fail2ban/server/filter.py

598 lines
15 KiB
Python

# 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
# Author: Cyril Jaquier
#
# $Revision: 752 $
__author__ = "Cyril Jaquier"
__version__ = "$Revision: 752 $"
__date__ = "$Date: 2009-09-01 23:21:30 +0200 (Tue, 01 Sep 2009) $"
__copyright__ = "Copyright (c) 2004 Cyril Jaquier"
__license__ = "GPL"
from failmanager import FailManager
from ticket import FailTicket
from jailthread import JailThread
from datedetector import DateDetector
from mytime import MyTime
from failregex import FailRegex, Regex, RegexException
import logging, re, os, fcntl, time
# Gets the instance of the logger.
logSys = logging.getLogger("fail2ban.filter")
##
# Log reader class.
#
# This class reads a log file and detects login failures or anything else
# that matches a given regular expression. This class is instanciated by
# a Jail object.
class Filter(JailThread):
##
# Constructor.
#
# Initialize the filter object with default values.
# @param jail the jail object
def __init__(self, jail):
JailThread.__init__(self)
## The jail which contains this filter.
self.jail = jail
## The failures manager.
self.failManager = FailManager()
## The regular expression list matching the failures.
self.__failRegex = list()
## The regular expression list with expressions to ignore.
self.__ignoreRegex = list()
## The amount of time to look back.
self.__findTime = 6000
## The ignore IP list.
self.__ignoreIpList = []
self.dateDetector = DateDetector()
self.dateDetector.addDefaultTemplate()
logSys.debug("Created Filter")
##
# Add a regular expression which matches the failure.
#
# The regular expression can also match any other pattern than failures
# and thus can be used for many purporse.
# @param value the regular expression
def addFailRegex(self, value):
try:
regex = FailRegex(value)
self.__failRegex.append(regex)
except RegexException, e:
logSys.error(e)
def delFailRegex(self, index):
try:
del self.__failRegex[index]
except IndexError:
logSys.error("Cannot remove regular expression. Index %d is not "
"valid" % index)
##
# Get the regular expression which matches the failure.
#
# @return the regular expression
def getFailRegex(self):
failRegex = list()
for regex in self.__failRegex:
failRegex.append(regex.getRegex())
return failRegex
##
# Add the regular expression which matches the failure.
#
# The regular expression can also match any other pattern than failures
# and thus can be used for many purporse.
# @param value the regular expression
def addIgnoreRegex(self, value):
try:
regex = Regex(value)
self.__ignoreRegex.append(regex)
except RegexException, e:
logSys.error(e)
def delIgnoreRegex(self, index):
try:
del self.__ignoreRegex[index]
except IndexError:
logSys.error("Cannot remove regular expression. Index %d is not "
"valid" % index)
##
# Get the regular expression which matches the failure.
#
# @return the regular expression
def getIgnoreRegex(self):
ignoreRegex = list()
for regex in self.__ignoreRegex:
ignoreRegex.append(regex.getRegex())
return ignoreRegex
##
# Set the time needed to find a failure.
#
# This value tells the filter how long it has to take failures into
# account.
# @param value the time
def setFindTime(self, value):
self.__findTime = value
self.failManager.setMaxTime(value)
logSys.info("Set findtime = %s" % value)
##
# Get the time needed to find a failure.
#
# @return the time
def getFindTime(self):
return self.__findTime
##
# Set the maximum retry value.
#
# @param value the retry value
def setMaxRetry(self, value):
self.failManager.setMaxRetry(value)
logSys.info("Set maxRetry = %s" % value)
##
# Get the maximum retry value.
#
# @return the retry value
def getMaxRetry(self):
return self.failManager.getMaxRetry()
##
# Main loop.
#
# This function is the main loop of the thread. It checks if the
# file has been modified and looks for failures.
# @return True when the thread exits nicely
def run(self):
raise Exception("run() is abstract")
##
# Ban an IP - http://blogs.buanzo.com.ar/2009/04/fail2ban-patch-ban-ip-address-manually.html
# Arturo 'Buanzo' Busleiman <buanzo@buanzo.com.ar>
#
# to enable banip fail2ban-client BAN command
def addBannedIP(self, ip):
unixTime = time.time()
self.failManager.addFailure(FailTicket(ip, unixTime))
return ip
##
# Add an IP/DNS to the ignore list.
#
# IP addresses in the ignore list are not taken into account
# when finding failures. CIDR mask and DNS are also accepted.
# @param ip IP address to ignore
def addIgnoreIP(self, ip):
logSys.debug("Add " + ip + " to ignore list")
self.__ignoreIpList.append(ip)
def delIgnoreIP(self, ip):
logSys.debug("Remove " + ip + " from ignore list")
self.__ignoreIpList.remove(ip)
def getIgnoreIP(self):
