": {"family": "inet", "table": TABLE_NAME, "name": "helper-%s-%s" % (helper_name, proto), "type": module_short_name, "protocol": proto}}}) expr_fragments = [] if destination: expr_fragments.append(self._rule_addr_fragment("daddr", destination)) expr_fragments.append({"match": {"left": {"payload": {"protocol": proto, "field": "dport"}}, "op": "==", "right": self._port_fragment(port)}}) expr_fragments.append({"ct helper": "helper-%s-%s" % (helper_name, proto)}) rules.append({add_del: {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s_allow" % (_policy), "expr": expr_fragments}}}) return rules def build_zone_forward_rules(self, enable, zone, policy, table, interface=None, source=None): add_del = { True: "add", False: "delete" }[enable] _policy = self._fw.policy.policy_base_chain_name(policy, table, POLICY_CHAIN_PREFIX) rules = [] if interface: if interface[len(interface)-1] == "+": interface = interface[:len(interface)-1] + "*" expr = [{"match": {"left": {"meta": {"key": "oifname"}}, "op": "==", "right": interface}}, {"accept": None}] else: # source expr = [self._rule_addr_fragment("daddr", source), {"accept": None}] rule = {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s_allow" % (_policy), "expr": expr} rules.append({add_del: {"rule": rule}}) return rules def _build_policy_masquerade_nat_rules(self, enable, policy, family, rich_rule=None): table = "nat" _policy = self._fw.policy.policy_base_chain_name(policy, table, POLICY_CHAIN_PREFIX, isSNAT=True) add_del = { True: "add", False: "delete" }[enable] expr_fragments = [] if rich_rule: expr_fragments.append(self._rich_rule_destination_fragment(rich_rule.destination)) expr_fragments.append(self._rich_rule_source_fragment(rich_rule.source)) chain_suffix = self._rich_rule_chain_suffix(rich_rule) else: chain_suffix = "allow" rule = {"family": family, "table": TABLE_NAME, "chain": "nat_%s_%s" % (_policy, chain_suffix), "expr": expr_fragments + [{"match": {"left": {"meta": {"key": "oifname"}}, "op": "!=", "right": "lo"}}, {"masquerade": None}]} rule.update(self._rich_rule_priority_fragment(rich_rule)) return [{add_del: {"rule": rule}}] def build_policy_masquerade_rules(self, enable, policy, rich_rule=None): # nat tables needs to use ip/ip6 family rules = [] if rich_rule and (rich_rule.family and rich_rule.family == "ipv6" or rich_rule.source and check_address("ipv6", rich_rule.source.addr)): rules.extend(self._build_policy_masquerade_nat_rules(enable, policy, "ip6", rich_rule)) elif rich_rule and (rich_rule.family and rich_rule.family == "ipv4" or rich_rule.source and check_address("ipv4", rich_rule.source.addr)): rules.extend(self._build_policy_masquerade_nat_rules(enable, policy, "ip", rich_rule)) else: rules.extend(self._build_policy_masquerade_nat_rules(enable, policy, "ip", rich_rule)) table = "filter" _policy = self._fw.policy.policy_base_chain_name(policy, table, POLICY_CHAIN_PREFIX) add_del = { True: "add", False: "delete" }[enable] expr_fragments = [] if rich_rule: expr_fragments.append(self._rich_rule_destination_fragment(rich_rule.destination)) expr_fragments.append(self._rich_rule_source_fragment(rich_rule.source)) chain_suffix = self._rich_rule_chain_suffix(rich_rule) else: chain_suffix = "allow" rule = {"family": "inet", "table": TABLE_NAME, "chain": "filter_%s_%s" % (_policy, chain_suffix), "expr": expr_fragments + [{"match": {"left": {"ct": {"key": "state"}}, "op": "in", "right": {"set": ["new", "untracked"]}}}, {"accept": None}]} rule.update(self._rich_rule_priority_fragment(rich_rule)) rules.append({add_del: {"rule": rule}}) return rules def _build_policy_forward_port_nat_rules(self, enable, policy, port, protocol, toaddr, toport, family, rich_rule=None): table = "nat" _policy = self._fw.policy.policy_base_chain_name(policy, table, POLICY_CHAIN_PREFIX) add_del = { True: "add", False: "delete" }[enable] expr_fragments = [] if rich_rule: expr_fragments.append(self._rich_rule_destination_fragment(rich_rule.destination)) expr_fragments.append(self._rich_rule_source_fragment(rich_rule.source)) chain_suffix = self._rich_rule_chain_suffix(rich_rule) else: chain_suffix = "allow" expr_fragments.append({"match": {"left": {"payload": {"protocol": protocol, "field": "dport"}}, "op": "==", "right": self._port_fragment(port)}}) if toaddr: if check_single_address("ipv6", toaddr): toaddr = normalizeIP6(toaddr) if toport and toport != "": expr_fragments.append({"dnat": {"addr": toaddr, "port": self._port_fragment(toport)}}) else: expr_fragments.append({"dnat": {"addr": toaddr}}) else: expr_fragments.append({"redirect": {"port": self._port_fragment(toport)}}) rule = {"family": family, "table": TABLE_NAME, "chain": "nat_%s_%s" % (_policy, chain_suffix), "expr": expr_fragments} rule.update(self._rich_rule_priority_fragment(rich_rule)) return [{add_del: {"rule": rule}}] def build_policy_forward_port_rules(self, enable, policy, port, protocol, toport, toaddr, rich_rule=None): rules = [] if rich_rule and (rich_rule.family and rich_rule.family == "ipv6" or toaddr and check_single_address("ipv6", toaddr)): rules.extend(self._build_policy_forward_port_nat_rules(enable, policy, port, protocol, toaddr, toport, "ip6", rich_rule)) elif rich_rule and (rich_rule.family and rich_rule.family == "ipv4" or toaddr and check_single_address("ipv4", toaddr)): rules.extend(self._build_policy_forward_port_nat_rules(enable, policy, port, protocol, toaddr, toport, "ip", rich_rule)) else: if toaddr and check_single_address("ipv6", toaddr): rules.extend(self._build_policy_forward_port_nat_rules(enable, policy, port, protocol, toaddr, toport, "ip6", rich_rule)) else: rules.extend(self._build_policy_forward_port_nat_rules(enable, policy, port, protocol, toaddr, toport, "ip", rich_rule)) return rules def _icmp_types_to_nft_fragments(self, ipv, icmp_type): if icmp_type in ICMP_TYPES_FRAGMENTS[ipv]: return ICMP_TYPES_FRAGMENTS[ipv][icmp_type] else: raise FirewallError(INVALID_ICMPTYPE, "ICMP type '%s' not supported by %s for %s" % (icmp_type, self.name, ipv)) def build_policy_icmp_block_rules(self, enable, policy, ict, rich_rule=None): table = "filter" _policy = self._fw.policy.policy_base_chain_name(policy, table, POLICY_CHAIN_PREFIX) add_del = { True: "add", False: "delete" }[enable] if rich_rule and rich_rule.ipvs: ipvs = rich_rule.ipvs elif ict.destination: ipvs = [] if "ipv4" in ict.destination: ipvs.append("ipv4") if "ipv6" in ict.destination: ipvs.append("ipv6") else: ipvs = ["ipv4", "ipv6"] rules = [] for ipv in ipvs: if self._fw.policy.query_icmp_block_inversion(policy): final_chain = "%s_%s_allow" % (table, _policy) target_fragment = {"accept": None} else: final_chain = "%s_%s_deny" % (table, _policy) target_fragment = self._reject_fragment() expr_fragments = [] if rich_rule: expr_fragments.append(self._rich_rule_family_fragment(rich_rule.family)) expr_fragments.append(self._rich_rule_destination_fragment(rich_rule.destination)) expr_fragments.append(self._rich_rule_source_fragment(rich_rule.source)) expr_fragments.extend(self._icmp_types_to_nft_fragments(ipv, ict.name)) if rich_rule: rules.append(self._rich_rule_log(policy, rich_rule, enable, table, expr_fragments)) rules.append(self._rich_rule_audit(policy, rich_rule, enable, table, expr_fragments)) if