# emacs: -*- mode: python; py-indent-offset: 4; indent-tabs-mode: t -*- # vi: set ft=python sts=4 ts=4 sw=4 noet : # This file is part of Fail2Ban. # # Fail2Ban 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. # # Fail2Ban 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 Fail2Ban; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. __author__ = "Cyril Jaquier and Fail2Ban Contributors" __copyright__ = "Copyright (c) 2004 Cyril Jaquier, 2011-2012 Yaroslav Halchenko" __license__ = "GPL" import logging, os import threading, re #from subprocess import call # Gets the instance of the logger. logSys = logging.getLogger("fail2ban.actions.action") # Create a lock for running system commands _cmd_lock = threading.Lock() # Some hints on common abnormal exit codes _RETCODE_HINTS = { 0x7f00: '"Command not found". Make sure that all commands in %(realCmd)r ' 'are in the PATH of fail2ban-server process ' '(grep -a PATH= /proc/`pidof -x fail2ban-server`/environ). ' 'You may want to start ' '"fail2ban-server -f" separately, initiate it with ' '"fail2ban-client reload" in another shell session and observe if ' 'additional informative error messages appear in the terminals.' } ## # Execute commands. # # This class reads the failures from the Jail queue and decide if an # action has to be taken. A BanManager take care of the banned IP # addresses. class Action: def __init__(self, name): self.__name = name self.__cInfo = dict() ## Command executed in order to initialize the system. self.__actionStart = '' ## Command executed when an IP address gets banned. self.__actionBan = '' ## Command executed when an IP address gets removed. self.__actionUnban = '' ## Command executed in order to check requirements. self.__actionCheck = '' ## Command executed in order to stop the system. self.__actionStop = '' logSys.debug("Created Action") ## # Sets the action name. # # @param name the name of the action def setName(self, name): self.__name = name ## # Returns the action name. # # @return the name of the action def getName(self): return self.__name ## # Sets a "CInfo". # # CInfo are statically defined properties. They can be definied by # the user and are used to set e-mail addresses, port, host or # anything that should not change during the life of the server. # # @param key the property name # @param value the property value def setCInfo(self, key, value): self.__cInfo[key] = value ## # Returns a "CInfo". # # @param key the property name def getCInfo(self, key): return self.__cInfo[key] ## # Removes a "CInfo". # # @param key the property name def delCInfo(self, key): del self.__cInfo[key] ## # Set the "start" command. # # @param value the command def setActionStart(self, value): self.__actionStart = value logSys.debug("Set actionStart = %s" % value) ## # Get the "start" command. # # @return the command def getActionStart(self): return self.__actionStart ## # Executes the action "start" command. # # Replaces the tags in the action command with value of "cInfo" # and executes the resulting command. # # @return True if the command succeeded def execActionStart(self): if self.__cInfo: if not Action.substituteRecursiveTags(self.__cInfo): logSys.error("Cinfo/definitions contain self referencing definitions and cannot be resolved") return False startCmd = Action.replaceTag(self.__actionStart, self.__cInfo) return Action.executeCmd(startCmd) ## # Set the "ban" command. # # @param value the command def setActionBan(self, value): self.__actionBan = value logSys.debug("Set actionBan = %s" % value) ## # Get the "ban" command. # # @return the command def getActionBan(self): return self.__actionBan ## # Executes the action "ban" command. # # @return True if the command succeeded def execActionBan(self, aInfo): return self.__processCmd(self.__actionBan, aInfo) ## # Set the "unban" command. # # @param value the command def setActionUnban(self, value): self.__actionUnban = value logSys.debug("Set actionUnban = %s" % value) ## # Get the "unban" command. # # @return the command def getActionUnban(self): return self.__actionUnban ## # Executes the action "unban" command. # # @return True if the command succeeded def execActionUnban(self, aInfo): return self.__processCmd(self.__actionUnban, aInfo) ## # Set the "check" command. # # @param value the command def setActionCheck(self, value): self.