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python3.6
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firewall
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core
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# -*- coding: utf-8 -*- # # Copyright (C) 2010-2016 Red Hat, Inc. # # Authors: # Thomas Woerner <twoerner@redhat.com> # # 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/>. # __all__ = [ "Firewall" ] import os.path import sys import copy import time import traceback from firewall import config from firewall import functions from firewall.core import ipXtables from firewall.core import ebtables from firewall.core import nftables from firewall.core import ipset from firewall.core import modules from firewall.core.fw_icmptype import FirewallIcmpType from firewall.core.fw_service import FirewallService from firewall.core.fw_zone import FirewallZone from firewall.core.fw_direct import FirewallDirect from firewall.core.fw_config import FirewallConfig from firewall.core.fw_policies import FirewallPolicies from firewall.core.fw_ipset import FirewallIPSet from firewall.core.fw_transaction import FirewallTransaction from firewall.core.fw_helper import FirewallHelper from firewall.core.fw_policy import FirewallPolicy from firewall.core.fw_nm import nm_get_bus_name, nm_get_interfaces_in_zone from firewall.core.logger import log from firewall.core.io.firewalld_conf import firewalld_conf from firewall.core.io.direct import Direct from firewall.core.io.service import service_reader from firewall.core.io.icmptype import icmptype_reader from firewall.core.io.zone import zone_reader, Zone from firewall.core.io.ipset import ipset_reader from firewall.core.ipset import IPSET_TYPES from firewall.core.io.helper import helper_reader from firewall.core.io.policy import policy_reader from firewall import errors from firewall.errors import FirewallError ############################################################################ # # class Firewall # ############################################################################ class Firewall(object): def __init__(self, offline=False): self._firewalld_conf = firewalld_conf(config.FIREWALLD_CONF) self._offline = offline if self._offline: self.ip4tables_enabled = False self.ip6tables_enabled = False self.ebtables_enabled = False self.ipset_enabled = False self.ipset_supported_types = IPSET_TYPES self.nftables_enabled = False else: self.ip4tables_backend = ipXtables.ip4tables(self) self.ip4tables_enabled = True self.ipv4_supported_icmp_types = [ ] self.ip6tables_backend = ipXtables.ip6tables(self) self.ip6tables_enabled = True self.ipv6_supported_icmp_types = [ ] self.ebtables_backend = ebtables.ebtables() self.ebtables_enabled = True self.ipset_backend = ipset.ipset() self.ipset_enabled = True self.ipset_supported_types = [ ] self.nftables_backend = nftables.nftables(self) self.nftables_enabled = True self.modules_backend = modules.modules() self.icmptype = FirewallIcmpType(self) self.service = FirewallService(self) self.zone = FirewallZone(self) self.direct = FirewallDirect(self) self.config = FirewallConfig(self) self.policies = FirewallPolicies() self.ipset = FirewallIPSet(self) self.helper = FirewallHelper(self) self.policy = FirewallPolicy(self) self.__init_vars() def __repr__(self): return '%s(%r, %r, %r, %r, %r, %r, %r, %r, %r, %r, %r, %r, %r, %r)' % \ (self.__class__, self.ip4tables_enabled, self.ip6tables_enabled, self.ebtables_enabled, self._state, self._panic, self._default_zone, self._module_refcount, self._marks, self.cleanup_on_exit, self.cleanup_modules_on_exit, self.ipv6_rpfilter_enabled, self.ipset_enabled, self._individual_calls, self._log_denied) def __init_vars(self): self._state = "INIT" self._panic = False self._default_zone = "" self._module_refcount = { } self._marks = [ ] # fallback settings will be overloaded by firewalld.conf self.cleanup_on_exit = config.FALLBACK_CLEANUP_ON_EXIT self.cleanup_modules_on_exit = config.FALLBACK_CLEANUP_MODULES_ON_EXIT self.ipv6_rpfilter_enabled = config.FALLBACK_IPV6_RPFILTER self._individual_calls = config.FALLBACK_INDIVIDUAL_CALLS self._log_denied = config.FALLBACK_LOG_DENIED self._firewall_backend = config.FALLBACK_FIREWALL_BACKEND self._flush_all_on_reload = config.FALLBACK_FLUSH_ALL_ON_RELOAD self._rfc3964_ipv4 = config.FALLBACK_RFC3964_IPV4 self._allow_zone_drifting = config.FALLBACK_ALLOW_ZONE_DRIFTING def _check_tables(self): # check if iptables, ip6tables and ebtables are usable, else disable if self.ip4tables_enabled and \ "filter" not in self.ip4tables_backend.get_available_tables(): log.info1("iptables is not usable.") self.ip4tables_enabled = False if self.ip6tables_enabled and \ "filter" not in self.ip6tables_backend.get_available_tables(): log.info1("ip6tables is not usable.") self.ip6tables_enabled = False if self.ebtables_enabled and \ "filter" not in self.ebtables_backend.get_available_tables(): log.info1("ebtables is not usable.") self.ebtables_enabled = False # is there at least support for ipv4 or ipv6 if not self.ip4tables_enabled and not self.ip6tables_enabled \ and not self.nftables_enabled: log.fatal("No IPv4 and IPv6 firewall.") sys.exit(1) def _start_check(self): try: self.ipset_backend.set_list() except ValueError: log.warning("ipset not usable, disabling ipset usage in firewall.") # ipset is not usable, no supported types self.ipset_enabled = False self.ipset_supported_types = [ ] else: # ipset is usable, get all supported types self.ipset_supported_types = self.ipset_backend.set_supported_types() self.ip4tables_backend.fill_exists() if not self.ip4tables_backend.restore_command_exists: if self.ip4tables_backend.command_exists: log.warning("iptables-restore is missing, using " "individual calls for IPv4 firewall.") else: log.warning("iptables-restore and iptables are missing, " "disabling IPv4 firewall.") self.ip4tables_enabled = False if self.nftables_enabled: self.ipv4_supported_icmp_types = self.nftables_backend.supported_icmp_types("ipv4") else: if self.ip4tables_enabled: self.ipv4_supported_icmp_types = self.ip4tables_backend.supported_icmp_types() else: self.ipv4_supported_icmp_types = [ ] self.ip6tables_backend.fill_exists() if not self.ip6tables_backend.restore_command_exists: if self.ip6tables_backend.command_exists: log.warning("ip6tables-restore is missing, using " "individual calls for IPv6 firewall.") else: log.warning("ip6tables-restore and ip6tables are missing, " "disabling IPv6 firewall.") self.ip6tables_enabled = False if self.nftables_enabled: self.ipv6_supported_icmp_types = self.nftables_backend.supported_icmp_types("ipv6") else: if self.ip6tables_enabled: self.ipv6_supported_icmp_types = self.ip6tables_backend.supported_icmp_types() else: self.ipv6_supported_icmp_types = [ ] self.ebtables_backend.fill_exists() if not self.ebtables_backend.restore_command_exists: if self.ebtables_backend.command_exists: log.warning("ebtables-restore is missing, using " "individual calls for bridge firewall.") else: log.warning("ebtables-restore and ebtables are missing, " "disabling bridge firewall.") self.ebtables_enabled = False if self.ebtables_enabled and not self._individual_calls and \ not self.ebtables_backend.restore_noflush_option: log.debug1("ebtables-restore is not supporting the --noflush " "option, will therefore not be used") def _start(self, reload=False, complete_reload=False): # initialize firewall default_zone = config.FALLBACK_ZONE # load firewalld config log.debug1("Loading firewalld config file '%s'", config.FIREWALLD_CONF) try: self._firewalld_conf.read() except Exception as msg: log.warning(msg) log.warning("Using fallback firewalld configuration settings.") else: if self._firewalld_conf.get("DefaultZone"): default_zone = self._firewalld_conf.get("DefaultZone") if self._firewalld_conf.get("CleanupOnExit"): value = self._firewalld_conf.get("CleanupOnExit") if value is not None and value.lower() in [ "no", "false" ]: self.cleanup_on_exit = False log.debug1("CleanupOnExit is set to '%s'", self.cleanup_on_exit) if self._firewalld_conf.get("CleanupModulesOnExit"): value = self._firewalld_conf.get("CleanupModulesOnExit") if value is not None and value.lower() in [ "yes", "true" ]: self.cleanup_modules_on_exit = True if value is not None and value.lower() in [ "no", "false" ]: self.cleanup_modules_on_exit = False log.debug1("CleanupModulesOnExit is set to '%s'", self.cleanup_modules_on_exit) if self._firewalld_conf.get("Lockdown"): value = self._firewalld_conf.get("Lockdown") if value is not None and value.lower() in [ "yes", "true" ]: log.debug1("Lockdown is enabled") try: self.policies.enable_lockdown() except FirewallError: # already enabled, this is probably reload pass if self._firewalld_conf.get("IPv6_rpfilter"): value = self._firewalld_conf.get("IPv6_rpfilter") if value is not None: if value.lower() in [ "no", "false" ]: self.ipv6_rpfilter_enabled = False if value.lower() in [ "yes", "true" ]: self.ipv6_rpfilter_enabled = True if self.ipv6_rpfilter_enabled: log.debug1("IPv6 rpfilter is enabled") else: log.debug1("IPV6 rpfilter is