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pdfpe.py
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pdfpe.py
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#!/usr/bin/env python3
# script to craft MD5 collisions of a PDF and a PE
# Ange Albertini 2019-2021
import os
import sys
import struct
import hashlib
# PDF functions ###############################################################
def EnclosedString(d, starts, ends):
off = d.find(starts) + len(starts)
return d[off:d.find(ends, off)]
def getCount(d):
s = EnclosedString(d, b"/Count ", b"/")
count = int(s)
return count
template = b"""%%PDF-1.3
%%\xC2\xB5\xC2\xB6
1 0 obj
<</Length 2 0 R>>
stream
%(pe)s
endstream
endobj
2 0 obj
%(lenPE)i
endobj
3 0 obj
<<
/Type /Catalog
/Pages 4 0 R
>>
endobj
4 0 obj
<</Type/Pages/Count %(count)i/Kids[%(kids)s]>>
endobj
"""
# PE functions ################################################################
def getPEhdr(d):
PEoffset = d.find("PE\0\0")
peHDR = d[PEoffset:]
Machine = struct.unpack("H", peHDR[4:4+2])[0]
SecCount = struct.unpack("h", peHDR[0x6:0x6+2])[0]
bits = None
if Machine == 0x014C:
bits = 32
elif Machine == 0x8664:
bits = 64
if bits is None:
print("ERROR: unknown arch")
sys.exit()
NumDiffOff = 0x74 if bits == 32 else 0x84
NumDD = struct.unpack("i", peHDR[NumDiffOff:NumDiffOff+4])[0]
SecTblOff = NumDiffOff + 4 + NumDD * 2 * 4
# get the offset of the first section
SectsStart = struct.unpack("i", peHDR[SecTblOff+0x14:SecTblOff+0x14+4])[0]
PElen = SecTblOff + SecCount * 0x28
return PEoffset, PElen, SecCount, PEoffset + SecTblOff, SectsStart
def relocateSections(d, SecTblOff, SecCount, delta):
for i in range(SecCount):
offset = SecTblOff + i*0x28 + 0x14
PhysOffset = struct.unpack("i", d[offset:offset+4])[0]
d = b"".join([
d[:offset],
struct.pack("i", PhysOffset + delta),
d[offset+4:]
])
return d
# Prefix constants ############################################################
# required offset of the PE header after the prefix
PEOFFSET = 0x2C0
# where section starts
ALIGN = 0x1000
SECTIONEXTRA = 0x00 # amount of stuff to copy before sections start in case (for UPX)
# main ########################################################################
if len(sys.argv) == 1:
print("PDF-PE MD5 collider")
print("Usage: pdf-pe.py <file1.pdf> <file2.exe>")
sys.exit()
with open(sys.argv[2], "rb") as f:
pe = f.read()
assert pe.startswith(b"MZ")
PEoff, HdrLen, NumSec, SecTblOff, SectsStart = getPEhdr(pe)
lenPE = len(pe[PEoff:])
os.system('mutool merge -o merged.pdf dummy.pdf %s' % (sys.argv[1]))
with open("merged.pdf", "rb") as f:
dm = f.read()
count = getCount(dm) - 1
kids = EnclosedString(dm, b"/Kids[", b"]")
# we skip the first dummy that should be 4 0 R because of the `mutool merge`
assert kids.startswith(b"4 0 R ")
kids = kids[6:]
dm = dm[dm.find(b"5 0 obj"):]
dm = dm.replace(b"/Parent 2 0 R", b"/Parent 4 0 R")
dm = dm.replace(b"/Root 1 0 R", b"/Root 3 0 R")
pe = relocateSections(pe, SecTblOff, NumSec, ALIGN - SectsStart)
Sections = pe[SectsStart - SECTIONEXTRA:]
pe = b"".join([
pe[PEoff:PEoff+HdrLen],
(ALIGN - HdrLen - PEOFFSET - SECTIONEXTRA) * b"\0",
Sections,
])
# we need to align the PE header
stage1 = template % locals()
deltaPDF = stage1.find(b"stream\n") + len(b"stream\n")
pe = b"\0" * (PEOFFSET - deltaPDF + len(b"2 0 R") - len(b"%i" % lenPE)) + pe
lenPE = len(pe)
with open("hacked.pdf", "wb") as f:
f.write(template % locals())
f.write(dm)
# let's adjust offsets - don't use -g to keep the length object 2 temporarily unused by mutool transform
# the direct length reference added by mutool will be replaced by a reference to object 2 via the prefix
# (yes, errors will appear because we modified objects without adjusting XREF)
print()
print("KEEP CALM and IGNORE THE NEXT ERRORS")
os.system('mutool clean hacked.pdf cleaned.pdf')
with open("cleaned.pdf", "rb") as f:
cleaned = f.read()
with open("pdfpe1.bin", "rb") as f:
prefix1 = f.read()
with open("pdfpe2.bin", "rb") as f:
prefix2 = f.read()
assert hashlib.md5(prefix1).hexdigest() == hashlib.md5(prefix2).hexdigest()
assert hashlib.sha1(prefix1).hexdigest() != hashlib.sha1(prefix2).hexdigest()
assert len(prefix1) == len(prefix2)
lenPrefix = len(prefix1)
file1 = prefix1 + cleaned[lenPrefix:]
file2 = prefix2 + cleaned[lenPrefix:]
with open("collision1.pdf", "wb") as f:
f.write(file1)
with open("collision2.exe", "wb") as f:
f.write(file2)
os.remove('merged.pdf')
os.remove('hacked.pdf')
os.remove('cleaned.pdf')
md5 = hashlib.md5(file1).hexdigest()
assert md5 == hashlib.md5(file2).hexdigest()
# to prove the files should be 100% valid
print()
os.system('mutool info -X collision1.pdf')
print()
print()
print("MD5: %s" % md5)
print("Success!")