| Disable Functions: Path : /lib/python2.7/site-packages/firewall/core/ |
| Current File : //lib/python2.7/site-packages/firewall/core/fw_transaction.py |
# -*- coding: utf-8 -*-
#
# Copyright (C) 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/>.
#
"""Transaction classes for firewalld"""
__all__ = [ "FirewallTransaction", "FirewallZoneTransaction" ]
from firewall.core.logger import log
from firewall import errors
from firewall.errors import FirewallError
from firewall.fw_types import LastUpdatedOrderedDict
class SimpleFirewallTransaction(object):
"""Base class for FirewallTransaction and FirewallZoneTransaction"""
def __init__(self, fw):
self.fw = fw
self.rules = { } # [ ( backend.name, [ rule,.. ] ),.. ]
self.pre_funcs = [ ] # [ (func, args),.. ]
self.post_funcs = [ ] # [ (func, args),.. ]
self.fail_funcs = [ ] # [ (func, args),.. ]
def clear(self):
self.rules.clear()
del self.pre_funcs[:]
del self.post_funcs[:]
del self.fail_funcs[:]
def add_rule(self, backend, rule):
self.rules.setdefault(backend.name, [ ]).append(rule)
def add_rules(self, backend, rules):
for rule in rules:
self.add_rule(backend, rule)
def query_rule(self, backend, rule):
return backend.name in self.rules and rule in self.rules[backend.name]
def remove_rule(self, backend, rule):
if backend.name in self.rules and rule in self.rules[backend.name]:
self.rules[backend.name].remove(rule)
def add_pre(self, func, *args):
self.pre_funcs.append((func, args))
def add_post(self, func, *args):
self.post_funcs.append((func, args))
def add_fail(self, func, *args):
self.fail_funcs.append((func, args))
def prepare(self, enable, rules=None, modules=None):
log.debug4("%s.prepare(%s, %s)" % (type(self), enable, "..."))
if rules is None:
rules = { }
if modules is None:
modules = [ ]
if not enable:
# reverse rule order for cleanup
for backend_name in self.rules:
for rule in reversed(self.rules[backend_name]):
rules.setdefault(backend_name, [ ]).append(
self.fw.get_backend_by_name(backend_name).reverse_rule(rule))
else:
for backend_name in self.rules:
rules.setdefault(backend_name, [ ]).extend(self.rules[backend_name])
return rules, modules
def execute(self, enable):
log.debug4("%s.execute(%s)" % (type(self), enable))
rules, modules = self.prepare(enable)
# pre
self.pre()
# stage 1: apply rules
error = False
errorMsg = ""
done = [ ]
for backend_name in rules:
try:
self.fw.rules(backend_name, rules[backend_name])
except Exception as msg:
error = True
errorMsg = msg
log.error(msg)
else:
done.append(backend_name)
# stage 2: load modules
if not error:
module_return = self.fw.handle_modules(modules, enable)
if module_return:
# Debug log about issues loading modules, but don't error. The
# modules may be builtin or CONFIG_MODULES=n, in which case
# modprobe will fail. Or we may be running inside a container
# that doesn't have sufficient privileges. Unfortunately there
# is no way for us to know.
(status, msg) = module_return
if status:
log.debug1(msg)
# error case: revert rules
if error:
undo_rules = { }
for backend_name in done:
undo_rules[backend_name] = [ ]
for rule in reversed(rules[backend_name]):
undo_rules[backend_name].append(
self.fw.get_backend_by_name(backend_name).reverse_rule(rule))
for backend_name in undo_rules:
try:
self.fw.rules(backend_name, undo_rules[backend_name])
except Exception as msg:
log.error(msg)
# call failure functions
for (func, args) in self.fail_funcs:
try:
func(*args)
except Exception as msg:
log.error("Calling fail func %s(%s) failed: %s" % \
(func, args, msg))
raise FirewallError(errors.COMMAND_FAILED, errorMsg)
# post
self.post()
def pre(self):
log.debug4("%s.pre()" % type(self))
for (func, args) in self.pre_funcs:
try:
func(*args)
except Exception as msg:
log.error("Calling pre func %s(%s) failed: %s" % \
(func, args, msg))
def post(self):
log.debug4("%s.post()" % type(self))
for (func, args) in self.post_funcs:
try:
func(*args)
except Exception as msg:
log.error("Calling post func %s(%s) failed: %s" % \
(func, args, msg))
# class FirewallTransaction
class FirewallTransaction(SimpleFirewallTransaction):
"""General FirewallTransaction, contains also zone transactions"""
def __init__(self, fw):
super(FirewallTransaction, self).__init__(fw)
self.zone_transactions = LastUpdatedOrderedDict() # { zone: transaction, .. }
def clear(self):
super(FirewallTransaction, self).clear()
self.zone_transactions.clear()
def zone_transaction(self, zone):
if zone not in self.zone_transactions:
self.zone_transactions[zone] = FirewallZoneTransaction(
self.fw, zone, self)
return self.zone_transactions[zone]
def prepare(self, enable, rules=None, modules=None):
log.debug4("%s.prepare(%s, %s)" % (type(self), enable, "..."))