disabled") if self._firewalld_conf.get("IndividualCalls"): value = self._firewalld_conf.get("IndividualCalls") if value is not None and value.lower() in [ "yes", "true" ]: log.debug1("IndividualCalls is enabled") self._individual_calls = True if self._firewalld_conf.get("LogDenied"): value = self._firewalld_conf.get("LogDenied") if value is None or value.lower() == "no": self._log_denied = "off" else: self._log_denied = value.lower() log.debug1("LogDenied is set to '%s'", self._log_denied) if self._firewalld_conf.get("FirewallBackend"): self._firewall_backend = self._firewalld_conf.get("FirewallBackend") log.debug1("FirewallBackend is set to '%s'", self._firewall_backend) if self._firewalld_conf.get("FlushAllOnReload"): value = self._firewalld_conf.get("FlushAllOnReload") if value.lower() in [ "no", "false" ]: self._flush_all_on_reload = False else: self._flush_all_on_reload = True log.debug1("FlushAllOnReload is set to '%s'", self._flush_all_on_reload) if self._firewalld_conf.get("RFC3964_IPv4"): value = self._firewalld_conf.get("RFC3964_IPv4") if value.lower() in [ "no", "false" ]: self._rfc3964_ipv4 = False else: self._rfc3964_ipv4 = True log.debug1("RFC3964_IPv4 is set to '%s'", self._rfc3964_ipv4) if self._firewalld_conf.get("AllowZoneDrifting"): value = self._firewalld_conf.get("AllowZoneDrifting") if value.lower() in [ "no", "false" ]: self._allow_zone_drifting = False else: self._allow_zone_drifting = True if not self._offline: log.warning("AllowZoneDrifting is enabled. This is considered " "an insecure configuration option. It will be " "removed in a future release. Please consider " "disabling it now.") log.debug1("AllowZoneDrifting is set to '%s'", self._allow_zone_drifting) self.config.set_firewalld_conf(copy.deepcopy(self._firewalld_conf)) self._select_firewall_backend(self._firewall_backend) if not self._offline: self._start_check() # load lockdown whitelist log.debug1("Loading lockdown whitelist") try: self.policies.lockdown_whitelist.read() except Exception as msg: if self.policies.query_lockdown(): log.error("Failed to load lockdown whitelist '%s': %s", self.policies.lockdown_whitelist.filename, msg) else: log.debug1("Failed to load lockdown whitelist '%s': %s", self.policies.lockdown_whitelist.filename, msg) # copy policies to config interface self.config.set_policies(copy.deepcopy(self.policies)) # load ipset files self._loader(config.FIREWALLD_IPSETS, "ipset") self._loader(config.ETC_FIREWALLD_IPSETS, "ipset") # load icmptype files self._loader(config.FIREWALLD_ICMPTYPES, "icmptype") self._loader(config.ETC_FIREWALLD_ICMPTYPES, "icmptype") if len(self.icmptype.get_icmptypes()) == 0: log.error("No icmptypes found.") # load helper files self._loader(config.FIREWALLD_HELPERS, "helper") self._loader(config.ETC_FIREWALLD_HELPERS, "helper") # load service files self._loader(config.FIREWALLD_SERVICES, "service") self._loader(config.ETC_FIREWALLD_SERVICES, "service") if len(self.service.get_services()) == 0: log.error("No services found.") # load zone files self._loader(config.FIREWALLD_ZONES, "zone") self._loader(config.ETC_FIREWALLD_ZONES, "zone") if len(self.zone.get_zones()) == 0: log.fatal("No zones found.") sys.exit(1) # load policy files self._loader(config.FIREWALLD_POLICIES, "policy") self._loader(config.ETC_FIREWALLD_POLICIES, "policy") # check minimum required zones error = False for z in [ "block", "drop", "trusted" ]: if z not in self.zone.get_zones(): log.fatal("Zone '%s' is not available.", z) error = True if error: sys.exit(1) # check if default_zone is a valid zone if default_zone not in self.zone.get_zones(): if "public" in self.zone.get_zones(): zone = "public" elif "external" in self.zone.get_zones(): zone = "external" else: zone = "block" # block is a base zone, therefore it has to exist log.error("Default zone '%s' is not valid. Using '%s'.", default_zone, zone) default_zone = zone else: log.debug1("Using default zone '%s'", default_zone) # load direct rules obj = Direct(config.FIREWALLD_DIRECT) if os.path.exists(config.FIREWALLD_DIRECT): log.debug1("Loading direct rules file '%s'" % \ config.FIREWALLD_DIRECT) try: obj.read() except Exception as msg: log.error("Failed to load direct rules file '%s': %s", config.FIREWALLD_DIRECT, msg) self.direct.set_permanent_config(obj) self.config.set_direct(copy.deepcopy(obj)) self._default_zone = self.check_zone(default_zone) if self._offline: return # check if needed tables are there self._check_tables() if log.getDebugLogLevel() > 0: # get time before flushing and applying tm1 = time.time() # Start transaction transaction = FirewallTransaction(self) # flush rules if not reload: self.flush(use_transaction=transaction) # If modules need to be unloaded in complete reload or if there are # ipsets to get applied, limit the transaction to flush. # # Future optimization for the ipset case in reload: The transaction # only needs to be split here if there are conflicting ipset types in # exsting ipsets and the configuration in firewalld. if (reload and complete_reload) or \ (self.ipset_enabled and self.ipset.has_ipsets()): transaction.execute(True) transaction.clear() # complete reload: unload modules also if reload and complete_reload: log.debug1("Unloading firewall modules") self.modules_backend.unload_firewall_modules() self.apply_default_tables(use_transaction=transaction) transaction.execute(True) transaction.clear() # apply settings for loaded ipsets while reloading here if self.ipset_enabled and self.ipset.has_ipsets(): log.debug1("Applying ipsets") self.ipset.apply_ipsets() # Start or continue with transaction # apply default rules log.debug1("Applying default rule set") self.apply_default_rules(use_transaction=transaction) # apply settings for loaded zones log.debug1("Applying used zones") self.zone.apply_zones(use_transaction=transaction) self.zone.change_default_zone(None, self._default_zone, use_transaction=transaction) # apply policies log.debug1("Applying used policies") self.policy.apply_policies(use_transaction=transaction) # Execute transaction transaction.execute(True) # Start new transaction for direct rules transaction.clear() # apply direct chains, rules and passthrough rules if self.direct.has_configuration(): log.debug1("Applying direct chains rules and passthrough rules") self.direct.apply_direct(transaction) # since direct rules are easy to make syntax errors lets highlight # the cause if the transaction fails. try: transaction.execute(True) transaction.clear() except FirewallError as e: raise FirewallError(e.code, "Direct: %s" % (e.msg if e.msg else "")) except Exception: raise del transaction if log.getDebugLogLevel() > 1: # get time after flushing and applying tm2 = time.time() log.debug2("Flushing and applying took %f seconds" % (tm2 - tm1)) def start(self): try: self._start() except Exception: self._state = "FAILED" self.set_policy("ACCEPT") raise else: self._state = "RUNNING" self.set_policy("ACCEPT") def _loader(self, path, reader_type, combine=False): # combine: several zone files are getting combined into one obj if not os.path.isdir(path): return if combine: if path.startswith(config.ETC_FIREWALLD) and reader_type == "zone": combined_zone = Zone() combined_zone.name = os.path.basename(path) combined_zone.check_name(combined_zone.name) combined_zone.path = path combined_zone.default = False else: combine = False for filename in sorted(os.listdir(path)): if not filename.endswith(".xml"): if path.startswith(config.ETC_FIREWALLD) and \ reader_type == "zone" and \ os.path.isdir("%s/%s" % (path, filename)): self._loader("%s/%s" % (path, filename), reader_type, combine=True) continue name = "%s/%s" % (path, filename) log.debug1("Loading %s file '%s'", reader_type, name) try: if reader_type == "icmptype": obj = icmptype_reader(filename, path) if obj.name in self.icmptype.get_icmptypes(): orig_obj = self.icmptype.get_icmptype(obj.name) log.debug1(" Overloads %s '%s' ('%s/%s')", reader_type, orig_obj.name, orig_obj.path, orig_obj.filename) self.icmptype.remove_icmptype(orig_obj.name) elif obj.path.startswith(config.ETC_FIREWALLD): obj.default = True try: self.icmptype.add_icmptype(obj) except FirewallError as error: log.info1("%s: %s, ignoring for run-time." % \ (obj.name, str(error))) # add a deep copy to the configuration interface self.config.add_icmptype(copy.deepcopy(obj)) elif reader_type == "service": obj = service_reader(filename, path) if obj.name in self.service.get_services(): orig_obj = self.service.get_service(obj.name) log.debug1(" Overloads %s '%s' ('%s/%s')", reader_type, orig_obj.name, orig_obj.path, orig_obj.filename) self.service.remove_service(orig_obj.name) elif obj.path.startswith(config.ETC_FIREWALLD): obj.default = True self.service.add_service(obj) # add a deep copy to the configuration interface self.config.add_service(copy.deepcopy(obj)) elif reader_type == "zone": obj = zone_reader(filename, path, no_check_name=combine) if combine: # Change name for permanent configuration obj.name = "%s/%s" % ( os.path.basename(path), os.path.basename(filename)[0:-4]) obj.check_name(obj.name) # Copy