# vim: tabstop=4 shiftwidth=4 softtabstop=4 # Copyright (c) 2012 OpenStack Foundation. # All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. import os import re class CommandFilter(object): """Command filter only checking that the 1st argument matches exec_path""" def __init__(self, exec_path, run_as, *args): self.exec_path = exec_path self.run_as = run_as self.args = args def match(self, userargs): """Only check that the first argument (command) matches exec_path""" return os.path.basename(self.exec_path) == userargs[0] def get_command(self, userargs): """Returns command to execute (with sudo -u if run_as != root).""" if (self.run_as != 'root'): # Used to run commands at lesser privileges return ['sudo', '-u', self.run_as, self.exec_path] + userargs[1:] return [self.exec_path] + userargs[1:] def get_environment(self, userargs): """Returns specific environment to set, None if none""" return None class ExecCommandFilter(CommandFilter): def exec_args(self, userargs): return [] class RegExpFilter(CommandFilter): """Command filter doing regexp matching for every argument""" def match(self, userargs): # Early skip if command or number of args don't match if (len(self.args) != len(userargs)): # DENY: argument numbers don't match return False # Compare each arg (anchoring pattern explicitly at end of string) for (pattern, arg) in zip(self.args, userargs): try: if not re.match(pattern + '$', arg): break except re.error: # DENY: Badly-formed filter return False else: # ALLOW: All arguments matched return True # DENY: Some arguments did not match return False class DnsmasqFilter(CommandFilter): """Specific filter for the dnsmasq call (which includes env)""" def is_dnsmasq_cmd(self, argv): if (argv[0] == "dnsmasq"): return True return False def is_dnsmasq_env_vars(self, argv): if (argv[0].startswith("QUANTUM_RELAY_SOCKET_PATH=") and argv[1].startswith("QUANTUM_NETWORK_ID=")): return True return False def match(self, userargs): """This matches the combination of the leading env vars plus "dnsmasq" """ if (self.is_dnsmasq_env_vars(userargs) and self.is_dnsmasq_cmd(userargs[2:])): return True return False def get_command(self, userargs): return [self.exec_path] + userargs[3:] def get_environment(self, userargs): env = os.environ.copy() env['QUANTUM_RELAY_SOCKET_PATH'] = userargs[0].split('=')[-1] env['QUANTUM_NETWORK_ID'] = userargs[1].split('=')[-1] return env class DnsmasqNetnsFilter(DnsmasqFilter): """Specific filter for the dnsmasq call (which includes env)""" def is_ip_netns_cmd(self, argv): if ((argv[0] == "ip") and (argv[1] == "netns") and (argv[2] == "exec")): return True return False def match(self, userargs): """This matches the combination of the leading env vars plus "ip" "netns" "exec" "dnsmasq" """ if (self.is_dnsmasq_env_vars(userargs) and self.is_ip_netns_cmd(userargs[2:]) and self.is_dnsmasq_cmd(userargs[6:])): return True return False class KillFilter(CommandFilter): """Specific filter for the kill calls. 1st argument is the user to run /bin/kill under 2nd argument is the location of the affected executable Subsequent arguments list the accepted signals (if any) This filter relies on /proc to accurately determine affected executable, so it will only work on procfs-capable systems (not OSX). """ def __init__(self, *args): super(KillFilter, self).__init__("/bin/kill", *args) def match(self, userargs): if userargs[0] != "kill": return False args = list(userargs) if len(args) == 3: # this means we're asking for a specific signal signal = args.pop(1) if signal not in self.args[1:]: # Requested signal not in accepted list return False else: if len(args) != 2: # Incorrect number of arguments return False if len(self.args) > 1: # No signal requested, but filter requires specific signal return False try: command = os.readlink("/proc/%d/exe" % int(args[1])) # NOTE(dprince): /proc/PID/exe may have ' (deleted)' on # the end if an executable is updated or deleted if command.endswith(" (deleted)"): command = command[:command.rindex(" ")] if command != self.args[0]: # Affected executable doesn't match return False except (ValueError, OSError): # Incorrect PID return False return True class ReadFileFilter(CommandFilter): """Specific filter for the utils.read_file_as_root call""" def __init__(self, file_path, *args): self.file_path = file_path super(ReadFileFilter, self).__init__("/bin/cat", "root", *args) def match(self, userargs): if userargs[0] != 'cat': return False if userargs[1] != self.file_path: return False if len(userargs) != 2: return False return True class IpFilter(CommandFilter): """Specific filter for the ip utility to that does not match exec.""" def match(self, userargs): if userargs[0] == 'ip': if userargs[1] == 'netns': if userargs[2] in ('list', 'add', 'delete'): return True else: return False else: return True class IpNetnsExecFilter(ExecCommandFilter): """Specific filter for the ip utility to that does match exec.""" def match(self, userargs): if userargs[:3] == ['ip', 'netns', 'exec']: return True else: return False def exec_args(self, userargs): args = userargs[4:] if args: args[0] = os.path.basename(args[0]) return args