rules, modules = super(FirewallTransaction, self).prepare(
enable, rules, modules)
for zone in self.zone_transactions:
try:
self.zone_transactions[zone].prepare(enable, rules)
for module in self.zone_transactions[zone].modules:
if module not in modules:
modules.append(module)
except FirewallError as msg:
log.error("Failed to prepare transaction rules for zone '%s'",
str(msg))
return rules, modules
def pre(self):
log.debug4("%s.pre()" % type(self))
super(FirewallTransaction, self).pre()
for zone in self.zone_transactions:
self.zone_transactions[zone].pre()
def post(self):
log.debug4("%s.post()" % type(self))
super(FirewallTransaction, self).post()
for zone in self.zone_transactions:
self.zone_transactions[zone].post()
# class FirewallZoneTransaction
class FirewallZoneTransaction(SimpleFirewallTransaction):
"""Zone transaction with additional chain and module interface"""
def __init__(self, fw, zone, fw_transaction=None):
super(FirewallZoneTransaction, self).__init__(fw)
self.zone = zone
self.fw_transaction = fw_transaction
self.chains = [ ] # [ (table, chain),.. ]
self.modules = [ ] # [ module,.. ]
def clear(self):
# calling clear on a zone_transaction that was spawned from a
# FirewallTransaction needs to clear the fw_transaction and all the
# other zones otherwise we end up with a partially cleared transaction.
if self.fw_transaction:
super(FirewallTransaction, self.fw_transaction).clear()
for zone in self.fw_transaction.zone_transactions.keys():
super(FirewallZoneTransaction, self.fw_transaction.zone_transactions[zone]).clear()
del self.fw_transaction.zone_transactions[zone].chains[:]
del self.fw_transaction.zone_transactions[zone].modules[:]
else:
super(FirewallZoneTransaction, self).clear()
del self.chains[:]
del self.modules[:]
def prepare(self, enable, rules=None, modules=None):
log.debug4("%s.prepare(%s, %s)" % (type(self), enable, "..."))
rules, modules = super(FirewallZoneTransaction, self).prepare(
enable, rules, modules)
for module in self.modules:
if module not in modules:
modules.append(module)
return rules, modules
def execute(self, enable):
# calling execute on a zone_transaction that was spawned from a
# FirewallTransaction should execute the FirewallTransaction as it may
# have prerequisite rules
if self.fw_transaction:
self.fw_transaction.execute(enable)
else:
super(FirewallZoneTransaction, self).execute(enable)
def add_chain(self, table, chain):
table_chain = (table, chain)
if table_chain not in self.chains:
self.fw.zone.gen_chain_rules(self.zone, True, [table_chain], self)
self.chains.append(table_chain)
def remove_chain(self, table, chain):
table_chain = (table, chain)
if table_chain in self.chains:
self.chains.remove(table_chain)
def add_chains(self, chains):
for table_chain in chains:
if table_chain not in self.chains:
self.add_chain(table_chain[0], table_chain[1])
def remove_chains(self, chains):
for table_chain in chains:
if table_chain in self.chains:
self.chains.remove(table_chain)
def add_module(self, module):
if module not in self.modules:
self.modules.append(module)
def remove_module(self, module):
if module in self.modules:
self.modules.remove(module)
def add_modules(self, modules):
for module in modules:
self.add_module(module)
def remove_modules(self, modules):
for module in modules:
self.remove_module(module)