object before combine config_obj = copy.deepcopy(obj) if obj.name in self.zone.get_zones(): orig_obj = self.zone.get_zone(obj.name) self.zone.remove_zone(orig_obj.name) if orig_obj.combined: log.debug1(" Combining %s '%s' ('%s/%s')", reader_type, obj.name, path, filename) obj.combine(orig_obj) else: log.debug1(" Overloads %s '%s' ('%s/%s')", reader_type, orig_obj.name, orig_obj.path, orig_obj.filename) elif obj.path.startswith(config.ETC_FIREWALLD): obj.default = True config_obj.default = True self.config.add_zone(config_obj) if combine: log.debug1(" Combining %s '%s' ('%s/%s')", reader_type, combined_zone.name, path, filename) combined_zone.combine(obj) else: self.zone.add_zone(obj) elif reader_type == "ipset": obj = ipset_reader(filename, path) if obj.name in self.ipset.get_ipsets(): orig_obj = self.ipset.get_ipset(obj.name) log.debug1(" Overloads %s '%s' ('%s/%s')", reader_type, orig_obj.name, orig_obj.path, orig_obj.filename) self.ipset.remove_ipset(orig_obj.name) elif obj.path.startswith(config.ETC_FIREWALLD): obj.default = True try: self.ipset.add_ipset(obj) except FirewallError as error: log.warning("%s: %s, ignoring for run-time." % \ (obj.name, str(error))) # add a deep copy to the configuration interface self.config.add_ipset(copy.deepcopy(obj)) elif reader_type == "helper": obj = helper_reader(filename, path) if obj.name in self.helper.get_helpers(): orig_obj = self.helper.get_helper(obj.name) log.debug1(" Overloads %s '%s' ('%s/%s')", reader_type, orig_obj.name, orig_obj.path, orig_obj.filename) self.helper.remove_helper(orig_obj.name) elif obj.path.startswith(config.ETC_FIREWALLD): obj.default = True self.helper.add_helper(obj) # add a deep copy to the configuration interface self.config.add_helper(copy.deepcopy(obj)) elif reader_type == "policy": obj = policy_reader(filename, path) if obj.name in self.policy.get_policies(): orig_obj = self.policy.get_policy(obj.name) log.debug1(" Overloads %s '%s' ('%s/%s')", reader_type, orig_obj.name, orig_obj.path, orig_obj.filename) self.policy.remove_policy(orig_obj.name) elif obj.path.startswith(config.ETC_FIREWALLD): obj.default = True self.policy.add_policy(obj) # add a deep copy to the configuration interface self.config.add_policy_object(copy.deepcopy(obj)) else: log.fatal("Unknown reader type %s", reader_type) except FirewallError as msg: log.error("Failed to load %s file '%s': %s", reader_type, name, msg) except Exception: log.error("Failed to load %s file '%s':", reader_type, name) log.exception() if combine and combined_zone.combined: if combined_zone.name in self.zone.get_zones(): orig_obj = self.zone.get_zone(combined_zone.name) log.debug1(" Overloading and deactivating %s '%s' ('%s/%s')", reader_type, orig_obj.name, orig_obj.path, orig_obj.filename) try: self.zone.remove_zone(combined_zone.name) except Exception: pass self.config.forget_zone(combined_zone.name) self.zone.add_zone(combined_zone) def cleanup(self): self.icmptype.cleanup() self.service.cleanup() self.zone.cleanup() self.ipset.cleanup() self.helper.cleanup() self.config.cleanup() self.direct.cleanup() self.policies.cleanup() self.policy.cleanup() self._firewalld_conf.cleanup() self.__init_vars() def stop(self): if not self._offline: if self.cleanup_on_exit: self.flush() self.ipset.flush() self.set_policy("ACCEPT") if self.cleanup_modules_on_exit: log.debug1('Unloading firewall kernel modules') self.modules_backend.unload_firewall_modules() self.cleanup() # handle modules def handle_modules(self, _modules, enable): num_failed = 0 error_msgs = "" for i,module in enumerate(_modules): if enable: (status, msg) = self.modules_backend.load_module(module) else: if self._module_refcount[module] > 1: status = 0 # module referenced more then one, do not unload else: (status, msg) = self.modules_backend.unload_module(module) if status != 0: num_failed += 1 error_msgs += msg continue if enable: self._module_refcount.setdefault(module, 0) self._module_refcount[module] += 1 else: if module in self._module_refcount: self._module_refcount[module] -= 1 if self._module_refcount[module] == 0: del self._module_refcount[module] return (num_failed, error_msgs) def _select_firewall_backend(self, backend): if backend != "nftables": self.nftables_enabled = False # even if using nftables, the other backends are enabled for use with # the direct interface. nftables is used for the firewalld primitives. def get_backend_by_name(self, name): for backend in self.all_backends(): if backend.name == name: return backend raise FirewallError(errors.UNKNOWN_ERROR, "'%s' backend