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gsmsms_sniff_mysql.py
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#!/usr/bin/python
#!coding=utf-8
#le4f.net
import socket
import struct
import threading
import Queue
import MySQLdb
import time
import subprocess
import re
import os
class Database:
host = 'localhost'
user = 'root'
password = ''
db = 'smshack'
def __init__(self):
self.connection = MySQLdb.connect(self.host, self.user, self.password, self.db)
self.cursor = self.connection.cursor()
def insert(self, query):
try:
self.cursor.execute(query)
self.connection.commit()
except:
self.connection.rollback()
def query(self, query):
cursor = self.connection.cursor( MySQLdb.cursors.DictCursor )
cursor.execute(query)
return cursor.fetchall()
def __del__(self):
self.connection.close()
def covert_cellphone_num(num):
phone_number = []
for i in num:
i = ord(i)
i = (i << 4 & 0xF0) + (i >> 4 & 0x0F)
phone_number.append(chr(i))
return ("".join(phone_number).encode('hex'))[:-1]
def handle_message(**kargs):
gsm_sms_segs = ""
mysql = Database()
mysql.insert("SET NAMES utf8")
while True:
data = kargs['messages'].get(True)
if data[0:2] == '\x02\x04': #GSM_TAP header Version02 & HeaderLength 16bytes
#uplink = struct.unpack('H', data[4:6])[0]
#uplink = (uplink & 0x40 == 0x40)
#print data.encode('hex')
#skip header 16 bytes, directly handle the LAPDm part
address_field = struct.unpack('B', data[16:17])[0]
control_field = struct.unpack('B', data[17:18])[0]
length_field = struct.unpack('B', data[18:19])[0]
if (address_field >> 2) & 0x1F == 3: # GSM SMS
if (control_field & 0x01) == 0x00: # frame type == information frame
# caculate segments data length
seg_len = (length_field >> 2) & 0x3F
# if there are more segments
has_segments = ((length_field >> 1) & 0x01 == 0x1)
# caculate segments sequence
seq = (control_field >> 1) & 0x07
gsm_sms_segs += data[19:19+seg_len]
# reassemble all segments when handling the last packet
if has_segments == False:
gsm_sms = gsm_sms_segs
gsm_sms_segs = ""
to_number = ""
from_number = ""
to_number_len = 0
from_number_len = 0
is_sms_submit = False
is_sms_deliver = False
has_tpudhi = False
has_tpvpf = False
is_mms = False
if (len(gsm_sms) > 10 and ord(gsm_sms[0:1]) & 0x0F == 0x09) and (ord(gsm_sms[1:2]) == 0x01) and (ord(gsm_sms[2:3]) > 0x10): # SMS Message
try:
#print gsm_sms.encode('hex') //hoho
# determinate if this is uplink message aka MS to Network
is_uplink = (ord(gsm_sms[3:4]) == 0x00)
#print ("Type: SUBMIT" if is_uplink else "Type: DELIVER")
if is_uplink:
to_number_len = struct.unpack('B', gsm_sms[6:7])[0] - 1
to_number = gsm_sms[8:8+to_number_len]
to_number = covert_cellphone_num(to_number)
# check if this is SMS-SUBMIT
sms_submit = struct.unpack('B', gsm_sms[7+to_number_len+2:7+to_number_len+2+1])[0]
if sms_submit & 0x03 == 0x01:
is_sms_submit = True
# check if TP UD includes a extra header
has_tpudhi = ((struct.unpack('B', gsm_sms[7+to_number_len+2:7+to_number_len+2+1])[0] & 0x40) == 0x40)
has_tpvpf = ((struct.unpack('B', gsm_sms[7+to_number_len+2:7+to_number_len+2+1])[0] >> 3 & 0x02) == 0x02)
from_number_len = struct.unpack('B', gsm_sms[8+to_number_len+3:8+to_number_len+3+1])[0]
from_number_len = (from_number_len / 2) + (from_number_len % 2)
from_number = gsm_sms[8+to_number_len+3+2:8+to_number_len+3+2+from_number_len]
from_number = covert_cellphone_num(from_number)
print "[!]%s From: %s\tTo:%s" % (GetCurrentTime(),from_number,to_number)
else:
to_number_len = struct.unpack('B', gsm_sms[5:6])[0] - 1
to_number = gsm_sms[7:7+to_number_len]
to_number = covert_cellphone_num(to_number)
# check if this is SMS-DELIVER
sms_deliver = struct.unpack('B', gsm_sms[7+to_number_len+2:7+to_number_len+2+1])[0]
if sms_deliver & 0x03 == 0x0:
is_sms_deliver = True
# check if TP UD includes a extra header
has_tpudhi = ((struct.unpack('B', gsm_sms[7+to_number_len+2:7+to_number_len+2+1])[0] & 0x40) == 0x40)
