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main.py
434 lines (357 loc) · 14.2 KB
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main.py
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from telnetlib import IP
import paho.mqtt.client as mqtt
from time import sleep
from tkinter import *
from scapy.all import *
from scapy.layers.inet import ICMP, IP, TCP, UDP
# The callback for when the client receives a CONNACK response from the server.
def on_connect(client, userdata, flags, rc):
if rc == 0:
print("Connected OK")
else:
print("Bad connenction ", rc)
# Subscribing in on_connect() means that if we lose the connection and
# reconnect then subscriptions will be renewed.
def on_log(client, userdata, level, buf):
print("log: " + buf)
# The callback for when a PUBLISH message is received from the server.
def on_message(client, userdata, msg):
print(msg.topic + " " + str(msg.payload))
def sip_message(ip_dst, ip_src, CallID, mf, contact):
sourcePort = 3001
destinationIp = ip_dst
sourceIp = ip_src
ip = IP(src=sourceIp, dst=destinationIp)
myPayload = (
'INVITE sip:{0}:5060;transport=tcp SIP/2.0\r\n'
'Via: SIP/2.0/UDP 192.168.44.32:5060;branch=1234\r\n'
'From: \"somedevice\"<sip:somedevice@1.1.1.1:5060>;tag=5678\r\n'
'To: <sip:{0}:5060>\r\n'
'Call-ID: '+ CallID +' \r\n'
'CSeq: 1 INVITE\r\n'
'Max-Forwards: '+ mf +'\r\n'
'Contact: <sip:'+ contact +'@pc33.atlanta.com>\r\n'
'Content-Length: 0\r\n\r\n').format(destinationIp)
udp = UDP(dport=5060, sport=sourcePort)
send(ip / udp / myPayload)
def mqtt_message(broker, id, user, psw, topic, payload, keepalive, retainval):
client = mqtt.Client()
client.on_connect = on_connect
client.on_message = on_message
client = mqtt.Client(id)
client.username_pw_set(user, password=psw)
print("connecting to broker ", broker)
sleep(10)
client.connect(broker, 1883, keepalive)
client.loop_start()
client.publish(topic, payload, retain=retainval)
client.loop_stop()
client.disconnect()
def mqtt_subscribe(ip, id, user, psw, topic, clean):
print(topic)
client = mqtt.Client(client_id=id, clean_session=clean)
client.on_connect = on_connect
client.on_message = on_message
broker = ip
client.username_pw_set(user, password=psw)
print("connecting to broker ", broker)
client.loop_start()
client.connect(broker)
client.subscribe(topic)
client.loop_forever()
def cmd_ping(ip_dst, ip_src, seq, icmp_id):
conf.verb = False
layer3 = IP()
layer3.src = ip_src
layer3.dst = ip_dst
layer3.tos = 0
layer3.id = 1
layer3.flags = 0
layer3.frag = 0
layer3.ttl = 128
layer3.proto = 1 # icmp
layer4 = ICMP()
layer4.type = 8 # echo-request
layer4.code = 0
layer4.id = icmp_id
layer4.seq = seq
pkt = layer3 / layer4 / b"abcdefghijklmn opqrstuvwabcdefg hi"
send(pkt)
print("Ping Sent")
def cmd_tcpip(ip_src, ip_dst, TOS, ttl, id, reserved, seq_num, window, urg_ptr, flags, payload, src_port):
layer3 = IP()
layer3.src = ip_src
layer3.dst = ip_dst
tos_num = int(TOS, 2)
print(tos_num)
layer3.tos = tos_num
layer3.ttl = ttl
layer3.ihl = 5
layer3.id = id
layer4 = TCP()
layer4.dport = 80
layer4.sport = src_port
num = int(reserved, 2)
binary_num = bin(num)
print(binary_num)
layer4.reserved = num
# layer4.flags = "S"
layer4.flags = flags
layer4.window = window
layer4.urgptr = int(urg_ptr, 2)
layer4.seq = seq_num
print("1")
if not payload:
pkt = layer3 / layer4
else:
pkt = layer3 / layer4 / payload
send(pkt)
# window object
app = Tk()
#style = Style()
# ICMP texts listners
icmp_label = Label(app, text='ICMP Packet: ', font=('bold', 14), pady=10)
