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wifite.py
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wifite.py
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#!/usr/bin/python
# -*- coding: utf-8 -*-
"""
wifite
author: derv82 at gmail
author: bwall @botnet_hunter ([email protected])
author: drone @dronesec ([email protected])
Thanks to everyone that contributed to this project.
If you helped in the past and want your name here, shoot me an email
Licensed under the GNU General Public License Version 2 (GNU GPL v2),
available at: http://www.gnu.org/licenses/gpl-2.0.txt
(C) 2011 Derv Merkler
Ballast Security additions
-----------------
- No longer requires to be root to run -cracked
- cracked.txt changed to cracked.csv and stored in csv format(easier to read, no \x00s)
- Backwards compatibility
- Made a run configuration class to handle globals
- Added -recrack (shows already cracked APs in the possible targets, otherwise hides them)
- Changed the updater to grab files from GitHub and not Google Code
- Use argparse to parse command-line arguments
- -wepca flag now properly initialized if passed through CLI
- parse_csv uses python csv library
-----------------
TODO:
Restore same command-line switch names from v1
If device already in monitor mode, check for and, if applicable, use macchanger
WPS
* Mention reaver automatically resumes sessions
* Warning about length of time required for WPS attack (*hours*)
* Show time since last successful attempt
* Percentage of tries/attempts ?
* Update code to work with reaver 1.4 ("x" sec/att)
WEP:
* ability to pause/skip/continue (done, not tested)
* Option to capture only IVS packets (uses --output-format ivs,csv)
- not compatible on older aircrack-ng's.
- Just run "airodump-ng --output-format ivs,csv", "No interface specified" = works
- would cut down on size of saved .caps
reaver:
MONITOR ACTIVITY!
- Enter ESSID when executing (?)
- Ensure WPS key attempts have begun.
- If no attempts can be made, stop attack
- During attack, if no attempts are made within X minutes, stop attack & Print
- Reaver's output when unable to associate:
[!] WARNING: Failed to associate with AA:BB:CC:DD:EE:FF (ESSID: ABCDEF)
- If failed to associate for x minutes, stop attack (same as no attempts?)
MIGHTDO:
* WPA - crack (pyrit/cowpatty) (not really important)
* Test injection at startup? (skippable via command-line switch)
"""
# ############
# LIBRARIES #
#############
import csv # Exporting and importing cracked aps
import os # File management
import time # Measuring attack intervals
import random # Generating a random MAC address.
import errno # Error numbers
from sys import argv # Command-line arguments
from sys import stdout # Flushing
from shutil import copy # Copying .cap files
# Executing, communicating with, killing processes
from subprocess import Popen, call, PIPE
from signal import SIGINT, SIGTERM
import re # RegEx, Converting SSID to filename
import argparse # arg parsing
import urllib # Check for new versions from the repo
import abc # abstract base class libraries for attack templates
################################
# GLOBAL VARIABLES IN ALL CAPS #
################################
# Console colors
W = '\033[0m' # white (normal)
R = '\033[31m' # red
G = '\033[32m' # green
O = '\033[33m' # orange
B = '\033[34m' # blue
P = '\033[35m' # purple
C = '\033[36m' # cyan
GR = '\033[37m' # gray
# /dev/null, send output from programs so they don't print to screen.
DN = open(os.devnull, 'w')
ERRLOG = open(os.devnull, 'w')
OUTLOG = open(os.devnull, 'w')
###################
# DATA STRUCTURES #
###################
class CapFile:
"""
Holds data about an access point's .cap file, including AP's ESSID & BSSID.
"""
def __init__(self, filename, ssid, bssid):
self.filename = filename
self.ssid = ssid
self.bssid = bssid
class Target:
"""
Holds data for a Target (aka Access Point aka Router)
"""
def __init__(self, bssid, power, data, channel, encryption, ssid):
self.bssid = bssid
self.power = power
self.data = data
self.channel = channel
self.encryption = encryption
self.ssid = ssid
self.wps = False # Default to non-WPS-enabled router.
self.key = ''
class Client:
"""
Holds data for a Client (device connected to Access Point/Router)
"""
def __init__(self, bssid, station, power):
self.bssid = bssid
self.station = station
self.power = power
class RunConfiguration:
"""
Configuration for this rounds of attacks
"""
def __init__(self):
self.REVISION = 89;
self.PRINTED_SCANNING = False
self.TX_POWER = 0 # Transmit power for wireless interface, 0 uses default power
# WPA variables
self.WPA_DISABLE = False # Flag to skip WPA handshake capture
self.WPA_STRIP_HANDSHAKE = True # Use pyrit or tshark (if applicable) to strip handshake
self.WPA_DEAUTH_COUNT = 1 # Count to send deauthentication packets
self.WPA_DEAUTH_TIMEOUT = 10 # Time to wait between deauthentication bursts (in seconds)
self.WPA_ATTACK_TIMEOUT = 500 # Total time to allow for a handshake attack (in seconds)
self.WPA_HANDSHAKE_DIR = 'hs' # Directory in which handshakes .cap files are stored
# Strip file path separator if needed
if self.WPA_HANDSHAKE_DIR != '' and self.WPA_HANDSHAKE_DIR[-1] == os.sep:
self.WPA_HANDSHAKE_DIR = self.WPA_HANDSHAKE_DIR[:-1]
self.WPA_FINDINGS = [] # List of strings containing info on successful WPA attacks
self.WPA_DONT_CRACK = False # Flag to skip cracking of handshakes
if os.path.exists('/usr/share/wfuzz/wordlist/fuzzdb/wordlists-user-passwd/passwds/phpbb.txt'):
self.WPA_DICTIONARY = '/usr/share/wfuzz/wordlist/fuzzdb/wordlists-user-passwd/passwds/phpbb.txt'
elif os.path.exists('/usr/share/fuzzdb/wordlists-user-passwd/passwds/phpbb.txt'):
self.WPA_DICTIONARY = '/usr/share/fuzzdb/wordlists-user-passwd/passwds/phpbb.txt'
elif os.path.exists('/usr/share/wordlists/fern-wifi/common.txt'):
self.WPA_DICTIONARY = '/usr/share/wordlists/fern-wifi/common.txt'
else:
self.WPA_DICTIONARY = ''
# Various programs to use when checking for a four-way handshake.
# True means the program must find a valid handshake in order for wifite to recognize a handshake.
# Not finding handshake short circuits result (ALL 'True' programs must find handshake)
self.WPA_HANDSHAKE_TSHARK = True # Checks for sequential 1,2,3 EAPOL msg packets (ignores 4th)
self.WPA_HANDSHAKE_PYRIT = False # Sometimes crashes on incomplete dumps, but accurate.