from_number_len = struct.unpack('B', gsm_sms[7+to_number_len+3:7+to_number_len+3+1])[0]
from_number_len = (from_number_len / 2) + (from_number_len % 2)
from_number = gsm_sms[7+to_number_len+3+2:7+to_number_len+3+2+from_number_len]
from_number = covert_cellphone_num(from_number)
print "[!]%s From: %s\tTo:%s" % (GetCurrentTime(),from_number,to_number)
if is_sms_deliver:
try:
# if there is additional header, skip it
header_len = 0
if has_tpudhi:
header_len = struct.unpack('B', gsm_sms[7+to_number_len+3+2+from_number_len+10:7+to_number_len+3+2+from_number_len+10+1])[0]
mms = struct.unpack('B', gsm_sms[7+to_number_len+3+2+from_number_len+1:7+to_number_len+3+2+from_number_len+1+1])[0]
if ((mms >> 2) & 0x03) == 0x01:
is_mms = True
if header_len == 0:
sms = gsm_sms[7+to_number_len+3+2+from_number_len + 10:]
else:
sms = gsm_sms[7+to_number_len+3+2+from_number_len + 10 + header_len + 1:]
#print sms.encode('hex')
# adjust string from big-endian to little-endian
#sms_len = (len(sms) / 2)
#sms = struct.unpack((">" + "H" * sms_len), sms)
#sms = struct.pack("<" + ("H" * sms_len), *sms)
#print sms.encode('hex')
#SMS is using utf-16 encode
if not is_mms:
print '[*]Msg:' + sms.decode('UTF-16BE')
#print "INSERT INTO sms_data(sms_to, sms_from, sms_message) VALUES('%s', '%s', '%s')" % (to_number.encode('utf-8'), from_number.encode('utf-8'), sms.decode('UTF-16BE').encode('utf-8'))
mysql.insert("INSERT INTO sms_data(sms_to, sms_from, sms_message, type) VALUES('%s', '%s', '%s', b'0')" % (to_number.encode('utf-8'), from_number.encode('utf-8'), sms.decode('UTF-16BE').encode('utf-8')))
else:
print "[!]%s MMS message." % GetCurrentTime()
except:
print "[-]%s Can't Decode The Message" % GetCurrentTime()
elif is_sms_submit:
try:
# if there is additional header, skip it
header_len = 0
# looks like uplink sms doesn't have a TP service centre time stamp
if has_tpudhi:
header_len = struct.unpack('B', gsm_sms[8+to_number_len+3+2+from_number_len+3:8+to_number_len+3+2+from_number_len+3+1])[0]
mms = struct.unpack('B', gsm_sms[8+to_number_len+3+2+from_number_len+1:8+to_number_len+3+2+from_number_len+1+1])[0]
if ((mms >> 2) & 0x03) == 0x01:
is_mms = True
if has_tpvpf:
if header_len == 0:
sms = gsm_sms[8+to_number_len+3+2+from_number_len + 3 + 1:]
else:
sms = gsm_sms[8+to_number_len+3+2+from_number_len + 3 + header_len + 1 + 1:]
else:
if header_len == 0:
sms = gsm_sms[8+to_number_len+3+2+from_number_len + 3:]
else:
sms = gsm_sms[8+to_number_len+3+2+from_number_len + 3 + header_len + 1:]
#print sms.encode('hex')
# adjust string from big-endian to little-endian
#sms_len = (len(sms) / 2)
#sms = struct.unpack((">" + "H" * sms_len), sms)
#sms = struct.pack("<" + ("H" * sms_len), *sms)
#print sms.encode('hex')
#SMS is using utf-16 encode
if not is_mms:
print '[*]Msg:'+sms.decode('UTF-16BE')
mysql.insert("INSERT INTO sms_data(sms_to, sms_from, sms_message, type) VALUES('%s', '%s', '%s', b'1')" % (to_number.encode('utf-8'), from_number.encode('utf-8'), sms.decode('UTF-16BE').encode('utf-8')))
else:
print "[!]%s MMS message." % GetCurrentTime()
except:
print "[-]%s Can't Decode The Message" % GetCurrentTime()
else:
print "[!]%s SMS Status Report. " % GetCurrentTime()
except:
print "[-]%s Unexpected packets format." % GetCurrentTime()
def GetCurrentTime():
return time.strftime('%Y/%m/%d %H:%M:%S',time.localtime(time.time()))
if __name__ == '__main__':
print "[*]Sniffer Loading..."
print "mysql is ok ."
print "[*]Press Ctrl+C to Exit."
try:
q = Queue.Queue()
t = threading.Thread(target=handle_message, name="handle_message_thread", kwargs={'messages':q})
t.daemon = True
t.start()
s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
s.bind(('0.0.0.0', 47290))
while True:
data, addr = s.recvfrom(2048)
#print data.encode('hex')
q.put(data)
s.close()
except KeyboardInterrupt:
try:
child1.kill()
child2.kill()
child3.kill()
print "[-]Kill Process Done."
except:
pass