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|
#! /usr/bin/env python
from __future__ import print_function
from builtins import range
import array
from functools import reduce
import logging
import struct
from future.builtins import int as int_types
from future.utils import PY3
from miasm.loader import pe
from miasm.loader.strpatchwork import StrPatchwork
log = logging.getLogger("peparse")
console_handler = logging.StreamHandler()
console_handler.setFormatter(logging.Formatter("[%(levelname)-8s]: %(message)s"))
log.addHandler(console_handler)
log.setLevel(logging.WARN)
class ContentManager(object):
def __get__(self, owner, _):
if hasattr(owner, '_content'):
return owner._content
def __set__(self, owner, new_content):
owner.resize(len(owner._content), len(new_content))
owner._content = new_content
def __delete__(self, owner):
self.__set__(owner, None)
class ContectRva(object):
def __init__(self, parent):
self.parent = parent
def get(self, rva_start, rva_stop=None):
"""
Get data in RVA view starting at @rva_start, stopping at @rva_stop
@rva_start: rva start address
@rva_stop: rva stop address
"""
if rva_start is None:
raise IOError("Out of range")
if rva_start < 0:
raise IOError("Out of range")
if rva_stop is not None:
if rva_stop > len(self.parent.img_rva):
rva_stop = len(self.parent.img_rva)
if rva_start > len(self.parent.img_rva):
raise ValueError("Out of range")
return self.parent.img_rva[rva_start:rva_stop]
if rva_start > len(self.parent.img_rva):
raise ValueError("Out of range")
return self.parent.img_rva[rva_start]
def set(self, rva, data):
"""
Set @data in RVA view starting at @start
@rva: rva start address
@data: data to set
"""
if not isinstance(rva, int_types):
raise ValueError('addr must be int/long')
if rva < 0:
raise ValueError("Out of range")
if rva + len(data) > len(self.parent.img_rva):
raise ValueError("Out of range")
self.parent.img_rva[rva] = data
def __getitem__(self, item):
if isinstance(item, slice):
assert(item.step is None)
return self.get(item.start, item.stop)
return self.get(item)
def __setitem__(self, item, data):
if isinstance(item, slice):
rva = item.start
else:
rva = item
self.set(rva, data)
class ContentVirtual(object):
def __init__(self, parent):
self.parent = parent
def __getitem__(self, item):
raise DeprecationWarning("Replace code by virt.get(start, [stop])")
def __setitem__(self, item, data):
raise DeprecationWarning("Replace code by virt.set(start, data)")
def __call__(self, ad_start, ad_stop=None, ad_step=None):
raise DeprecationWarning("Replace code by virt.get(start, stop)")
def get(self, virt_start, virt_stop=None):
"""
Get data in VIRTUAL view starting at @virt_start, stopping at @virt_stop
@virt_start: virt start address
@virt_stop: virt stop address
"""
rva_start = self.parent.virt2rva(virt_start)
if virt_stop != None:
rva_stop = self.parent.virt2rva(virt_stop)
else:
rva_stop = None
return self.parent.rva.get(rva_start, rva_stop)
def set(self, addr, data):
"""
Set @data in VIRTUAL view starting at @start
@addr: virtual start address
@data: data to set
"""
if not isinstance(addr, int_types):
raise ValueError('addr must be int/long')
self.parent.rva.set(self.parent.virt2rva(addr), data)
def max_addr(self):
section = self.parent.SHList[-1]
length = section.addr + section.size + self.parent.NThdr.ImageBase
return int(length)
def find(self, pattern, start=0, end=None):
if start != 0:
start = self.parent.virt2rva(start)
if end != None:
end = self.parent.virt2rva(end)
ret = self.parent.img_rva.find(pattern, start, end)
if ret == -1:
return -1
return self.parent.rva2virt(ret)
def rfind(self, pattern, start=0, end=None):
if start != 0:
start = self.parent.virt2rva(start)
if end != None:
end = self.parent.virt2rva(end)