self.WPA_HANDSHAKE_AIRCRACK = True # Not 100% accurate, but fast.
self.WPA_HANDSHAKE_COWPATTY = False # Uses more lenient "nonstrict mode" (-2)
# WEP variables
self.WEP_DISABLE = False # Flag for ignoring WEP networks
self.WEP_PPS = 600 # packets per second (Tx rate)
self.WEP_TIMEOUT = 600 # Amount of time to give each attack
self.WEP_ARP_REPLAY = True # Various WEP-based attacks via aireplay-ng
self.WEP_CHOPCHOP = True #
self.WEP_FRAGMENT = True #
self.WEP_CAFFELATTE = True #
self.WEP_P0841 = True
self.WEP_HIRTE = True
self.WEP_CRACK_AT_IVS = 10000 # Number of IVS at which we start cracking
self.WEP_IGNORE_FAKEAUTH = True # When True, continues attack despite fake authentication failure
self.WEP_FINDINGS = [] # List of strings containing info on successful WEP attacks.
self.WEP_SAVE = False # Save packets.
# WPS variables
self.WPS_DISABLE = False # Flag to skip WPS scan and attacks
self.PIXIE = False
self.WPS_FINDINGS = [] # List of (successful) results of WPS attacks
self.WPS_TIMEOUT = 660 # Time to wait (in seconds) for successful PIN attempt
self.WPS_RATIO_THRESHOLD = 0.01 # Lowest percentage of tries/attempts allowed (where tries > 0)
self.WPS_MAX_RETRIES = 0 # Number of times to re-try the same pin before giving up completely.
# Program variables
self.SHOW_ALREADY_CRACKED = False # Says whether to show already cracked APs as options to crack
self.WIRELESS_IFACE = '' # User-defined interface
self.MONITOR_IFACE = '' # User-defined interface already in monitor mode
self.TARGET_CHANNEL = 0 # User-defined channel to scan on
self.TARGET_ESSID = '' # User-defined ESSID of specific target to attack
self.TARGET_BSSID = '' # User-defined BSSID of specific target to attack
self.IFACE_TO_TAKE_DOWN = '' # Interface that wifite puts into monitor mode
# It's our job to put it out of monitor mode after the attacks
self.ORIGINAL_IFACE_MAC = ('', '') # Original interface name[0] and MAC address[1] (before spoofing)
self.DO_NOT_CHANGE_MAC = True # Flag for disabling MAC anonymizer
self.SEND_DEAUTHS = True # Flag for deauthing clients while scanning for acces points
self.TARGETS_REMAINING = 0 # Number of access points remaining to attack
self.WPA_CAPS_TO_CRACK = [] # list of .cap files to crack (full of CapFile objects)
self.THIS_MAC = '' # The interfaces current MAC address.
self.SHOW_MAC_IN_SCAN = False # Display MACs of the SSIDs in the list of targets
self.CRACKED_TARGETS = [] # List of targets we have already cracked
self.ATTACK_ALL_TARGETS = False # Flag for when we want to attack *everyone*
self.ATTACK_MIN_POWER = 0 # Minimum power (dB) for access point to be considered a target
self.VERBOSE_APS = True # Print access points as they appear
self.CRACKED_TARGETS = self.load_cracked()
old_cracked = self.load_old_cracked()
if len(old_cracked) > 0:
# Merge the results
for OC in old_cracked:
new = True
for NC in self.CRACKED_TARGETS:
if OC.bssid == NC.bssid:
new = False
break
# If Target isn't in the other list
# Add and save to disk
if new:
self.save_cracked(OC)
def ConfirmRunningAsRoot(self):
if os.getuid() != 0:
print R + ' [!]' + O + ' ERROR:' + G + ' wifite' + O + ' must be run as ' + R + 'root' + W
print R + ' [!]' + O + ' login as root (' + W + 'su root' + O + ') or try ' + W + 'sudo ./wifite.py' + W
exit(1)
def ConfirmCorrectPlatform(self):
if not os.uname()[0].startswith("Linux") and not 'Darwin' in os.uname()[0]: # OSX support, 'cause why not?
print O + ' [!]' + R + ' WARNING:' + G + ' wifite' + W + ' must be run on ' + O + 'linux' + W
exit(1)
def CreateTempFolder(self):
from tempfile import mkdtemp
self.temp = mkdtemp(prefix='wifite')
if not self.temp.endswith(os.sep):
self.temp += os.sep
def save_cracked(self, target):
"""
Saves cracked access point key and info to a file.
"""
self.CRACKED_TARGETS.append(target)
with open('cracked.csv', 'wb') as csvfile:
targetwriter = csv.writer(csvfile, delimiter=',', quotechar='"', quoting=csv.QUOTE_MINIMAL)
for target in self.CRACKED_TARGETS:
targetwriter.writerow([target.bssid, target.encryption, target.ssid, target.key, target.wps])
def load_cracked(self):
"""
Loads info about cracked access points into list, returns list.