rich_rule.action: rules.append(self._rich_rule_action(policy, rich_rule, enable, table, expr_fragments)) else: chain_suffix = self._rich_rule_chain_suffix(rich_rule) rule = {"family": "inet", "table": TABLE_NAME, "chain": "%s_%s_%s" % (table, _policy, chain_suffix), "expr": expr_fragments + [self._reject_fragment()]} rule.update(self._rich_rule_priority_fragment(rich_rule)) rules.append({add_del: {"rule": rule}}) else: if self._fw.get_log_denied() != "off" and not self._fw.policy.query_icmp_block_inversion(policy): rules.append({add_del: {"rule": {"family": "inet", "table": TABLE_NAME, "chain": final_chain, "expr": (expr_fragments + [self._pkttype_match_fragment(self._fw.get_log_denied()), {"log": {"prefix": "\"%s_%s_ICMP_BLOCK: \"" % (table, policy)}}])}}}) rules.append({add_del: {"rule": {"family": "inet", "table": TABLE_NAME, "chain": final_chain, "expr": expr_fragments + [target_fragment]}}}) return rules def build_policy_icmp_block_inversion_rules(self, enable, policy): table = "filter" _policy = self._fw.policy.policy_base_chain_name(policy, table, POLICY_CHAIN_PREFIX) rules = [] add_del = { True: "add", False: "delete" }[enable] if self._fw.policy.query_icmp_block_inversion(policy): target_fragment = self._reject_fragment() else: target_fragment = {"accept": None} # WARN: The "index" used here must be kept in sync with # build_policy_chain_rules() # rules.append({add_del: {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "%s_%s" % (table, _policy), "index": 4, "expr": [self._icmp_match_fragment(), target_fragment]}}}) if self._fw.get_log_denied() != "off" and self._fw.policy.query_icmp_block_inversion(policy): rules.append({add_del: {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "%s_%s" % (table, _policy), "index": 4, "expr": [self._icmp_match_fragment(), self._pkttype_match_fragment(self._fw.get_log_denied()), {"log": {"prefix": "%s_%s_ICMP_BLOCK: " % (table, policy)}}]}}}) return rules def build_rpfilter_rules(self, log_denied=False): rules = [] expr_fragments = [{"match": {"left": {"meta": {"key": "nfproto"}}, "op": "==", "right": "ipv6"}}, {"match": {"left": {"fib": {"flags": ["saddr", "iif", "mark"], "result": "oif"}}, "op": "==", "right": False}}] if log_denied != "off": expr_fragments.append({"log": {"prefix": "rpfilter_DROP: "}}) expr_fragments.append({"drop": None}) rules.append({"insert": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_PREROUTING", "expr": expr_fragments}}}) # RHBZ#1058505, RHBZ#1575431 (bug in kernel 4.16-4.17) rules.append({"insert": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_PREROUTING", "expr": [{"match": {"left": {"payload": {"protocol": "icmpv6", "field": "type"}}, "op": "==", "right": {"set": ["nd-router-advert", "nd-neighbor-solicit"]}}}, {"accept": None}]}}}) return rules def build_rfc3964_ipv4_rules(self): daddr_set = ["::0.0.0.0/96", # IPv4 compatible "::ffff:0.0.0.0/96", # IPv4 mapped "2002:0000::/24", # 0.0.0.0/8 (the system has no address assigned yet) "2002:0a00::/24", # 10.0.0.0/8 (private) "2002:7f00::/24", # 127.0.0.0/8 (loopback) "2002:ac10::/28", # 172.16.0.0/12 (private) "2002:c0a8::/32", # 192.168.0.0/16 (private) "2002:a9fe::/32", # 169.254.0.0/16 (IANA Assigned DHCP link-local) "2002:e000::/19", # 224.0.0.0/4 (multicast), 240.0.0.0/4 (reserved and broadcast) ] daddr_set = [{"prefix": {"addr": x.split("/")[0], "len": int(x.split("/")[1])}} for x in daddr_set] expr_fragments = [{"match": {"left": {"payload": {"protocol": "ip6", "field": "daddr"}}, "op": "==", "right": {"set": daddr_set}}}] if self._fw._log_denied in ["unicast", "all"]: expr_fragments.append({"log": {"prefix": "RFC3964_IPv4_REJECT: "}}) expr_fragments.append(self._reject_types_fragment("addr-unreach")) rules = [] # WARN: index must be kept in sync with build_default_rules() rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_OUTPUT", "index": 1, "expr": expr_fragments}}}) rules.append({"add": {"rule": {"family": "inet", "table": TABLE_NAME, "chain": "filter_FORWARD", "index": 2, "expr": expr_fragments}}}) return rules def build_policy_rich_source_destination_rules(self, enable, policy, rich_rule): table = "filter" expr_fragments = [] expr_fragments.append(self._rich_rule_family_fragment(rich_rule.family)) expr_fragments.append(self._rich_rule_destination_fragment(rich_rule.destination)) expr_fragments.append(self._rich_rule_source_fragment(rich_rule.source)) rules = [] rules.append(self._rich_rule_log(policy, rich_rule, enable, table, expr_fragments)) rules.append(self._rich_rule_audit(policy, rich_rule, enable, table, expr_fragments)) rules.append(self._rich_rule_action(policy, rich_rule, enable, table, expr_fragments)) return rules def is_ipv_supported(self, ipv): if ipv in ["ipv4", "ipv6", "eb"]: return True return False def _set_type_list(self, ipv, type): ipv_addr = { "ipv4" : "ipv4_addr", "ipv6" : "ipv6_addr", } types = { "hash:ip" : ipv_addr[ipv], "hash:ip,port" : [ipv_addr[ipv], "inet_proto", "inet_service"], "hash:ip,port,ip" : [ipv_addr[ipv], "inet_proto", "inet_service", ipv_addr[ipv]], "hash:ip,port,net" : [ipv_addr[ipv], "inet_proto", "inet_service", ipv_addr[ipv]], "hash:ip,mark" : [ipv_addr[ipv], "mark"], "hash:net" : ipv_addr[ipv], "hash:net,net" : [ipv_addr[ipv], ipv_addr[ipv]], "hash:net,port" : [ipv_addr[ipv], "inet_proto", "inet_service"], "hash:net,port,net" : [ipv_addr[ipv], "inet_proto", "inet_service", ipv_addr[ipv]], "hash:net,iface" : [ipv_addr[ipv], "ifname"], "hash:mac" : "ether_addr", } if type in types: return types[type] else: raise FirewallError(INVALID_TYPE, "ipset type name '%s' is not valid" % type) def build_set_create_rules(self, name, type, options=None): if options and "family" in options and options["family"] == "inet6": ipv = "ipv6" else: ipv = "ipv4" set_dict = {"table": TABLE_NAME, "name": name, "type": self._set_type_list(ipv, type)} # Some types need the interval flag for t in type.split(":")[1].split(","): if t in ["ip", "net", "port"]: set_dict["flags"] = ["interval"] break if options: if "timeout" in options: set_dict["timeout"] = options["timeout"] if "maxelem" in options: set_dict["size"] = options["maxelem"] rules = [] for family in ["inet", "ip", "ip6"]: rule_dict = {"family": family} rule_dict.update(set_dict) rules.append({"add": {"set": rule_dict}}) return rules def set_create(self, name, type, options=None): rules = self.build_set_create_rules(name, type, options) self.set_rules(rules, self._fw.get_log_denied()) def set_destroy(self, name): for family in ["inet", "ip", "ip6"]: rule = {"delete": {"set": {"family": family, "table": TABLE_NAME, "name": name}}} self.set_rule(rule, self._fw.get_log_denied()) def _set_match_fragment(self, name, match_dest, invert=False): type_format = self._fw.ipset.get_ipset(name).type.split(":")[1].split(",") fragments = [] for i in range(len(type_format)): if type_format[i] == "port": fragments.append({"meta": {"key": "l4proto"}}) fragments.append({"payload": {"protocol": "th", "field": "dport" if match_dest else "sport"}}) elif type_format[i] in ["ip", "net", "mac"]: fragments.append({"payload": {"protocol": self._set_get_family(name), "field": "daddr" if match_dest else "saddr"}}) elif type_format[i] == "iface": fragments.append({"meta": {"key": "iifname" if match_dest else "oifname"}}) elif type_format[i] == "mark": fragments.append({"meta": {"key": "mark"}}) else: raise FirewallError("Unsupported ipset type for match fragment: %s" % (type_format[i])) return {"match": {"left": {"concat": fragments} if len(type_format) > 1 else fragments[0], "op": "!