ret = self.parent.img_rva.rfind(pattern, start, end)
if ret == -1:
return -1
return self.parent.rva2virt(ret)
def is_addr_in(self, addr):
return self.parent.is_in_virt_address(addr)
def compute_crc(raw, olds):
out = 0
data = raw[:]
if len(raw) % 2:
end = struct.unpack('B', data[-1:])[0]
data = data[:-1]
if (len(raw) & ~0x1) % 4:
out += struct.unpack('H', data[:2])[0]
data = data[2:]
data = array.array('I', data)
out = reduce(lambda x, y: x + y, data, out)
out -= olds
while out > 0xFFFFFFFF:
out = (out >> 32) + (out & 0xFFFFFFFF)
while out > 0xFFFF:
out = (out & 0xFFFF) + ((out >> 16) & 0xFFFF)
if len(raw) % 2:
out += end
out += len(data)
return out
# PE object
class PE(object):
content = ContentManager()
def __init__(self, pestr=None,
loadfrommem=False,
parse_resources=True,
parse_delay=True,
parse_reloc=True,
wsize=32,
**kwargs):
self._rva = ContectRva(self)
self._virt = ContentVirtual(self)
self.img_rva = StrPatchwork()
if pestr is None:
self._content = StrPatchwork()
self._sex = 0
self._wsize = wsize
self.Doshdr = pe.Doshdr(self)
self.NTsig = pe.NTsig(self)
self.Coffhdr = pe.Coffhdr(self)
if self._wsize == 32:
Opthdr = pe.Opthdr32
else:
Opthdr = pe.Opthdr64
self.Opthdr = Opthdr(self)
self.NThdr = pe.NThdr(self)
self.NThdr.optentries = [pe.Optehdr(self) for _ in range(0x10)]
self.NThdr.CheckSum = 0
self.SHList = pe.SHList(self)
self.SHList.shlist = []
self.NThdr.sizeofheaders = 0x1000
self.DirImport = pe.DirImport(self)
self.DirExport = pe.DirExport(self)
self.DirDelay = pe.DirDelay(self)
self.DirReloc = pe.DirReloc(self)
self.DirRes = pe.DirRes(self)
self.DirTls = pe.DirTls(self)
self.Doshdr.magic = 0x5a4d
self.Doshdr.lfanew = 0xe0
self.NTsig.signature = 0x4550
if wsize == 32:
self.Opthdr.magic = 0x10b
elif wsize == 64:
self.Opthdr.magic = 0x20b
else:
raise ValueError('unknown pe size %r' % wsize)
self.Opthdr.majorlinkerversion = 0x7
self.Opthdr.minorlinkerversion = 0x0
self.NThdr.filealignment = 0x1000
self.NThdr.sectionalignment = 0x1000
self.NThdr.majoroperatingsystemversion = 0x5
self.NThdr.minoroperatingsystemversion = 0x1
self.NThdr.MajorImageVersion = 0x5
self.NThdr.MinorImageVersion = 0x1
self.NThdr.majorsubsystemversion = 0x4
self.NThdr.minorsubsystemversion = 0x0
self.NThdr.subsystem = 0x3
if wsize == 32:
self.NThdr.dllcharacteristics = 0x8000
else:
self.NThdr.dllcharacteristics = 0x8000
# for createthread
self.NThdr.sizeofstackreserve = 0x200000
self.NThdr.sizeofstackcommit = 0x1000
self.NThdr.sizeofheapreserve = 0x100000
self.NThdr.sizeofheapcommit = 0x1000
self.NThdr.ImageBase = 0x400000
self.NThdr.sizeofheaders = 0x1000
self.NThdr.numberofrvaandsizes = 0x10
self.NTsig.signature = 0x4550
if wsize == 32:
self.Coffhdr.machine = 0x14c
elif wsize == 64:
self.Coffhdr.machine = 0x8664
else:
raise ValueError('unknown pe size %r' % wsize)
if wsize == 32:
self.Coffhdr.characteristics = 0x10f
self.Coffhdr.sizeofoptionalheader = 0xe0
else:
self.Coffhdr.characteristics = 0x22 # 0x2f
self.Coffhdr.sizeofoptionalheader = 0xf0
else:
self._content = StrPatchwork(pestr)
self.loadfrommem = loadfrommem
self.parse_content(parse_resources=parse_resources,
parse_delay=parse_delay,
parse_reloc=parse_reloc)
def isPE(self):
if self.NTsig is None:
return False
return self.NTsig.signature == 0x4550
def parse_content(self,
parse_resources=True,
parse_delay=True,
parse_reloc=True):
off = 0
self._sex = 0
self._wsize = 32
self.Doshdr = pe.Doshdr.unpack(self.content, off, self)
off = self.Doshdr.lfanew
if off > len(self.content):
log.warn('ntsig after eof!')
self.NTsig = None
return
self.NTsig = pe.NTsig.unpack(self.content,
off, self)
self.DirImport = None
self.DirExport = None
self.DirDelay = None
self.DirReloc = None
self.DirRes = None
if self.NTsig.signature != 0x4550:
log.warn('not a valid pe!')