does not exist" % name) def get_backend_by_ipv(self, ipv): if self.nftables_enabled: return self.nftables_backend if ipv == "ipv4" and self.ip4tables_enabled: return self.ip4tables_backend elif ipv == "ipv6" and self.ip6tables_enabled: return self.ip6tables_backend elif ipv == "eb" and self.ebtables_enabled: return self.ebtables_backend raise FirewallError(errors.INVALID_IPV, "'%s' is not a valid backend or is unavailable" % ipv) def get_direct_backend_by_ipv(self, ipv): if ipv == "ipv4" and self.ip4tables_enabled: return self.ip4tables_backend elif ipv == "ipv6" and self.ip6tables_enabled: return self.ip6tables_backend elif ipv == "eb" and self.ebtables_enabled: return self.ebtables_backend raise FirewallError(errors.INVALID_IPV, "'%s' is not a valid backend or is unavailable" % ipv) def is_backend_enabled(self, name): if name == "ip4tables": return self.ip4tables_enabled elif name == "ip6tables": return self.ip6tables_enabled elif name == "ebtables": return self.ebtables_enabled elif name == "nftables": return self.nftables_enabled return False def is_ipv_enabled(self, ipv): if self.nftables_enabled: return True if ipv == "ipv4": return self.ip4tables_enabled elif ipv == "ipv6": return self.ip6tables_enabled elif ipv == "eb": return self.ebtables_enabled return False def enabled_backends(self): backends = [] if self.nftables_enabled: backends.append(self.nftables_backend) else: if self.ip4tables_enabled: backends.append(self.ip4tables_backend) if self.ip6tables_enabled: backends.append(self.ip6tables_backend) if self.ebtables_enabled: backends.append(self.ebtables_backend) return backends def all_backends(self): backends = [] if self.ip4tables_enabled: backends.append(self.ip4tables_backend) if self.ip6tables_enabled: backends.append(self.ip6tables_backend) if self.ebtables_enabled: backends.append(self.ebtables_backend) if self.nftables_enabled: backends.append(self.nftables_backend) return backends def apply_default_tables(self, use_transaction=None): if use_transaction is None: transaction = FirewallTransaction(self) else: transaction = use_transaction for backend in self.enabled_backends(): transaction.add_rules(backend, backend.build_default_tables()) if use_transaction is None: transaction.execute(True) def apply_default_rules(self, use_transaction=None): if use_transaction is None: transaction = FirewallTransaction(self) else: transaction = use_transaction for backend in self.enabled_backends(): rules = backend.build_default_rules(self._log_denied) transaction.add_rules(backend, rules) if self.is_ipv_enabled("ipv6"): ipv6_backend = self.get_backend_by_ipv("ipv6") if "raw" in ipv6_backend.get_available_tables(): if self.ipv6_rpfilter_enabled: rules = ipv6_backend.build_rpfilter_rules(self._log_denied) transaction.add_rules(ipv6_backend, rules) if self.is_ipv_enabled("ipv6") and self._rfc3964_ipv4: rules = ipv6_backend.build_rfc3964_ipv4_rules() transaction.add_rules(ipv6_backend, rules) if use_transaction is None: transaction.execute(True) def may_skip_flush_direct_backends(self): if self.nftables_enabled and not self.direct.has_runtime_configuration(): return True return False def flush_direct_backends(self, use_transaction=None): if use_transaction is None: transaction = FirewallTransaction(self) else: transaction = use_transaction for backend in self.all_backends(): if backend in self.enabled_backends(): continue rules = backend.build_flush_rules() transaction.add_rules(backend, rules) if use_transaction is None: transaction.execute(True) def flush(self, use_transaction=None): if use_transaction is None: transaction = FirewallTransaction(self) else: transaction = use_transaction log.debug1("Flushing rule set") if not self.may_skip_flush_direct_backends(): self.flush_direct_backends(use_transaction=transaction) for backend in self.enabled_backends(): rules = backend.build_flush_rules() transaction.add_rules(backend, rules) if use_transaction is None: transaction.execute(True) def set_policy(self, policy, use_transaction=None): if use_transaction is None: transaction = FirewallTransaction(self) else: transaction = use_transaction log.debug1("Setting policy to '%s'", policy) for backend in self.enabled_backends(): rules = backend.build_set_policy_rules(policy) transaction.add_rules(backend, rules) if use_transaction is None: transaction.execute(True) # rule function used in handle_ functions def rule(self, backend_name, rule): if not rule: return "" backend = self.get_backend_by_name(backend_name) if not backend: raise