icmp_label.grid(row=0, column=0, sticky=W)
src_text = StringVar()
src_label = Label(app, text='Source IP: ', font=('bold', 12), pady=10)
src_label.grid(row=1, column=0, sticky=W)
src_entry = Entry(app, textvariable=src_text)
src_entry.grid(row=1, column=1)
dst_text = StringVar()
dst_label = Label(app, text='Destination IP: ', font=('bold', 12), pady=10)
dst_label.grid(row=2, column=0, sticky=W)
dst_entry = Entry(app, textvariable=dst_text)
dst_entry.grid(row=2, column=1)
id_text = IntVar()
id_label = Label(app, text='Ping ID: ', font=('bold', 12), pady=10)
id_label.grid(row=1, column=2, sticky=W)
id_entry = Entry(app, textvariable=id_text)
id_entry.grid(row=1, column=3)
seq_text = IntVar()
seq_label = Label(app, text='Ping Seq: ', font=('bold', 12), pady=10)
seq_label.grid(row=2, column=2, sticky=W)
seq_entry = Entry(app, textvariable=seq_text)
seq_entry.grid(row=2, column=3)
# TCP texts listners
# IP
tcp_label = Label(app, text='TCP Packet: ', font=('bold', 14), pady=10)
tcp_label.grid(row=4, column=0, sticky=W)
src_TCP_text = StringVar()
src_label = Label(app, text='Source IP: ', font=('bold', 12), pady=10)
src_label.grid(row=5, column=0, sticky=W)
src_entry = Entry(app, textvariable=src_TCP_text)
src_entry.grid(row=5, column=1)
dst_TCP_text = StringVar()
dst_label = Label(app, text='Destination IP: ', font=('bold', 12), pady=10)
dst_label.grid(row=6, column=0, sticky=W)
dst_entry = Entry(app, textvariable=dst_TCP_text)
dst_entry.grid(row=6, column=1)
TOS_text = StringVar()
TOS_label = Label(app, text='TOS: ', font=('bold', 12), pady=10)
TOS_label.grid(row=5, column=2, sticky=W)
TOS_entry = Entry(app, textvariable=TOS_text)
TOS_entry.grid(row=5, column=3)
ttl_text = IntVar()
ttl_label = Label(app, text='ttl: ', font=('bold', 12), pady=10)
ttl_label.grid(row=6, column=2, sticky=W)
ttl_entry = Entry(app, textvariable=ttl_text)
ttl_entry.grid(row=6, column=3)
ip_id_text = IntVar()
ip_id_label = Label(app, text='IP ID: ', font=('bold', 12), pady=10)
ip_id_label.grid(row=6, column=4, sticky=W)
ip_id_entry = Entry(app, textvariable=ip_id_text)
ip_id_entry.grid(row=6, column=5)
# TCP
reserved_bits_text = StringVar()
reserved_bits_label = Label(app, text='Reserved Bits: ', font=('bold', 12), pady=10)
reserved_bits_label.grid(row=7, column=0, sticky=W)
reserved_bits_entry = Entry(app, textvariable=reserved_bits_text)
reserved_bits_entry.grid(row=7, column=1)
window_text = IntVar()
window_label = Label(app, text='Window: ', font=('bold', 12), pady=10)
window_label.grid(row=8, column=0, sticky=W)
window_entry = Entry(app, textvariable=window_text)
window_entry.grid(row=8, column=1)
urgent_pointer_text = StringVar()
urgent_pointer_label = Label(app, text='Urgent Pointer: ', font=('bold', 12), pady=10)
urgent_pointer_label.grid(row=7, column=2, sticky=W)
urgent_pointer_entry = Entry(app, textvariable=urgent_pointer_text)
urgent_pointer_entry.grid(row=7, column=3)
seq_TCP_text = IntVar()
seq_TCP_label = Label(app, text='Seq Number: ', font=('bold', 12), pady=10)
seq_TCP_label.grid(row=8, column=2, sticky=W)
seq_TCP_entry = Entry(app, textvariable=seq_TCP_text)
seq_TCP_entry.grid(row=8, column=3)
flags_text = StringVar()
flags_label = Label(app, text='Flags: ', font=('bold', 12), pady=10)
flags_label.grid(row=7, column=4, sticky=W)
flags_entry = Entry(app, textvariable=flags_text)
flags_entry.grid(row=7, column=5)
payload_text = StringVar()
payload_label = Label(app, text='Payload: ', font=('bold', 12), pady=10)
payload_label.grid(row=8, column=4, sticky=W)