return
off += len(self.NTsig)
self.Coffhdr, length = pe.Coffhdr.unpack_l(self.content,
off,
self)
off += length
self._wsize = ord(self.content[off+1]) * 32
if self._wsize == 32:
Opthdr = pe.Opthdr32
else:
Opthdr = pe.Opthdr64
if len(self.content) < 0x200:
# Fix for very little PE
self.content += (0x200 - len(self.content)) * b'\x00'
self.Opthdr, length = Opthdr.unpack_l(self.content, off, self)
self.NThdr = pe.NThdr.unpack(self.content, off + length, self)
self.img_rva[0] = self.content[:self.NThdr.sizeofheaders]
off += self.Coffhdr.sizeofoptionalheader
self.SHList = pe.SHList.unpack(self.content, off, self)
# load section data
filealignment = self.NThdr.filealignment
sectionalignment = self.NThdr.sectionalignment
for section in self.SHList.shlist:
virt_size = (section.size // sectionalignment + 1) * sectionalignment
if self.loadfrommem:
section.offset = section.addr
if self.NThdr.sectionalignment > 0x1000:
raw_off = 0x200 * (section.offset // 0x200)
else:
raw_off = section.offset
if raw_off != section.offset:
log.warn('unaligned raw section (%x %x)!', raw_off, section.offset)
section.data = StrPatchwork()
if section.rawsize == 0:
rounded_size = 0
else:
if section.rawsize % filealignment:
rs = (section.rawsize // filealignment + 1) * filealignment
else:
rs = section.rawsize
rounded_size = rs
if rounded_size > virt_size:
rounded_size = min(rounded_size, section.size)
data = self.content[raw_off:raw_off + rounded_size]
section.data = data
# Pad data to page size 0x1000
length = len(data)
data += b"\x00" * ((((length + 0xfff)) & 0xFFFFF000) - length)
self.img_rva[section.addr] = data
# Fix img_rva
self.img_rva = self.img_rva
try:
self.DirImport = pe.DirImport.unpack(self.img_rva,
self.NThdr.optentries[
pe.DIRECTORY_ENTRY_IMPORT].rva,
self)
except pe.InvalidOffset:
log.warning('cannot parse DirImport, skipping')
self.DirImport = pe.DirImport(self)
try:
self.DirExport = pe.DirExport.unpack(self.img_rva,
self.NThdr.optentries[
pe.DIRECTORY_ENTRY_EXPORT].rva,
self)
except pe.InvalidOffset:
log.warning('cannot parse DirExport, skipping')
self.DirExport = pe.DirExport(self)
if len(self.NThdr.optentries) > pe.DIRECTORY_ENTRY_DELAY_IMPORT:
self.DirDelay = pe.DirDelay(self)
if parse_delay:
try:
self.DirDelay = pe.DirDelay.unpack(self.img_rva,
self.NThdr.optentries[
pe.DIRECTORY_ENTRY_DELAY_IMPORT].rva,
self)
except pe.InvalidOffset:
log.warning('cannot parse DirDelay, skipping')
if len(self.NThdr.optentries) > pe.DIRECTORY_ENTRY_BASERELOC:
self.DirReloc = pe.DirReloc(self)
if parse_reloc:
try:
self.DirReloc = pe.DirReloc.unpack(self.img_rva,
self.NThdr.optentries[
pe.DIRECTORY_ENTRY_BASERELOC].rva,
self)
except pe.InvalidOffset:
log.warning('cannot parse DirReloc, skipping')
if len(self.NThdr.optentries) > pe.DIRECTORY_ENTRY_RESOURCE:
self.DirRes = pe.DirRes(self)
if parse_resources:
self.DirRes = pe.DirRes(self)
try:
self.DirRes = pe.DirRes.unpack(self.img_rva,
self.NThdr.optentries[
pe.DIRECTORY_ENTRY_RESOURCE].rva,
self)
except pe.InvalidOffset:
log.warning('cannot parse DirRes, skipping')
if len(self.NThdr.optentries) > pe.DIRECTORY_ENTRY_TLS:
self.DirTls = pe.DirTls(self)
try:
self.DirTls = pe.DirTls.unpack(
self.img_rva,
self.NThdr.optentries[pe.DIRECTORY_ENTRY_TLS].rva,
self
)
except pe.InvalidOffset:
log.warning('cannot parse DirTls, skipping')
def resize(self, old, new):
pass
def __getitem__(self, item):
return self.content[item]
def __setitem__(self, item, data):
self.content.__setitem__(item, data)
return
def getsectionbyrva(self, rva):
if self.SHList is None:
return None
for section in self.SHList.shlist:
"""
TODO CHECK:
some binaries have import rva outside section, but addresses
seems to be rounded
"""
mask = self.NThdr.sectionalignment - 1
if section.addr <= rva < (section.addr + section.size + mask) & ~(mask):
return section
return None
def getsectionbyvad(self, vad):
return self.getsectionbyrva(self.virt2rva(vad))
def getsectionbyoff(self, off):
if self.SHList is None:
return None
for section in self.SHList.shlist:
if section.offset <= off < section.offset + section.rawsize:
return section
return None
def getsectionbyname(self, name):
if self.SHList is None:
return None
for section in self.SHList:
if section.name.strip(b'\x00').decode() == name:
return section
return None
def is_rva_ok(self, rva):
return self.getsectionbyrva(rva) is not None
def rva2off(self, rva):
# Special case rva in header
if rva < self.NThdr.sizeofheaders:
return rva
section = self.getsectionbyrva(rva)
if section is None:
raise pe.InvalidOffset('cannot get offset for 0x%X' % rva)
soff = (section.offset // self.NThdr.filealignment) * self.NThdr.filealignment
return rva - section.addr + soff
def off2rva(self, off):
section = self.getsectionbyoff(off)
if section is None:
return
return off - section.offset + section.addr
def virt2rva(self, addr):
"""
Return rva of virtual address @addr; None if addr is below ImageBase
"""
if addr is None:
return None
rva = addr - self.NThdr.ImageBase
if rva < 0:
return None
return rva
def rva2virt(self, rva):
if rva is None:
return
return rva + self.NThdr.ImageBase
def virt2off(self, addr):
"""
Return offset of virtual address @addr
"""
rva = self.virt2rva(addr)
if rva is None:
return None
return self.rva2off(rva)
def off2virt(self, off):
return self.rva2virt(self.off2rva(off))
def is_in_virt_address(self, addr):
if addr < self.NThdr.ImageBase:
return False
addr = self.virt2rva(addr)
for section in self.SHList.shlist:
if section.addr <= addr < section.addr + section.size:
return True
return False
def get_drva(self):
print('Deprecated: Use PE.rva instead of PE.drva')
return self._rva
def get_rva(self):
return self._rva
# TODO XXX remove drva api
drva = property(get_drva)
rva = property(get_rva)
def get_virt(self):
return self._virt
virt = property(get_virt)
def build_content(self):
content = StrPatchwork()
content[0] = bytes(self.Doshdr)
for section in self.SHList.shlist:
content[section.offset:section.offset + section.rawsize] = bytes(section.data)
# fix image size
section_last = self.SHList.shlist[-1]
size = section_last.addr + section_last.size + (self.NThdr.sectionalignment - 1)
size &= ~(self.NThdr.sectionalignment - 1)
self.NThdr.sizeofimage = size
off = self.Doshdr.lfanew
content[off] = bytes(self.NTsig)
off += len(self.NTsig)
content[off] = bytes(self.Coffhdr)
off += len(self.Coffhdr)
off_shlist = off + self.Coffhdr.sizeofoptionalheader
content[off] = bytes(self.Opthdr)
off += len(self.Opthdr)
content[off] = bytes(self.NThdr)
off += len(self.NThdr)
# content[off] = bytes(self.Optehdr)
off = off_shlist
content[off] = bytes(self.SHList)
for section in self.SHList:
if off + len(bytes(self.SHList)) > section.offset:
log.warn("section offset overlap pe hdr 0x%x 0x%x" %
(off + len(bytes(self.SHList)), section.offset))
self.DirImport.build_content(content)
self.DirExport.build_content(content)
self.DirDelay.build_content(content)
self.DirReloc.build_content(content)
self.DirRes.build_content(content)
self.DirTls.build_content(content)
if (self.Doshdr.lfanew + len(self.NTsig) + len(self.Coffhdr)) % 4:
log.warn("non aligned coffhdr, bad crc calculation")
crcs = compute_crc(bytes(content), self.NThdr.CheckSum)
content[self.Doshdr.lfanew + len(self.NTsig) + len(self.Coffhdr) + 64] = struct.pack('I', crcs)
return bytes(content)
def __bytes__(self):
return self.build_content()
def __str__(self):
if PY3:
return repr(self)
return self.__bytes__()
def export_funcs(self):
if self.DirExport is None:
print('no export dir found')
return None, None
all_func = {}
for i, export in enumerate(self.DirExport.f_names):
all_func[export.name.name] = self.rva2virt(
self.DirExport.f_address[self.DirExport.f_nameordinals[i].ordinal].rva)
all_func[self.DirExport.f_nameordinals[i].ordinal + self.DirExport.expdesc.base] = self.rva2virt(
self.DirExport.f_address[self.DirExport.f_nameordinals[i].ordinal].rva)
# XXX todo: test if redirected export
return all_func
def reloc_to(self, imgbase):
offset = imgbase - self.NThdr.ImageBase
if self.DirReloc is None:
log.warn('no relocation found!')
for rel in self.DirReloc.reldesc:
rva = rel.rva
for reloc in rel.rels:
reloc_type, off = reloc.rel
if reloc_type == 0 and off == 0:
continue
if reloc_type != 3:
raise NotImplementedError('Reloc type not supported')
off += rva
value = struct.unpack('I', self.rva.get(off, off + 4))[0]
value += offset
self.rva.set(off, struct.pack('I', value & 0xFFFFFFFF))
self.NThdr.ImageBase = imgbase
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