FirewallError(errors.INVALID_IPV, "'%s' is not a valid backend" % backend_name) if not self.is_backend_enabled(backend_name): return "" return backend.set_rule(rule, self._log_denied) def rules(self, backend_name, rules): _rules = list(filter(None, rules)) backend = self.get_backend_by_name(backend_name) if not backend: raise FirewallError(errors.INVALID_IPV, "'%s' is not a valid backend" % backend_name) if not self.is_backend_enabled(backend_name): return if self._individual_calls or \ not backend.restore_command_exists or \ (backend_name == "ebtables" and not self.ebtables_backend.restore_noflush_option): for i,rule in enumerate(_rules): try: backend.set_rule(rule, self._log_denied) except Exception as msg: log.debug1(traceback.format_exc()) log.error(msg) for rule in reversed(_rules[:i]): try: backend.set_rule(backend.reverse_rule(rule), self._log_denied) except Exception: # ignore errors here pass raise msg else: backend.set_rules(_rules, self._log_denied) # check functions def check_panic(self): if self._panic: raise FirewallError(errors.PANIC_MODE) def check_policy(self, policy): _policy = policy if _policy not in self.policy.get_policies(): raise FirewallError(errors.INVALID_POLICY, _policy) return _policy def check_zone(self, zone): _zone = zone if not _zone or _zone == "": _zone = self.get_default_zone() if _zone not in self.zone.get_zones(): raise FirewallError(errors.INVALID_ZONE, _zone) return _zone def check_interface(self, interface): if not functions.checkInterface(interface): raise FirewallError(errors.INVALID_INTERFACE, interface) def check_service(self, service): self.service.check_service(service) def check_port(self, port): if not functions.check_port(port): raise FirewallError(errors.INVALID_PORT, port) def check_tcpudp(self, protocol): if not protocol: raise FirewallError(errors.MISSING_PROTOCOL) if protocol not in [ "tcp", "udp", "sctp", "dccp" ]: raise FirewallError(errors.INVALID_PROTOCOL, "'%s' not in {'tcp'|'udp'|'sctp'|'dccp'}" % \ protocol) def check_ip(self, ip): if not functions.checkIP(ip): raise FirewallError(errors.INVALID_ADDR, ip) def check_address(self, ipv, source): if ipv == "ipv4": if not functions.checkIPnMask(source): raise FirewallError(errors.INVALID_ADDR, source) elif ipv == "ipv6": if not functions.checkIP6nMask(source): raise FirewallError(errors.INVALID_ADDR, source) else: raise FirewallError(errors.INVALID_IPV, "'%s' not in {'ipv4'|'ipv6'}") def check_icmptype(self, icmp): self.icmptype.check_icmptype(icmp) def check_timeout(self, timeout): if not isinstance(timeout, int): raise TypeError("%s is %s, expected int" % (timeout, type(timeout))) if int(timeout) < 0: raise FirewallError(errors.INVALID_VALUE, "timeout '%d' is not positive number" % timeout) # RELOAD def reload(self, stop=False): _panic = self._panic # must stash this. The value may change after _start() flush_all = self._flush_all_on_reload if not flush_all: # save zone interfaces _zone_interfaces = { } for zone in self.zone.get_zones(): _zone_interfaces[zone] = self.zone.get_settings(zone)["interfaces"] # save direct config _direct_config = self.direct.get_runtime_config() _old_dz = self.get_default_zone() _ipset_objs = [] for _name in self.ipset.get_ipsets(): _ipset_objs.append(self.ipset.get_ipset(_name)) if not _panic: self.set_policy("DROP") self.flush() self.cleanup() start_exception = None try: self._start(reload=True, complete_reload=stop) except Exception as e: # save the exception for later, but continue restoring interfaces, # etc. We'll re-raise it at the end. start_exception = e # destroy ipsets no longer in the permanent configuration if flush_all: for obj in _ipset_objs: if not self.ipset.query_ipset(obj.name): for backend in self.ipset.backends(): # nftables sets are part of the normal firewall ruleset. if backend.name == "nftables": continue backend.set_destroy(obj.name) if not flush_all: # handle interfaces in the default zone and move them to the new # default zone if it changed _new_dz = self.get_default_zone() if _new_dz != _old_dz: # if_new_dz has been introduced with the reload, we need to add it # https://github.com/firewalld/firewalld/issues/53 if _new_dz not in _zone_interfaces: _zone_interfaces[_new_dz] = { } # default zone changed. Move interfaces from old default zone to # the new one. for iface, settings in list(_zone_interfaces[_old_dz].items()): if settings["__default__"]: # move only those that were added to default zone # (not those that were added to specific zone same as # default) _zone_interfaces[_new_dz][iface] = \ _zone_interfaces[_old_dz][iface] del _zone_interfaces[_old_dz][iface] # add interfaces to zones again for zone in self.zone.get_zones(): if zone in _zone_interfaces: for interface_id in _zone_interfaces[zone]: self.zone.change_zone_of_interface(zone, interface_id, _zone_interfaces[zone][interface_id]["sender"]) del _zone_interfaces[zone] else: log.info1("New zone '%s'.", zone) if len(_zone_interfaces) > 0: for zone in list(_zone_interfaces.keys()): log.info1("Lost zone '%s', zone interfaces dropped.", zone) del _zone_interfaces[zone] del _zone_interfaces # restore runtime-only ipsets for obj in _ipset_objs: if self.ipset.query_ipset(obj.name): for entry in obj.entries: try: self.ipset.add_entry(obj.name, entry) except FirewallError as msg: if msg.code != errors.ALREADY_ENABLED: raise msg else: self.ipset.add_ipset(obj) self.ipset.apply_ipset(obj.name) # restore direct config self.direct.set_config(_direct_config) # Restore permanent interfaces from NetworkManager nm_bus_name = nm_get_bus_name() if nm_bus_name: for zone in self.zone.get_zones() + [""]: for interface in nm_get_interfaces_in_zone(zone): self.zone.change_zone_of_interface(zone, interface, sender=nm_bus_name) self._panic = _panic if not self._panic: self.set_policy("ACCEPT") if start_exception: self._state = "FAILED" raise start_exception else: self._state = "RUNNING" # STATE def get_state(self): return self._state # PANIC MODE def enable_panic_mode(self): if self._panic: raise FirewallError(errors.ALREADY_ENABLED, "panic mode already enabled") try: self.set_policy("PANIC") except Exception as msg: raise FirewallError(errors.COMMAND_FAILED, msg) self._panic = True def disable_panic_mode(self): if not self._panic: raise FirewallError(errors.NOT_ENABLED, "panic mode is not enabled") try: self.set_policy("ACCEPT") except Exception as msg: raise FirewallError(errors.COMMAND_FAILED, msg) self._panic = False def query_panic_mode(self): return self._panic # LOG DENIED def get_log_denied(self): return self._log_denied def set_log_denied(self, value): if value not in config.LOG_DENIED_VALUES: raise FirewallError(errors.INVALID_VALUE, "'%s', choose from '%s'" % \ (value, "','".join(config.LOG_DENIED_VALUES))) if value != self.get_log_denied(): self._log_denied = value self._firewalld_conf.set("LogDenied", value) self._firewalld_conf.write() else: raise FirewallError(errors.ALREADY_SET, value) # DEFAULT ZONE def get_default_zone(self): return self._default_zone def set_default_zone(self, zone): _zone = self.check_zone(zone) if _zone != self._default_zone: _old_dz = self._default_zone self._default_zone = _zone self._firewalld_conf.set("DefaultZone", _zone) self._firewalld_conf.write() # remove old default zone from ZONES and add new default zone self.zone.change_default_zone(_old_dz, _zone) # Move interfaces from old default zone to the new one. _old_dz_settings = self.zone.get_settings(_old_dz) for iface, settings in list(_old_dz_settings["interfaces"].items()): if settings["__default__"]: # move only those that were added to default zone # (not those that were added to specific zone same as default) self.zone.change_zone_of_interface("", iface) else: raise FirewallError(errors.ZONE_ALREADY_SET, _zone) def combine_runtime_with_permanent_settings(self, permanent, runtime): combined = permanent.copy() for key,value in runtime.items(): # omit empty entries if value or isinstance(value, bool): combined[key] = value # make sure to remove values that were in permanent, but no # longer in runtime. elif key in combined: del combined[key] return combined def get_added_and_removed_settings(self, old_settings, new_settings): add_settings = {} remove_settings = {} for key in (set(old_settings.keys()) | set(new_settings.keys())): if key in new_settings: if isinstance(new_settings[key], list): old = set(old_settings[key] if key in old_settings else []) add_settings[key] = list(set(new_settings[key]) - old) remove_settings[key] = list((old ^ set(new_settings[key])) & old) # check for bool or int because dbus.Boolean is a subclass of # int (because bool can't be subclassed). elif isinstance(new_settings[key], bool) or isinstance(new_settings[key], int): if not old_settings[key] and new_settings[key]: add_settings[key] = True elif old_settings[key] and not new_settings[key]: remove_settings[key] = False else: raise FirewallError(errors.INVALID_SETTING, "Unhandled setting type {} key {}".format(type(new_settings[key]), key)) return (add_settings, remove_settings)
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