return self.__ignoreIpList
##
# Check if IP address/DNS is in the ignore list.
#
# Check if the given IP address matches an IP address/DNS or a CIDR
# mask in the ignore list.
# @param ip IP address
# @return True if IP address is in ignore list
def inIgnoreIPList(self, ip):
for i in self.__ignoreIpList:
# An empty string is always false
if i == "":
continue
s = i.split('/', 1)
# IP address without CIDR mask
if len(s) == 1:
s.insert(1, '32')
s[1] = long(s[1])
try:
a = DNSUtils.cidr(s[0], s[1])
b = DNSUtils.cidr(ip, s[1])
except Exception:
# Check if IP in DNS
ips = DNSUtils.dnsToIp(i)
if ip in ips:
return True
else:
continue
if a == b:
return True
return False
def processLine(self, line):
try:
# Decode line to UTF-8
l = line.decode('utf-8')
except UnicodeDecodeError:
l = line
timeMatch = self.dateDetector.matchTime(l)
if timeMatch:
# Lets split into time part and log part of the line
timeLine = timeMatch.group()
# Lets leave the beginning in as well, so if there is no
# anchore at the beginning of the time regexp, we don't
# at least allow injection. Should be harmless otherwise
logLine = l[:timeMatch.start()] + l[timeMatch.end():]
else:
timeLine = l
logLine = l
return self.findFailure(timeLine, logLine)
def processLineAndAdd(self, line):
for element in self.processLine(line):
ip = element[0]
unixTime = element[1]
logSys.debug("Processing line with time:%s and ip:%s"
% (unixTime, ip))
if unixTime < MyTime.time() - self.getFindTime():
logSys.debug("Ignore line since time %s < %s - %s"
% (unixTime, MyTime.time(), self.getFindTime()))
break
if self.inIgnoreIPList(ip):
logSys.debug("Ignore %s" % ip)
continue
logSys.debug("Found %s" % ip)
self.failManager.addFailure(FailTicket(ip, unixTime))
##
# Returns true if the line should be ignored.
#
# Uses ignoreregex.
# @param line: the line
# @return: a boolean
def ignoreLine(self, line):
for ignoreRegex in self.__ignoreRegex:
ignoreRegex.search(line)
if ignoreRegex.hasMatched():
return True
return False
##
# Finds the failure in a line given split into time and log parts.
#
# Uses the failregex pattern to find it and timeregex in order
# to find the logging time.
# @return a dict with IP and timestamp.
def findFailure(self, timeLine, logLine):
failList = list()
# Checks if we must ignore this line.
if self.ignoreLine(logLine):
# The ignoreregex matched. Return.
return failList
# Iterates over all the regular expressions.
for failRegex in self.__failRegex:
failRegex.search(logLine)
if failRegex.hasMatched():
# The failregex matched.
date = self.dateDetector.getUnixTime(timeLine)
if date == None:
logSys.debug("Found a match for '" + logLine +"' but no "
+ "valid date/time found for '"
+ timeLine + "'. Please contact the "
+ "author in order to get support for this "
+ "format")
else:
try:
host = failRegex.getHost()
ipMatch = DNSUtils.textToIp(host)
if ipMatch:
for ip in ipMatch:
failList.append([ip, date])
# We matched a regex, it is enough to stop.
break
except RegexException, e:
logSys.error(e)
return failList
##
# Get the status of the filter.
#
# Get some informations about the filter state such as the total
# number of failures.
# @return a list with tuple
def status(self):
ret = [("Currently failed", self.failManager.size()),
("Total failed", self.failManager.getFailTotal())]
return ret
class FileFilter(Filter):
def __init__(self, jail):
Filter.__init__(self, jail)
## The log file path.
self.__logPath = []
##
# Add a log file path
#
# @param path log file path
def addLogPath(self, path, tail = False):
container = FileContainer(path, tail)
self.__logPath.append(container)
##
# Delete a log path
#
# @param path the log file to delete
def delLogPath(self, path):
for log in self.__logPath:
if log.getFileName() == path:
self.__logPath.remove(log)
return
##
# Get the log file path
#
# @return log file path
def getLogPath(self):
return self.__logPath
##
# Check whether path is already monitored.
#
# @param path The path
# @return True if the path is already monitored else False
def containsLogPath(self, path):
for log in self.__logPath:
if log.getFileName() == path:
return True
return False
def getFileContainer(self, path):
for log in self.__logPath:
if log.getFileName() == path:
return log
return None
##
# Gets all the failure in the log file.
#
# Gets all the failure in the log file which are newer than
# MyTime.time()-self.findTime. When a failure is detected, a FailTicket
# is created and is added to the FailManager.
def getFailures(self, filename):
container = self.getFileContainer(filename)
if container == None:
logSys.error("Unable to get failures in " + filename)
return False
# Try to open log file.
try:
container.open()
except Exception, e:
logSys.error("Unable to open %s" % filename)
logSys.exception(e)
return False
line = container.readline()
while not line == "":
if not self._isActive():
# The jail has been stopped
break
self.processLineAndAdd(line)
# Read a new line.
line = container.readline()
container.close()
return True
def status(self):
ret = Filter.status(self)
path = [m.getFileName() for m in self.getLogPath()]
ret.append(("File list", path))
return ret
##
# FileContainer class.
#
# This class manages a file handler and takes care of log rotation detection.
# In order to detect log rotation, the hash (MD5) of the first line of the file
# is computed and compared to the previous hash of this line.
import md5
class FileContainer:
def __init__(self, filename, tail = False):
self.__filename = filename
self.__tail = tail
self.__handler = None
# Try to open the file. Raises an exception if an error occured.
handler = open(filename)
stats = os.fstat(handler.fileno())
self.__ino = stats.st_ino
try:
firstLine = handler.readline()
# Computes the MD5 of the first line.
self.__hash = md5.new(firstLine).digest()
# Start at the beginning of file if tail mode is off.
if tail:
handler.seek(0, 2)
self.__pos = handler.tell()
else:
self.__pos = 0
finally:
handler.close()
def getFileName(self):
return self.__filename
def open(self):
self.__handler = open(self.__filename)
# Set the file descriptor to be FD_CLOEXEC
fd = self.__handler.fileno()
fcntl.fcntl(fd, fcntl.F_SETFD, fd | fcntl.FD_CLOEXEC)
firstLine = self.__handler.readline()
# Computes the MD5 of the first line.
myHash = md5.new(firstLine).digest()
stats = os.fstat(self.__handler.fileno())
# Compare hash and inode
if self.__hash != myHash or self.__ino != stats.st_ino:
logSys.info("Log rotation detected for %s" % self.__filename)
self.__hash = myHash
self.__ino = stats.st_ino
self.__pos = 0
# Sets the file pointer to the last position.
self.__handler.seek(self.__pos)
def readline(self):
if self.__handler == None:
return ""
return self.__handler.readline()
def close(self):
if not self.__handler == None:
# Saves the last position.
self.__pos = self.__handler.tell()
# Closes the file.
self.__handler.close()
self.__handler = None
##
# Utils class for DNS and IP handling.
#
# This class contains only static methods used to handle DNS and IP
# addresses.
import socket, struct
class DNSUtils:
IP_CRE = re.compile("^(?:\d{1,3}\.){3}\d{1,3}$")
#@staticmethod
def dnsToIp(dns):
""" Convert a DNS into an IP address using the Python socket module.
Thanks to Kevin Drapel.
"""
try:
return socket.gethostbyname_ex(dns)[2]
except socket.gaierror:
logSys.warn("Unable to find a corresponding IP address for %s"
% dns)
return list()
dnsToIp = staticmethod(dnsToIp)
#@staticmethod
def searchIP(text):
""" Search if an IP address if directly available and return
it.
"""
match = DNSUtils.IP_CRE.match(text)
if match:
return match
else:
return None
searchIP = staticmethod(searchIP)
#@staticmethod
def isValidIP(string):
""" Return true if str is a valid IP
"""
s = string.split('/', 1)
try:
socket.inet_aton(s[0])
return True
except socket.error:
return False
isValidIP = staticmethod(isValidIP)
#@staticmethod
def textToIp(text):
""" Return the IP of DNS found in a given text.
"""
ipList = list()
# Search for plain IP
plainIP = DNSUtils.searchIP(text)
if not plainIP == None:
plainIPStr = plainIP.group(0)
if DNSUtils.isValidIP(plainIPStr):
ipList.append(plainIPStr)
if not ipList:
# Try to get IP from possible DNS
ip = DNSUtils.dnsToIp(text)
for e in ip:
ipList.append(e)
return ipList
textToIp = staticmethod(textToIp)
#@staticmethod
def cidr(i, n):
""" Convert an IP address string with a CIDR mask into a 32-bit
integer.
"""
# 32-bit IPv4 address mask
MASK = 0xFFFFFFFFL
return ~(MASK >> n) & MASK & DNSUtils.addr2bin(i)
cidr = staticmethod(cidr)
#@staticmethod
def addr2bin(string):
""" Convert a string IPv4 address into an unsigned integer.
"""
return struct.unpack("!L", socket.inet_aton(string))[0]
addr2bin = staticmethod(addr2bin)
#@staticmethod
def bin2addr(addr):
""" Convert a numeric IPv4 address into string n.n.n.n form.
"""
return socket.inet_ntoa(struct.pack("!L", addr))
bin2addr = staticmethod(bin2addr)