__actionCheck = value logSys.debug("Set actionCheck = %s" % value) ## # Get the "check" command. # # @return the command def getActionCheck(self): return self.__actionCheck ## # Set the "stop" command. # # @param value the command def setActionStop(self, value): self.__actionStop = value logSys.debug("Set actionStop = %s" % value) ## # Get the "stop" command. # # @return the command def getActionStop(self): return self.__actionStop ## # Executes the action "stop" command. # # Replaces the tags in the action command with value of "cInfo" # and executes the resulting command. # # @return True if the command succeeded def execActionStop(self): stopCmd = Action.replaceTag(self.__actionStop, self.__cInfo) return Action.executeCmd(stopCmd) ## # Sort out tag definitions within other tags # # so: becomes: # a = 3 a = 3 # b = _3 b = 3_3 # @param tags, a dictionary # @returns tags altered or False if there is a recursive definition #@staticmethod def substituteRecursiveTags(tags): t = re.compile(r'<([^ >]+)>') for tag, value in tags.iteritems(): value = str(value) m = t.search(value) while m: if m.group(1) == tag: # recursive definitions are bad return False else: if tags.has_key(m.group(1)): value = value[0:m.start()] + tags[m.group(1)] + value[m.end():] m = t.search(value, m.start()) else: # Missing tags are ok so we just continue on searching. # cInfo can contain aInfo elements like and valid shell # constructs like . m = t.search(value, m.start() + 1) tags[tag] = value return tags substituteRecursiveTags = staticmethod(substituteRecursiveTags) #@staticmethod def escapeTag(tag): for c in '\\#&;`|*?~<>^()[]{}$\n\'"': if c in tag: tag = tag.replace(c, '\\' + c) return tag escapeTag = staticmethod(escapeTag) ## # Replaces tags in query with property values in aInfo. # # @param query the query string with tags # @param aInfo the properties # @return a string #@staticmethod def replaceTag(query, aInfo): """ Replace tags in query """ string = query for tag, value in aInfo.iteritems(): value = str(value) # assure string if tag == 'matches': # That one needs to be escaped since its content is # out of our control value = Action.escapeTag(value) string = string.replace('<' + tag + '>', value) # New line string = string.replace("
", '\n') return string replaceTag = staticmethod(replaceTag) ## # Executes a command with preliminary checks and substitutions. # # Before executing any commands, executes the "check" command first # in order to check if pre-requirements are met. If this check fails, # it tries to restore a sane environment before executing the real # command. # Replaces "aInfo" and "cInfo" in the query too. # # @param cmd The command to execute # @param aInfo Dynamic properties # @return True if the command succeeded def __processCmd(self, cmd, aInfo = None): """ Executes an OS command. """ if cmd == "": logSys.debug("Nothing to do") return True checkCmd = Action.replaceTag(self.__actionCheck, self.__cInfo) if not Action.executeCmd(checkCmd): logSys.error("Invariant check failed. Trying to restore a sane" + " environment") self.execActionStop() self.execActionStart() if not Action.executeCmd(checkCmd): logSys.fatal("Unable to restore environment") return False # Replace tags if not aInfo is None: realCmd = Action.replaceTag(cmd, aInfo) else: realCmd = cmd # Replace static fields realCmd = Action.replaceTag(realCmd, self.__cInfo) return Action.executeCmd(realCmd) ## # Executes a command. # # We need a shell here because commands are mainly shell script. They # contain pipe, redirection, etc. # # @todo Force the use of bash!? # @todo Kill the command after a given timeout # # @param realCmd the command to execute # @return True if the command succeeded #@staticmethod def executeCmd(realCmd): logSys.debug(realCmd) _cmd_lock.acquire() try: # Try wrapped within another try needed for python version < 2.5 try: # The following line gives deadlock with multiple jails #retcode = call(realCmd, shell=True) retcode = os.system(realCmd) if retcode == 0: logSys.debug("%s returned successfully" % realCmd) return True else: msg = _RETCODE_HINTS.get(retcode, None) logSys.error("%s returned %x" % (realCmd, retcode)) if msg: logSys.info("HINT on %x: %s" % (retcode, msg % locals())) except OSError, e: logSys.error("%s failed with %s" % (realCmd, e)) finally: _cmd_lock.release() return False executeCmd = staticmethod(executeCmd)