=" if invert else "==", "right": "@" + name}} def _set_entry_fragment(self, name, entry): # convert something like # 1.2.3.4,sctp:8080 (type hash:ip,port) # to # ["1.2.3.4", "sctp", "8080"] obj = self._fw.ipset.get_ipset(name) type_format = obj.type.split(":")[1].split(",") entry_tokens = entry.split(",") if len(type_format) != len(entry_tokens): raise FirewallError(INVALID_ENTRY, "Number of values does not match ipset type.") fragment = [] for i in range(len(type_format)): if type_format[i] == "port": try: index = entry_tokens[i].index(":") except ValueError: # no protocol means default tcp fragment.append("tcp") port_str = entry_tokens[i] else: fragment.append(entry_tokens[i][:index]) port_str = entry_tokens[i][index+1:] try: index = port_str.index("-") except ValueError: fragment.append(port_str) else: fragment.append({"range": [port_str[:index], port_str[index+1:]]}) elif type_format[i] in ["ip", "net"]: if '-' in entry_tokens[i]: fragment.append({"range": entry_tokens[i].split('-') }) else: try: index = entry_tokens[i].index("/") except ValueError: addr = entry_tokens[i] if "family" in obj.options and obj.options["family"] == "inet6": addr = normalizeIP6(addr) fragment.append(addr) else: addr = entry_tokens[i][:index] if "family" in obj.options and obj.options["family"] == "inet6": addr = normalizeIP6(addr) fragment.append({"prefix": {"addr": addr, "len": int(entry_tokens[i][index+1:])}}) else: fragment.append(entry_tokens[i]) return [{"concat": fragment}] if len(type_format) > 1 else fragment def build_set_add_rules(self, name, entry): rules = [] element = self._set_entry_fragment(name, entry) for family in ["inet", "ip", "ip6"]: rules.append({"add": {"element": {"family": family, "table": TABLE_NAME, "name": name, "elem": element}}}) return rules def set_add(self, name, entry): rules = self.build_set_add_rules(name, entry) self.set_rules(rules, self._fw.get_log_denied()) def set_delete(self, name, entry): element = self._set_entry_fragment(name, entry) for family in ["inet", "ip", "ip6"]: rule = {"delete": {"element": {"family": family, "table": TABLE_NAME, "name": name, "elem": element}}} self.set_rule(rule, self._fw.get_log_denied()) def build_set_flush_rules(self, name): rules = [] for family in ["inet", "ip", "ip6"]: rule = {"flush": {"set": {"family": family, "table": TABLE_NAME, "name": name}}} rules.append(rule) return rules def set_flush(self, name): rules = self.build_set_flush_rules(name) self.set_rules(rules, self._fw.get_log_denied()) def _set_get_family(self, name): ipset = self._fw.ipset.get_ipset(name) if ipset.type == "hash:mac": family = "ether" elif ipset.options and "family" in ipset.options \ and ipset.options["family"] == "inet6": family = "ip6" else: family = "ip" return family def set_restore(self, set_name, type_name, entries, create_options=None, entry_options=None): rules = [] rules.extend(self.build_set_create_rules(set_name, type_name, create_options)) rules.extend(self.build_set_flush_rules(set_name)) # avoid large memory usage by chunking the entries chunk = 0 for entry in entries: rules.extend(self.build_set_add_rules(set_name, entry)) chunk += 1 if chunk >= 1000: self.set_rules(rules, self._fw.get_log_denied()) rules.clear() chunk = 0 else: self.set_rules(rules, self._fw.get_log_denied())