payload_entry = Entry(app, textvariable=payload_text)
payload_entry.grid(row=8, column=5)
sport_text = IntVar()
sport_label = Label(app, text='Source Port: ', font=('bold', 12), pady=10)
sport_label.grid(row=7, column=6, sticky=W)
sport_entry = Entry(app, textvariable=sport_text)
sport_entry.grid(row=7, column=7)
##MQTT Broker
mqtt_label = Label(app, text='MQTT Packet: ', font=('bold', 14), pady=10)
mqtt_label.grid(row=10, column=0, sticky=W)
broker_text = StringVar()
broker_label = Label(app, text='Broker IP: ', font=('bold', 12), pady=10)
broker_label.grid(row=11, column=0, sticky=W)
broker_entry = Entry(app, textvariable=broker_text)
broker_entry.grid(row=11, column=1)
# ID
ID_text = StringVar()
ID_label = Label(app, text='Client ID: ', font=('bold', 12), pady=10)
ID_label.grid(row=11, column=2, sticky=W)
ID_entry = Entry(app, textvariable=ID_text)
ID_entry.grid(row=11, column=3)
# user
user_text = StringVar()
user_label = Label(app, text='User: ', font=('bold', 12), pady=10)
user_label.grid(row=11, column=4, sticky=W)
user_entry = Entry(app, textvariable=user_text)
user_entry.grid(row=11, column=5)
# password
pass_text = StringVar()
pass_label = Label(app, text='Password: ', font=('bold', 12), pady=10)
pass_label.grid(row=11, column=6, sticky=W)
pass_entry = Entry(app, textvariable=pass_text)
pass_entry.grid(row=11, column=7)
# topic
topic_text = StringVar()
topic_label = Label(app, text='Topic: ', font=('bold', 12), pady=10)
topic_label.grid(row=12, column=0, sticky=W)
topic_entry = Entry(app, textvariable=topic_text)
topic_entry.grid(row=12, column=1)
# topic2
topic2_text = StringVar()
topic2_label = Label(app, text='Topic: ', font=('bold', 12), pady=10)
topic2_label.grid(row=13, column=0, sticky=W)
topic2_entry = Entry(app, textvariable=topic2_text)
topic2_entry.grid(row=13, column=1)
# topic2
payload_text = StringVar()
payload_label = Label(app, text='Payload: ', font=('bold', 12), pady=10)
payload_label.grid(row=13, column=2, sticky=W)
payload_entry = Entry(app, textvariable=payload_text)
payload_entry.grid(row=13, column=3)
# topic2
keepalive_text = IntVar()
keepalive_label = Label(app, text='Keepalive: ', font=('bold', 12), pady=10)
keepalive_label.grid(row=13, column=4, sticky=W)
keepalive_entry = Entry(app, textvariable=keepalive_text)
keepalive_entry.grid(row=13, column=5)
# topic2
patern_text = StringVar()
patern_label = Label(app, text='Message Pattern: ', font=('bold', 12), pady=10)
patern_label.grid(row=15, column=4, sticky=W)
patern_entry = Entry(app, textvariable=patern_text)
patern_entry.grid(row=15, column=5)
retain = BooleanVar()
retain_btn = Checkbutton(app, text="Retain", variable=retain, onvalue = True, offvalue = False,).grid(row=13, column=6)
clean = BooleanVar()
clean_btn = Checkbutton(app, text="Clean Session", variable=clean, onvalue = True, offvalue = False,).grid(row=12, column=2)
iat = Label(app, text='Inter Arrival ICMP Time: ', font=('bold', 14), pady=10)
iat.grid(row=14, column= 0, sticky=W)
sleep_time_txt1 = DoubleVar()
sleep_time_lbl1 = Label(app, text='Sleep time for 1 (in sec): ', font=('bold', 12), pady=10)
sleep_time_lbl1.grid(row=15, column= 0, sticky=W)
sleep_time_entry1 = Entry(app, textvariable=sleep_time_txt1)
sleep_time_entry1.grid(row=15, column=1)
sleep_time_txt0 = DoubleVar()
sleep_time_lbl0 = Label(app, text='Sleep time for 0: ', font=('bold', 12), pady=10)
sleep_time_lbl0.grid(row=15, column= 2, sticky=W)
sleep_time_entry0 = Entry(app, textvariable=sleep_time_txt0)
sleep_time_entry0.grid(row=15, column=3)