"""
result = []
if not os.path.exists('cracked.csv'): return result
with open('cracked.csv', 'rb') as csvfile:
targetreader = csv.reader(csvfile, delimiter=',', quotechar='"')
for row in targetreader:
t = Target(row[0], 0, 0, 0, row[1], row[2])
t.key = row[3]
t.wps = row[4]
result.append(t)
return result
def load_old_cracked(self):
"""
Loads info about cracked access points into list, returns list.
"""
result = []
if not os.path.exists('cracked.txt'):
return result
fin = open('cracked.txt', 'r')
lines = fin.read().split('\n')
fin.close()
for line in lines:
fields = line.split(chr(0))
if len(fields) <= 3:
continue
tar = Target(fields[0], '', '', '', fields[3], fields[1])
tar.key = fields[2]
result.append(tar)
return result
def exit_gracefully(self, code=0):
"""
We may exit the program at any time.
We want to remove the temp folder and any files contained within it.
Removes the temp files/folder and exists with error code "code".
"""
# Remove temp files and folder
if os.path.exists(self.temp):
for f in os.listdir(self.temp):
os.remove(os.path.join(self.temp, f))
os.rmdir(self.temp)
# Disable monitor mode if enabled by us
self.RUN_ENGINE.disable_monitor_mode()
# Change MAC address back if spoofed
mac_change_back()
print GR + " [+]" + W + " quitting" # wifite will now exit"
print ''
# GTFO
exit(code)
def handle_args(self):
"""
Handles command-line arguments, sets global variables.
"""
set_encrypt = False
set_hscheck = False
set_wep = False
capfile = '' # Filename of .cap file to analyze for handshakes
opt_parser = self.build_opt_parser()
options = opt_parser.parse_args()
try:
if not set_encrypt and (options.wpa or options.wep or options.wps):
self.WPS_DISABLE = True
self.WPA_DISABLE = True
self.WEP_DISABLE = True
set_encrypt = True
if options.recrack:
self.SHOW_ALREADY_CRACKED = True
print GR + ' [+]' + W + ' including already cracked networks in targets.'
if options.wpa:
if options.wps:
print GR + ' [+]' + W + ' targeting ' + G + 'WPA' + W + ' encrypted networks.'
else:
print GR + ' [+]' + W + ' targeting ' + G + 'WPA' + W + ' encrypted networks (use ' + G + '-wps' + W + ' for WPS scan)'
self.WPA_DISABLE = False
if options.wep:
print GR + ' [+]' + W + ' targeting ' + G + 'WEP' + W + ' encrypted networks'
self.WEP_DISABLE = False
if options.wps:
print GR + ' [+]' + W + ' targeting ' + G + 'WPS-enabled' + W + ' networks.'
self.WPS_DISABLE = False
if options.pixie:
print GR + ' [+]' + W + ' targeting ' + G + 'WPS-enabled' + W + ' networks.'
print GR + ' [+]' + W + ' using only ' + G + 'WPS Pixie-Dust' + W + ' attack.'
self.WPS_DISABLE = False
self.WEP_DISABLE = True
self.PIXIE = True
if options.channel:
try:
self.TARGET_CHANNEL = int(options.channel)
except ValueError:
print O + ' [!]' + R + ' invalid channel: ' + O + options.channel + W
except IndexError:
print O + ' [!]' + R + ' no channel given!' + W
else:
print GR + ' [+]' + W + ' channel set to %s' % (G + str(self.TARGET_CHANNEL) + W)
if options.mac_anon:
print GR + ' [+]' + W + ' mac address anonymizing ' + G + 'enabled' + W
print O + ' not: only works if device is not already in monitor mode!' + W
self.DO_NOT_CHANGE_MAC = False
if options.interface:
self.WIRELESS_IFACE = options.interface
print GR + ' [+]' + W + ' set interface :%s' % (G + self.WIRELESS_IFACE + W)
if options.monitor_interface:
self.MONITOR_IFACE = options.monitor_interface
print GR + ' [+]' + W + ' set interface already in monitor mode :%s' % (G + self.MONITOR_IFACE + W)
if options.nodeauth:
self.SEND_DEAUTHS = False
print GR + ' [+]' + W + ' will not deauthenticate clients while scanning%s' % W
if options.essid:
try:
self.TARGET_ESSID = options.essid
except ValueError:
print R + ' [!]' + O + ' no ESSID given!' + W
else:
print GR + ' [+]' + W + ' targeting ESSID "%s"' % (G + self.TARGET_ESSID + W)
if options.bssid:
try:
self.TARGET_BSSID = options.bssid
except ValueError:
print R + ' [!]' + O + ' no BSSID given!' + W
else:
print GR + ' [+]' + W + ' targeting BSSID "%s"' % (G + self.TARGET_BSSID + W)
if options.showb:
self.SHOW_MAC_IN_SCAN = True
print GR + ' [+]' + W + ' target MAC address viewing ' + G + 'enabled' + W
if options.all:
self.ATTACK_ALL_TARGETS = True
print GR + ' [+]' + W + ' targeting ' + G + 'all access points' + W
if options.power:
try:
self.ATTACK_MIN_POWER = int(options.power)
except ValueError:
print R + ' [!]' + O + ' invalid power level: %s' % (R + options.power + W)
except IndexError:
print R + ' [!]' + O + ' no power level given!' + W
else:
print GR + ' [+]' + W + ' minimum target power set to %s' % (G + str(self.ATTACK_MIN_POWER) + W)
if options.tx:
try:
self.TX_POWER = int(options.tx)
except ValueError:
print R + ' [!]' + O + ' invalid TX power leve: %s' % ( R + options.tx + W)
except IndexError:
print R + ' [!]' + O + ' no TX power level given!' + W
else:
print GR + ' [+]' + W + ' TX power level set to %s' % (G + str(self.TX_POWER) + W)
if options.quiet:
self.VERBOSE_APS = False
print GR + ' [+]' + W + ' list of APs during scan ' + O + 'disabled' + W
if options.check:
try:
capfile = options.check
except IndexError:
print R + ' [!]' + O + ' unable to analyze capture file' + W
print R + ' [!]' + O + ' no cap file given!\n' + W
self.exit_gracefully(1)
else:
if not os.path.exists(capfile):
print R + ' [!]' + O + ' unable to analyze capture file!' + W
print R + ' [!]' + O + ' file not found: ' + R + capfile + '\n' + W
self.exit_gracefully(1)
if options.cracked:
if len(self.CRACKED_TARGETS) == 0:
print R + ' [!]' + O + ' There are no cracked access points saved to ' + R + 'cracked.db\n' + W
self.exit_gracefully(1)
print GR + ' [+]' + W + ' ' + W + 'previously cracked access points' + W + ':'
for victim in self.CRACKED_TARGETS:
if victim.wps != False:
print ' %s (%s) : "%s" - Pin: %s' % (
C + victim.ssid + W, C + victim.bssid + W, G + victim.key + W, G + victim.wps + W)
else:
print ' %s (%s) : "%s"' % (C + victim.ssid + W, C + victim.bssid + W, G + victim.key + W)
print ''
self.exit_gracefully(0)
# WPA
if not set_hscheck and (options.tshark or options.cowpatty or options.aircrack or options.pyrit):
self.WPA_HANDSHAKE_TSHARK = False
self.WPA_HANDSHAKE_PYRIT = False
self.WPA_HANDSHAKE_COWPATTY = False
self.WPA_HANDSHAKE_AIRCRACK = False
set_hscheck = True
if options.strip:
self.WPA_STRIP_HANDSHAKE = True
print GR + ' [+]' + W + ' handshake stripping ' + G + 'enabled' + W
if options.wpadt:
try:
self.WPA_DEAUTH_TIMEOUT = int(options.wpadt)
except ValueError:
print R + ' [!]' + O + ' invalid deauth timeout: %s' % (R + options.wpadt + W)
except IndexError:
print R + ' [!]' + O + ' no deauth timeout given!' + W
else:
print GR + ' [+]' + W + ' WPA deauth timeout set to %s' % (G + str(self.WPA_DEAUTH_TIMEOUT) + W)
if options.wpat:
try:
self.WPA_ATTACK_TIMEOUT = int(options.wpat)
except ValueError:
print R + ' [!]' + O + ' invalid attack timeout: %s' % (R + options.wpat + W)
except IndexError:
print R + ' [!]' + O + ' no attack timeout given!' + W
else:
print GR + ' [+]' + W + ' WPA attack timeout set to %s' % (G + str(self.WPA_ATTACK_TIMEOUT) + W)
if options.crack:
self.WPA_DONT_CRACK = False
print GR + ' [+]' + W + ' WPA cracking ' + G + 'enabled' + W
if options.dic:
try:
self.WPA_DICTIONARY = options.dic
except IndexError:
print R + ' [!]' + O + ' no WPA dictionary given!'
else:
if os.path.exists(options.dic):
print GR + ' [+]' + W + ' WPA dictionary set to %s' % (G + self.WPA_DICTIONARY + W)
else:
print R + ' [!]' + O + ' WPA dictionary file not found: %s' % (options.dic)
else:
print R + ' [!]' + O + ' WPA dictionary file not given!'
self.exit_gracefully(1)
if options.tshark:
self.WPA_HANDSHAKE_TSHARK = True
print GR + ' [+]' + W + ' tshark handshake verification ' + G + 'enabled' + W
if options.pyrit:
self.WPA_HANDSHAKE_PYRIT = True
print GR + ' [+]' + W + ' pyrit handshake verification ' + G + 'enabled' + W
if options.aircrack:
self.WPA_HANDSHAKE_AIRCRACK = True
print GR + ' [+]' + W + ' aircrack handshake verification ' + G + 'enabled' + W
if options.cowpatty:
self.WPA_HANDSHAKE_COWPATTY = True
print GR + ' [+]' + W + ' cowpatty handshake verification ' + G + 'enabled' + W
# WEP
if not set_wep and options.chopchop or options.fragment or options.caffeelatte or options.arpreplay \
or options.p0841 or options.hirte:
self.WEP_CHOPCHOP = False
self.WEP_ARPREPLAY = False
self.WEP_CAFFELATTE = False
self.WEP_FRAGMENT = False
self.WEP_P0841 = False
self.WEP_HIRTE = False
if options.chopchop:
print GR + ' [+]' + W + ' WEP chop-chop attack ' + G + 'enabled' + W
self.WEP_CHOPCHOP = True
if options.fragment:
print GR + ' [+]' + W + ' WEP fragmentation attack ' + G + 'enabled' + W
self.WEP_FRAGMENT = True
if options.caffeelatte:
print GR + ' [+]' + W + ' WEP caffe-latte attack ' + G + 'enabled' + W
self.WEP_CAFFELATTE = True
if options.arpreplay:
print GR + ' [+]' + W + ' WEP arp-replay attack ' + G + 'enabled' + W
self.WEP_ARPREPLAY = True
if options.p0841:
print GR + ' [+]' + W + ' WEP p0841 attack ' + G + 'enabled' + W
self.WEP_P0841 = True
if options.hirte:
print GR + ' [+]' + W + ' WEP hirte attack ' + G + 'enabled' + W
self.WEP_HIRTE = True
if options.fakeauth:
print GR + ' [+]' + W + ' ignoring failed fake-authentication ' + R + 'disabled' + W
self.WEP_IGNORE_FAKEAUTH = False
if options.wepca:
try:
self.WEP_CRACK_AT_IVS = int(options.wepca)
except ValueError:
print R + ' [!]' + O + ' invalid number: %s' % ( R + options.wepca + W )
except IndexError:
print R + ' [!]' + O + ' no IV number specified!' + W
else:
print GR + ' [+]' + W + ' Starting WEP cracking when IV\'s surpass %s' % (
G + str(self.WEP_CRACK_AT_IVS) + W)
if options.wept:
try:
self.WEP_TIMEOUT = int(options.wept)
except ValueError:
print R + ' [!]' + O + ' invalid timeout: %s' % (R + options.wept + W)
except IndexError:
print R + ' [!]' + O + ' no timeout given!' + W
else:
print GR + ' [+]' + W + ' WEP attack timeout set to %s' % (
G + str(self.WEP_TIMEOUT) + " seconds" + W)
if options.pps:
try:
self.WEP_PPS = int(options.pps)
except ValueError:
print R + ' [!]' + O + ' invalid value: %s' % (R + options.pps + W)
except IndexError:
print R + ' [!]' + O + ' no value given!' + W
else:
print GR + ' [+]' + W + ' packets-per-second rate set to %s' % (
G + str(options.pps) + " packets/sec" + W)
if options.wepsave:
self.WEP_SAVE = True
print GR + ' [+]' + W + ' WEP .cap file saving ' + G + 'enabled' + W
# WPS
if options.wpst:
try:
self.WPS_TIMEOUT = int(options.wpst)
except ValueError:
print R + ' [!]' + O + ' invalid timeout: %s' % (R + options.wpst + W)
except IndexError:
print R + ' [!]' + O + ' no timeout given!' + W
else:
print GR + ' [+]' + W + ' WPS attack timeout set to %s' % (
G + str(self.WPS_TIMEOUT) + " seconds" + W)
if options.wpsratio:
try:
self.WPS_RATIO_THRESHOLD = float(options.wpsratio)
except ValueError:
print R + ' [!]' + O + ' invalid percentage: %s' % (R + options.wpsratio + W)
except IndexError:
print R + ' [!]' + O + ' no ratio given!' + W
else:
print GR + ' [+]' + W + ' minimum WPS tries/attempts threshold set to %s' % (
G + str(self.WPS_RATIO_THRESHOLD) + "" + W)
if options.wpsretry:
try:
self.WPS_MAX_RETRIES = int(options.wpsretry)
except ValueError:
print R + ' [!]' + O + ' invalid number: %s' % (R + options.wpsretry + W)
except IndexError:
print R + ' [!]' + O + ' no number given!' + W
else:
print GR + ' [+]' + W + ' WPS maximum retries set to %s' % (
G + str(self.WPS_MAX_RETRIES) + " retries" + W)
except IndexError:
print '\nindexerror\n\n'
if capfile != '':
self.RUN_ENGINE.analyze_capfile(capfile)
print ''
def build_opt_parser(self):
""" Options are doubled for backwards compatability; will be removed soon and
fully moved to GNU-style
"""
option_parser = argparse.ArgumentParser()
# set commands
command_group = option_parser.add_argument_group('COMMAND')
command_group.add_argument('--check', help='Check capfile [file] for handshakes.', action='store', dest='check')
command_group.add_argument('-check', action='store', dest='check', help=argparse.SUPPRESS)
command_group.add_argument('--cracked', help='Display previously cracked access points.', action='store_true',
dest='cracked')
command_group.add_argument('-cracked', help=argparse.SUPPRESS, action='store_true', dest='cracked')
command_group.add_argument('--recrack', help='Include already cracked networks in targets.',
action='store_true', dest='recrack')
command_group.add_argument('-recrack', help=argparse.SUPPRESS, action='store_true', dest='recrack')
# set global
global_group = option_parser.add_argument_group('GLOBAL')
global_group.add_argument('--all', help='Attack all targets.', default=False, action='store_true', dest='all')
global_group.add_argument('-all', help=argparse.SUPPRESS, default=False, action='store_true', dest='all')
global_group.add_argument('-i', help='Wireless interface for capturing.', action='store', dest='interface')
global_group.add_argument('--mac', help='Anonymize MAC address.', action='store_true', default=False,
dest='mac_anon')
global_group.add_argument('-mac', help=argparse.SUPPRESS, action='store_true', default=False, dest='mac_anon')
global_group.add_argument('--mon-iface', help='Interface already in monitor mode.', action='store',
dest='monitor_interface')
global_group.add_argument('-c', help='Channel to scan for targets.', action='store', dest='channel')
global_group.add_argument('-e', help='Target a specific access point by ssid (name).', action='store',
dest='essid')
global_group.add_argument('-b', help='Target a specific access point by bssid (mac).', action='store',
dest='bssid')
global_group.add_argument('--showb', help='Display target BSSIDs after scan.', action='store_true',
dest='showb')
global_group.add_argument('-showb', help=argparse.SUPPRESS, action='store_true', dest='showb')
global_group.add_argument('--nodeauth', help='Do not deauthenticate clients while scanning', action='store_true', dest='nodeauth')
global_group.add_argument('--power', help='Attacks any targets with signal strength > [pow].', action='store',
dest='power')
global_group.add_argument('-power', help=argparse.SUPPRESS, action='store', dest='power')
global_group.add_argument('--tx', help='Set adapter TX power level.', action='store', dest='tx')
global_group.add_argument('-tx', help=argparse.SUPPRESS, action='store', dest='tx')
global_group.add_argument('--quiet', help='Do not print list of APs during scan.', action='store_true',
dest='quiet')
global_group.add_argument('-quiet', help=argparse.SUPPRESS, action='store_true', dest='quiet')
# set wpa commands
wpa_group = option_parser.add_argument_group('WPA')
wpa_group.add_argument('--wpa', help='Only target WPA networks (works with --wps --wep).', default=False,
action='store_true', dest='wpa')
wpa_group.add_argument('-wpa', help=argparse.SUPPRESS, default=False, action='store_true', dest='wpa')
wpa_group.add_argument('--wpat', help='Time to wait for WPA attack to complete (seconds).', action='store',
dest='wpat')
wpa_group.add_argument('-wpat', help=argparse.SUPPRESS, action='store', dest='wpat')
wpa_group.add_argument('--wpadt', help='Time to wait between sending deauth packets (seconds).', action='store',
dest='wpadt')
wpa_group.add_argument('-wpadt', help=argparse.SUPPRESS, action='store', dest='wpadt')
wpa_group.add_argument('--strip', help='Strip handshake using tshark or pyrit.', default=False,
action='store_true', dest='strip')
wpa_group.add_argument('-strip', help=argparse.SUPPRESS, default=False, action='store_true', dest='strip')
wpa_group.add_argument('--crack', help='Crack WPA handshakes using [dic] wordlist file.', action='store_true',
dest='crack')
wpa_group.add_argument('-crack', help=argparse.SUPPRESS, action='store_true', dest='crack')