#SIP STEGO
sip_label = Label(app, text='SIP Packet: ', font=('bold', 14), pady=10)
sip_label.grid(row=16, column=0, sticky=W)
sip_ip_text = StringVar()
sip_ip_label = Label(app, text='Source IP: ', font=('bold', 12), pady=10)
sip_ip_label.grid(row=17, column=0, sticky=W)
sip_ip_entry = Entry(app, textvariable=sip_ip_text)
sip_ip_entry.grid(row=17, column=1)
sip_ipd_text = StringVar()
sip_ipd_label = Label(app, text='Destination IP: ', font=('bold', 12), pady=10)
sip_ipd_label.grid(row=17, column=2, sticky=W)
sip_ipd_entry = Entry(app, textvariable=sip_ipd_text)
sip_ipd_entry.grid(row=17, column=3)
callid_text = StringVar()
callid_label = Label(app, text='Call ID: ', font=('bold', 12), pady=10)
callid_label.grid(row=17, column=4, sticky=W)
callid_entry = Entry(app, textvariable=callid_text)
callid_entry.grid(row=17, column=5)
maxf_text = StringVar()
maxf_label = Label(app, text='Max Forward: ', font=('bold', 12), pady=10)
maxf_label.grid(row=17, column=6, sticky=W)
maxf_entry = Entry(app, textvariable=maxf_text)
maxf_entry.grid(row=17, column=7)
contact_text = StringVar()
contact_label = Label(app, text='Contact: ', font=('bold', 12), pady=10)
contact_label.grid(row=18, column=0, sticky=W)
contact_entry = Entry(app, textvariable=contact_text)
contact_entry.grid(row=18, column=1)
def cmd():
print(dst_text.get())
print(src_text.get())
print(seq_text.get())
print(id_text.get())
cmd_ping(dst_text.get(), src_text.get(), seq_text.get(), id_text.get())
def icmp_time_stego():
patern = patern_text.get()
seq = seq_text.get()
id = id_text.get()
for a in patern:
print (a)
cmd_ping(dst_text.get(), src_text.get(),seq,id)
if a == '1':
sleep(sleep_time_txt1.get())
if a == '0':
sleep(sleep_time_txt0.get())
seq +=1
def cmd_TCP():
print(dst_TCP_text.get())
print(src_TCP_text.get())
print(reserved_bits_text.get())
print(seq_TCP_text.get())
print(window_text.get())
print(urgent_pointer_text.get())
cmd_tcpip(src_TCP_text.get(), dst_TCP_text.get(), TOS_text.get(), ttl_text.get(), ip_id_text.get(),
reserved_bits_text.get(), seq_TCP_text.get(), window_text.get(), urgent_pointer_text.get(),
flags_text.get(),
payload_text.get(), sport_text.get())
def cmd_mqtt_pub():
mqtt_message(broker_text.get(), ID_text.get(), user_text.get(), pass_text.get(), topic2_text.get(),payload_text.get(),keepalive_text.get(),retain.get())
def cmd_mqtt():
print("SUB top")
mqtt_subscribe(broker_text.get(), ID_text.get(), user_text.get(), pass_text.get(), topic_text.get(),clean.get())
def cmd_sip():
print("sip")
sip_message(sip_ip_text.get(), sip_ipd_text.get() ,callid_text.get(), maxf_text.get(), contact_text.get())
# buttons
icmp_steg_btn = Button(app, text='Send Ping', width=12, command=cmd, padx=10)
icmp_steg_btn.grid(row=3, column=0)
# buttons
tcp_steg_btn = Button(app, text='Send TCP/IP', width=12, command=cmd_TCP, padx=10)
tcp_steg_btn.grid(row=9, column=0)
#MQTT buttons
mqtt_btn = Button(app, text='Subscribe', width=12, command=cmd_mqtt, padx=10)
mqtt_btn.grid(row=12, column=3)
mqtt_btn = Button(app, text='Publish', width=12, command=cmd_mqtt_pub, padx=10)
mqtt_btn.grid(row=13, column=7)
#TimeingStego
icmp_time_btn = Button(app, text='ICMP Time Stego', width=12, command=icmp_time_stego, padx=10)
icmp_time_btn.grid(row=15, column=7)
sip_btn = Button(app, text='Send SIP', width=12, command=cmd_sip, padx=10)
sip_btn.grid(row=18, column=2)
app.title('Stego Tester')
app.geometry('1200x800')
app.mainloop()
# cmd_tcpip("192.168.1.104")
# cmd_ping("192.168.1.104", 4, 128, 1, 0)