wpa_group.add_argument('--dict', help='Specificy dictionary to use when cracking WPA.', action='store',
dest='dic')
wpa_group.add_argument('-dict', help=argparse.SUPPRESS, action='store', dest='dic')
wpa_group.add_argument('--aircrack', help='Verify handshake using aircrack.', default=False,
action='store_true', dest='aircrack')
wpa_group.add_argument('-aircrack', help=argparse.SUPPRESS, default=False, action='store_true', dest='aircrack')
wpa_group.add_argument('--pyrit', help='Verify handshake using pyrit.', default=False, action='store_true',
dest='pyrit')
wpa_group.add_argument('-pyrit', help=argparse.SUPPRESS, default=False, action='store_true', dest='pyrit')
wpa_group.add_argument('--tshark', help='Verify handshake using tshark.', default=False, action='store_true',
dest='tshark')
wpa_group.add_argument('-tshark', help=argparse.SUPPRESS, default=False, action='store_true', dest='tshark')
wpa_group.add_argument('--cowpatty', help='Verify handshake using cowpatty.', default=False,
action='store_true', dest='cowpatty')
wpa_group.add_argument('-cowpatty', help=argparse.SUPPRESS, default=False, action='store_true', dest='cowpatty')
# set WEP commands
wep_group = option_parser.add_argument_group('WEP')
wep_group.add_argument('--wep', help='Only target WEP networks.', default=False, action='store_true',
dest='wep')
wep_group.add_argument('-wep', help=argparse.SUPPRESS, default=False, action='store_true', dest='wep')
wep_group.add_argument('--pps', help='Set the number of packets per second to inject.', action='store',
dest='pps')
wep_group.add_argument('-pps', help=argparse.SUPPRESS, action='store', dest='pps')
wep_group.add_argument('--wept', help='Sec to wait for each attack, 0 implies endless.', action='store',
dest='wept')
wep_group.add_argument('-wept', help=argparse.SUPPRESS, action='store', dest='wept')
wep_group.add_argument('--chopchop', help='Use chopchop attack.', default=False, action='store_true',
dest='chopchop')
wep_group.add_argument('-chopchop', help=argparse.SUPPRESS, default=False, action='store_true', dest='chopchop')
wep_group.add_argument('--arpreplay', help='Use arpreplay attack.', default=False, action='store_true',
dest='arpreplay')
wep_group.add_argument('-arpreplay', help=argparse.SUPPRESS, default=False, action='store_true',
dest='arpreplay')
wep_group.add_argument('--fragment', help='Use fragmentation attack.', default=False, action='store_true',
dest='fragment')
wep_group.add_argument('-fragment', help=argparse.SUPPRESS, default=False, action='store_true', dest='fragment')
wep_group.add_argument('--caffelatte', help='Use caffe-latte attack.', default=False, action='store_true',
dest='caffeelatte')
wep_group.add_argument('-caffelatte', help=argparse.SUPPRESS, default=False, action='store_true',
dest='caffeelatte')
wep_group.add_argument('--p0841', help='Use P0842 attack.', default=False, action='store_true', dest='p0841')
wep_group.add_argument('-p0841', help=argparse.SUPPRESS, default=False, action='store_true', dest='p0841')
wep_group.add_argument('--hirte', help='Use hirte attack.', default=False, action='store_true', dest='hirte')
wep_group.add_argument('-hirte', help=argparse.SUPPRESS, default=False, action='store_true', dest='hirte')
wep_group.add_argument('--nofakeauth', help='Stop attack if fake authentication fails.', default=False,
action='store_true', dest='fakeauth')
wep_group.add_argument('-nofakeauth', help=argparse.SUPPRESS, default=False, action='store_true',
dest='fakeauth')
wep_group.add_argument('--wepca', help='Start cracking when number of IVs surpass [n].', action='store',
dest='wepca')
wep_group.add_argument('-wepca', help=argparse.SUPPRESS, action='store', dest='wepca')
wep_group.add_argument('--wepsave', help='Save a copy of .cap files to this directory.', default=None,
action='store', dest='wepsave')
wep_group.add_argument('-wepsave', help=argparse.SUPPRESS, default=None, action='store', dest='wepsave')
# set WPS commands
wps_group = option_parser.add_argument_group('WPS')
wps_group.add_argument('--wps', help='Only target WPS networks.', default=False, action='store_true',
dest='wps')
wps_group.add_argument('-wps', help=argparse.SUPPRESS, default=False, action='store_true', dest='wps')
wps_group.add_argument('--pixie', help='Only use the WPS PixieDust attack', default=False, action='store_true', dest='pixie')
wps_group.add_argument('--wpst', help='Max wait for new retry before giving up (0: never).', action='store',
dest='wpst')
wps_group.add_argument('-wpst', help=argparse.SUPPRESS, action='store', dest='wpst')
wps_group.add_argument('--wpsratio', help='Min ratio of successful PIN attempts/total retries.', action='store',
dest='wpsratio')
wps_group.add_argument('-wpsratio', help=argparse.SUPPRESS, action='store', dest='wpsratio')
wps_group.add_argument('--wpsretry', help='Max number of retries for same PIN before giving up.',
action='store', dest='wpsretry')
wps_group.add_argument('-wpsretry', help=argparse.SUPPRESS, action='store', dest='wpsretry')
return option_parser
class RunEngine:
def __init__(self, run_config):
self.RUN_CONFIG = run_config
self.RUN_CONFIG.RUN_ENGINE = self
def initial_check(self):
"""
Ensures required programs are installed.
"""
airs = ['aircrack-ng', 'airodump-ng', 'aireplay-ng', 'airmon-ng', 'packetforge-ng']
for air in airs:
if program_exists(air): continue
print R + ' [!]' + O + ' required program not found: %s' % (R + air + W)
print R + ' [!]' + O + ' this program is bundled with the aircrack-ng suite:' + W
print R + ' [!]' + O + ' ' + C + 'http://www.aircrack-ng.org/' + W
print R + ' [!]' + O + ' or: ' + W + 'sudo apt-get install aircrack-ng\n' + W
self.RUN_CONFIG.exit_gracefully(1)
if not program_exists('iw'):
print R + ' [!]' + O + ' airmon-ng requires the program %s\n' % (R + 'iw' + W)
self.RUN_CONFIG.exit_gracefully(1)
if not program_exists('iwconfig'):
print R + ' [!]' + O + ' wifite requires the program %s\n' % (R + 'iwconfig' + W)
self.RUN_CONFIG.exit_gracefully(1)
if not program_exists('ifconfig'):
print R + ' [!]' + O + ' wifite requires the program %s\n' % (R + 'ifconfig' + W)
self.RUN_CONFIG.exit_gracefully(1)
printed = False
# Check reaver
if not program_exists('reaver'):
printed = True
print R + ' [!]' + O + ' the program ' + R + 'reaver' + O + ' is required for WPS attacks' + W
print R + ' ' + O + ' available at ' + C + 'http://code.google.com/p/reaver-wps' + W
self.RUN_CONFIG.WPS_DISABLE = True
if not program_exists('tshark'):
printed = True
print R + ' [!]' + O + ' the program ' + R + 'tshark' + O + ' was not found' + W
print R + ' [!]' + O + ' please install tshark: https://www.wireshark.org/#download' + W
self.RUN_CONFIG.WPS_DISABLE = True
# Check handshake-checking apps
recs = ['pyrit', 'cowpatty']
for rec in recs:
if program_exists(rec): continue
printed = True
print R + ' [!]' + O + ' the program %s is not required, but is recommended%s' % (R + rec + O, W)
if printed: print ''
def enable_monitor_mode(self, iface):
"""
First attempts to anonymize the MAC if requested; MACs cannot
be anonymized if they're already in monitor mode.
Uses airmon-ng to put a device into Monitor Mode.
Then uses the get_iface() method to retrieve the new interface's name.
Sets global variable IFACE_TO_TAKE_DOWN as well.
Returns the name of the interface in monitor mode.
"""
mac_anonymize(iface)
print GR + ' [+]' + W + ' enabling monitor mode on %s...' % (G + iface + W),
stdout.flush()
call(['airmon-ng', 'start', iface], stdout=DN, stderr=DN)
print 'done'
self.RUN_CONFIG.WIRELESS_IFACE = '' # remove this reference as we've started its monitoring counterpart
self.RUN_CONFIG.IFACE_TO_TAKE_DOWN = self.get_iface()
if self.RUN_CONFIG.TX_POWER > 0:
print GR + ' [+]' + W + ' setting Tx power to %s%s%s...' % (G, self.RUN_CONFIG.TX_POWER, W),
call(['iw', 'reg', 'set', 'BO'], stdout=OUTLOG, stderr=ERRLOG)
call(['iwconfig', iface, 'txpower', self.RUN_CONFIG.TX_POWER], stdout=OUTLOG, stderr=ERRLOG)
print 'done'
return self.RUN_CONFIG.IFACE_TO_TAKE_DOWN
def disable_monitor_mode(self):
"""
The program may have enabled monitor mode on a wireless interface.
We want to disable this before we exit, so we will do that.
"""
if self.RUN_CONFIG.IFACE_TO_TAKE_DOWN == '': return
print GR + ' [+]' + W + ' disabling monitor mode on %s...' % (G + self.RUN_CONFIG.IFACE_TO_TAKE_DOWN + W),
stdout.flush()
call(['airmon-ng', 'stop', self.RUN_CONFIG.IFACE_TO_TAKE_DOWN], stdout=DN, stderr=DN)
print 'done'
def rtl8187_fix(self, iface):
"""
Attempts to solve "Unknown error 132" common with RTL8187 devices.
Puts down interface, unloads/reloads driver module, then puts iface back up.
Returns True if fix was attempted, False otherwise.
"""
# Check if current interface is using the RTL8187 chipset
proc_airmon = Popen(['airmon-ng'], stdout=PIPE, stderr=DN)
proc_airmon.wait()
using_rtl8187 = False
for line in proc_airmon.communicate()[0].split():
line = line.upper()
if line.strip() == '' or line.startswith('INTERFACE'): continue
if line.find(iface.upper()) and line.find('RTL8187') != -1: using_rtl8187 = True
if not using_rtl8187:
# Display error message and exit
print R + ' [!]' + O + ' unable to generate airodump-ng CSV file' + W
print R + ' [!]' + O + ' you may want to disconnect/reconnect your wifi device' + W
self.RUN_CONFIG.exit_gracefully(1)
print O + " [!]" + W + " attempting " + O + "RTL8187 'Unknown Error 132'" + W + " fix..."
original_iface = iface
# Take device out of monitor mode
airmon = Popen(['airmon-ng', 'stop', iface], stdout=PIPE, stderr=DN)
airmon.wait()
for line in airmon.communicate()[0].split('\n'):
if line.strip() == '' or \
line.startswith("Interface") or \
line.find('(removed)') != -1:
continue
original_iface = line.split()[0] # line[:line.find('\t')]
# Remove drive modules, block/unblock ifaces, probe new modules.
print_and_exec(['ifconfig', original_iface, 'down'])
print_and_exec(['rmmod', 'rtl8187'])
print_and_exec(['rfkill', 'block', 'all'])
print_and_exec(['rfkill', 'unblock', 'all'])
print_and_exec(['modprobe', 'rtl8187'])
print_and_exec(['ifconfig', original_iface, 'up'])
print_and_exec(['airmon-ng', 'start', original_iface])
print '\r \r',
print O + ' [!] ' + W + 'restarting scan...\n'
return True
def get_iface(self):
"""
Get the wireless interface in monitor mode.
Defaults to only device in monitor mode if found.
Otherwise, enumerates list of possible wifi devices
and asks user to select one to put into monitor mode (if multiple).
Uses airmon-ng to put device in monitor mode if needed.
Returns the name (string) of the interface chosen in monitor mode.
"""
if not self.RUN_CONFIG.PRINTED_SCANNING:
print GR + ' [+]' + W + ' scanning for wireless devices...'
self.RUN_CONFIG.PRINTED_SCANNING = True
proc = Popen(['iwconfig'], stdout=PIPE, stderr=DN)
iface = ''
monitors = []
adapters = []
for line in proc.communicate()[0].split('\n'):
if len(line) == 0: continue
if ord(line[0]) != 32: # Doesn't start with space
iface = line[:line.find(' ')] # is the interface
if line.find('Mode:Monitor') != -1:
monitors.append(iface)
else:
adapters.append(iface)
if self.RUN_CONFIG.WIRELESS_IFACE != '':
if monitors.count(self.RUN_CONFIG.WIRELESS_IFACE):
return self.RUN_CONFIG.WIRELESS_IFACE
else:
if self.RUN_CONFIG.WIRELESS_IFACE in adapters:
# valid adapter, enable monitor mode
print R + ' [!]' + O + ' could not find wireless interface %s in monitor mode' % (
R + '"' + R + self.RUN_CONFIG.WIRELESS_IFACE + '"' + O)
return self.enable_monitor_mode(self.RUN_CONFIG.WIRELESS_IFACE)
else:
# couldnt find the requested adapter
print R + ' [!]' + O + ' could not find wireless interface %s' % (
'"' + R + self.RUN_CONFIG.WIRELESS_IFACE + O + '"' + W)
self.RUN_CONFIG.exit_gracefully(0)
if len(monitors) == 1:
return monitors[0] # Default to only device in monitor mode
elif len(monitors) > 1:
print GR + " [+]" + W + " interfaces in " + G + "monitor mode:" + W
for i, monitor in enumerate(monitors):
print " %s. %s" % (G + str(i + 1) + W, G + monitor + W)
ri = raw_input("%s [+]%s select %snumber%s of interface to use for capturing (%s1-%d%s): %s" % \
(GR, W, G, W, G, len(monitors), W, G))
while not ri.isdigit() or int(ri) < 1 or int(ri) > len(monitors):
ri = raw_input("%s [+]%s select number of interface to use for capturing (%s1-%d%s): %s" % \
(GR, W, G, len(monitors), W, G))
i = int(ri)
return monitors[i - 1]
proc = Popen(['airmon-ng'], stdout=PIPE, stderr=DN)
for line in proc.communicate()[0].split('\n'):
if len(line) == 0 or line.startswith('Interface') or line.startswith('PHY'): continue
monitors.append(line)
if len(monitors) == 0:
print R + ' [!]' + O + " no wireless interfaces were found." + W
print R + ' [!]' + O + " you need to plug in a wifi device or install drivers.\n" + W
self.RUN_CONFIG.exit_gracefully(0)
elif self.RUN_CONFIG.WIRELESS_IFACE != '' and monitors.count(self.RUN_CONFIG.WIRELESS_IFACE) > 0:
monitor = monitors[0][:monitors[0].find('\t')]
return self.enable_monitor_mode(monitor)
elif len(monitors) == 1:
monitor = monitors[0][:monitors[0].find('\t')]
if monitor.startswith('phy'): monitor = monitors[0].split()[1]
return self.enable_monitor_mode(monitor)
print GR + " [+]" + W + " available wireless devices:"
for i, monitor in enumerate(monitors):
print " %s%d%s. %s" % (G, i + 1, W, monitor)
ri = raw_input(
GR + " [+]" + W + " select number of device to put into monitor mode (%s1-%d%s): " % (G, len(monitors), W))
while not ri.isdigit() or int(ri) < 1 or int(ri) > len(monitors):
ri = raw_input(" [+] select number of device to put into monitor mode (%s1-%d%s): " % (G, len(monitors), W))
i = int(ri)
monitor = monitors[i - 1][:monitors[i - 1].find('\t')]
return self.enable_monitor_mode(monitor)
def scan(self, channel=0, iface='', tried_rtl8187_fix=False):
"""
Scans for access points. Asks user to select target(s).
"channel" - the channel to scan on, 0 scans all channels.
"iface" - the interface to scan on. must be a real interface.
"tried_rtl8187_fix" - We have already attempted to fix "Unknown error 132"
Returns list of selected targets and list of clients.
"""
airodump_file_prefix = os.path.join(self.RUN_CONFIG.temp, 'wifite')
csv_file = airodump_file_prefix + '-01.csv'
cap_file = airodump_file_prefix + '-01.cap'
remove_airodump_files(airodump_file_prefix)
command = ['airodump-ng',
'-a', # only show associated clients
'--write-interval', '1', # Write every second
'-w', airodump_file_prefix] # output file
if channel != 0: