pyew 2.0-3 / usr / share / pyshared / pyew / pefile.py

#!/usr/bin/python
# -*- coding: Latin-1 -*-
"""pefile, Portable Executable reader module


All the PE file basic structures are available with their default names
as attributes of the instance returned.

Processed elements such as the import table are made available with lowercase
names, to differentiate them from the upper case basic structure names.

pefile has been tested against the limits of valid PE headers, that is, malware.
Lots of packed malware attempt to abuse the format way beyond its standard use.
To the best of my knowledge most of the abuses are handled gracefully.

Copyright (c) 2005, 2006, 2007, 2008, 2009 Ero Carrera <ero@dkbza.org>

All rights reserved.

For detailed copyright information see the file COPYING in
the root of the distribution archive.
"""

__revision__ = "$LastChangedRevision: 76 $"
__author__ = 'Ero Carrera'
__version__ = '1.2.10-%d' % int( __revision__[21:-2] )
__contact__ = 'ero@dkbza.org'


import os
import struct
import time
import math
import re
import exceptions
import string
import array

sha1, sha256, sha512, md5 = None, None, None, None

try:
    import hashlib
    sha1 = hashlib.sha1
    sha256 = hashlib.sha256
    sha512 = hashlib.sha512
    md5 = hashlib.md5
except ImportError:
    try:
        import sha
        sha1 = sha.new
    except ImportError:
        pass
    try:
        import md5
        md5 = md5.new
    except ImportError:
        pass


fast_load = False

IMAGE_DOS_SIGNATURE             = 0x5A4D
IMAGE_OS2_SIGNATURE             = 0x454E
IMAGE_OS2_SIGNATURE_LE          = 0x454C
IMAGE_VXD_SIGNATURE             = 0x454C
IMAGE_NT_SIGNATURE              = 0x00004550
IMAGE_NUMBEROF_DIRECTORY_ENTRIES= 16
IMAGE_ORDINAL_FLAG              = 0x80000000L
IMAGE_ORDINAL_FLAG64            = 0x8000000000000000L
OPTIONAL_HEADER_MAGIC_PE        = 0x10b
OPTIONAL_HEADER_MAGIC_PE_PLUS   = 0x20b


directory_entry_types = [
    ('IMAGE_DIRECTORY_ENTRY_EXPORT',        0),
    ('IMAGE_DIRECTORY_ENTRY_IMPORT',        1),
    ('IMAGE_DIRECTORY_ENTRY_RESOURCE',      2),
    ('IMAGE_DIRECTORY_ENTRY_EXCEPTION',     3),
    ('IMAGE_DIRECTORY_ENTRY_SECURITY',      4),
    ('IMAGE_DIRECTORY_ENTRY_BASERELOC',     5),
    ('IMAGE_DIRECTORY_ENTRY_DEBUG',         6),
    ('IMAGE_DIRECTORY_ENTRY_COPYRIGHT',     7),
    ('IMAGE_DIRECTORY_ENTRY_GLOBALPTR',     8),
    ('IMAGE_DIRECTORY_ENTRY_TLS',           9),
    ('IMAGE_DIRECTORY_ENTRY_LOAD_CONFIG',   10),
    ('IMAGE_DIRECTORY_ENTRY_BOUND_IMPORT',  11),
    ('IMAGE_DIRECTORY_ENTRY_IAT',           12),
    ('IMAGE_DIRECTORY_ENTRY_DELAY_IMPORT',  13),
    ('IMAGE_DIRECTORY_ENTRY_COM_DESCRIPTOR',14),
    ('IMAGE_DIRECTORY_ENTRY_RESERVED',      15) ]

DIRECTORY_ENTRY = dict([(e[1], e[0]) for e in directory_entry_types]+directory_entry_types)


image_characteristics = [
    ('IMAGE_FILE_RELOCS_STRIPPED',          0x0001),
    ('IMAGE_FILE_EXECUTABLE_IMAGE',         0x0002),
    ('IMAGE_FILE_LINE_NUMS_STRIPPED',       0x0004),
    ('IMAGE_FILE_LOCAL_SYMS_STRIPPED',      0x0008),
    ('IMAGE_FILE_AGGRESIVE_WS_TRIM',        0x0010),
    ('IMAGE_FILE_LARGE_ADDRESS_AWARE',      0x0020),
    ('IMAGE_FILE_16BIT_MACHINE',            0x0040),
    ('IMAGE_FILE_BYTES_REVERSED_LO',        0x0080),
    ('IMAGE_FILE_32BIT_MACHINE',            0x0100),
    ('IMAGE_FILE_DEBUG_STRIPPED',           0x0200),
    ('IMAGE_FILE_REMOVABLE_RUN_FROM_SWAP',  0x0400),
    ('IMAGE_FILE_NET_RUN_FROM_SWAP',        0x0800),
    ('IMAGE_FILE_SYSTEM',                   0x1000),
    ('IMAGE_FILE_DLL',                      0x2000),
    ('IMAGE_FILE_UP_SYSTEM_ONLY',           0x4000),
    ('IMAGE_FILE_BYTES_REVERSED_HI',        0x8000) ]

IMAGE_CHARACTERISTICS = dict([(e[1], e[0]) for e in
    image_characteristics]+image_characteristics)
    

section_characteristics = [
    ('IMAGE_SCN_CNT_CODE',                  0x00000020),
    ('IMAGE_SCN_CNT_INITIALIZED_DATA',      0x00000040),
    ('IMAGE_SCN_CNT_UNINITIALIZED_DATA',    0x00000080),
    ('IMAGE_SCN_LNK_OTHER',                 0x00000100),
    ('IMAGE_SCN_LNK_INFO',                  0x00000200),
    ('IMAGE_SCN_LNK_REMOVE',                0x00000800),
    ('IMAGE_SCN_LNK_COMDAT',                0x00001000),
    ('IMAGE_SCN_MEM_FARDATA',               0x00008000),
    ('IMAGE_SCN_MEM_PURGEABLE',             0x00020000),
    ('IMAGE_SCN_MEM_16BIT',                 0x00020000),
    ('IMAGE_SCN_MEM_LOCKED',                0x00040000),
    ('IMAGE_SCN_MEM_PRELOAD',               0x00080000),
    ('IMAGE_SCN_ALIGN_1BYTES',              0x00100000),
    ('IMAGE_SCN_ALIGN_2BYTES',              0x00200000),
    ('IMAGE_SCN_ALIGN_4BYTES',              0x00300000),
    ('IMAGE_SCN_ALIGN_8BYTES',              0x00400000),
    ('IMAGE_SCN_ALIGN_16BYTES',             0x00500000),
    ('IMAGE_SCN_ALIGN_32BYTES',             0x00600000),
    ('IMAGE_SCN_ALIGN_64BYTES',             0x00700000),
    ('IMAGE_SCN_ALIGN_128BYTES',            0x00800000),
    ('IMAGE_SCN_ALIGN_256BYTES',            0x00900000),
    ('IMAGE_SCN_ALIGN_512BYTES',            0x00A00000),
    ('IMAGE_SCN_ALIGN_1024BYTES',           0x00B00000),
    ('IMAGE_SCN_ALIGN_2048BYTES',           0x00C00000),
    ('IMAGE_SCN_ALIGN_4096BYTES',           0x00D00000),
    ('IMAGE_SCN_ALIGN_8192BYTES',           0x00E00000),
    ('IMAGE_SCN_ALIGN_MASK',                0x00F00000),
    ('IMAGE_SCN_LNK_NRELOC_OVFL',           0x01000000),
    ('IMAGE_SCN_MEM_DISCARDABLE',           0x02000000),
    ('IMAGE_SCN_MEM_NOT_CACHED',            0x04000000),
    ('IMAGE_SCN_MEM_NOT_PAGED',             0x08000000),
    ('IMAGE_SCN_MEM_SHARED',                0x10000000),
    ('IMAGE_SCN_MEM_EXECUTE',               0x20000000),
    ('IMAGE_SCN_MEM_READ',                  0x40000000),
    ('IMAGE_SCN_MEM_WRITE',                 0x80000000L) ]

SECTION_CHARACTERISTICS = dict([(e[1], e[0]) for e in
    section_characteristics]+section_characteristics)


debug_types = [
    ('IMAGE_DEBUG_TYPE_UNKNOWN',        0),
    ('IMAGE_DEBUG_TYPE_COFF',           1),
    ('IMAGE_DEBUG_TYPE_CODEVIEW',       2),
    ('IMAGE_DEBUG_TYPE_FPO',            3),
    ('IMAGE_DEBUG_TYPE_MISC',           4),
    ('IMAGE_DEBUG_TYPE_EXCEPTION',      5),
    ('IMAGE_DEBUG_TYPE_FIXUP',          6),
    ('IMAGE_DEBUG_TYPE_OMAP_TO_SRC',    7),
    ('IMAGE_DEBUG_TYPE_OMAP_FROM_SRC',  8),
    ('IMAGE_DEBUG_TYPE_BORLAND',        9),
    ('IMAGE_DEBUG_TYPE_RESERVED10',     10) ]

DEBUG_TYPE = dict([(e[1], e[0]) for e in debug_types]+debug_types)


subsystem_types = [
    ('IMAGE_SUBSYSTEM_UNKNOWN',     0),
    ('IMAGE_SUBSYSTEM_NATIVE',      1),
    ('IMAGE_SUBSYSTEM_WINDOWS_GUI', 2),
    ('IMAGE_SUBSYSTEM_WINDOWS_CUI', 3),
    ('IMAGE_SUBSYSTEM_OS2_CUI',     5),
    ('IMAGE_SUBSYSTEM_POSIX_CUI',   7),
    ('IMAGE_SUBSYSTEM_WINDOWS_CE_GUI',  9),
    ('IMAGE_SUBSYSTEM_EFI_APPLICATION', 10),
    ('IMAGE_SUBSYSTEM_EFI_BOOT_SERVICE_DRIVER', 11),
    ('IMAGE_SUBSYSTEM_EFI_RUNTIME_DRIVER',      12),
    ('IMAGE_SUBSYSTEM_EFI_ROM',     13),
    ('IMAGE_SUBSYSTEM_XBOX',        14)]

SUBSYSTEM_TYPE = dict([(e[1], e[0]) for e in subsystem_types]+subsystem_types)


machine_types = [
    ('IMAGE_FILE_MACHINE_UNKNOWN',  0),
    ('IMAGE_FILE_MACHINE_AM33',     0x1d3),
    ('IMAGE_FILE_MACHINE_AMD64',    0x8664),
    ('IMAGE_FILE_MACHINE_ARM',      0x1c0),
    ('IMAGE_FILE_MACHINE_EBC',      0xebc),
    ('IMAGE_FILE_MACHINE_I386',     0x14c),
    ('IMAGE_FILE_MACHINE_IA64',     0x200),
    ('IMAGE_FILE_MACHINE_MR32',     0x9041),
    ('IMAGE_FILE_MACHINE_MIPS16',   0x266),
    ('IMAGE_FILE_MACHINE_MIPSFPU',  0x366),
    ('IMAGE_FILE_MACHINE_MIPSFPU16',0x466),
    ('IMAGE_FILE_MACHINE_POWERPC',  0x1f0),
    ('IMAGE_FILE_MACHINE_POWERPCFP',0x1f1),
    ('IMAGE_FILE_MACHINE_R4000',    0x166),
    ('IMAGE_FILE_MACHINE_SH3',      0x1a2),
    ('IMAGE_FILE_MACHINE_SH3DSP',   0x1a3),
    ('IMAGE_FILE_MACHINE_SH4',      0x1a6),
    ('IMAGE_FILE_MACHINE_SH5',      0x1a8),
    ('IMAGE_FILE_MACHINE_THUMB',    0x1c2),
    ('IMAGE_FILE_MACHINE_WCEMIPSV2',0x169),
 ]

MACHINE_TYPE = dict([(e[1], e[0]) for e in machine_types]+machine_types)


relocation_types = [
    ('IMAGE_REL_BASED_ABSOLUTE',        0),
    ('IMAGE_REL_BASED_HIGH',            1),
    ('IMAGE_REL_BASED_LOW',             2),
    ('IMAGE_REL_BASED_HIGHLOW',         3),
    ('IMAGE_REL_BASED_HIGHADJ',         4),
    ('IMAGE_REL_BASED_MIPS_JMPADDR',    5),
    ('IMAGE_REL_BASED_SECTION',         6),
    ('IMAGE_REL_BASED_REL',             7),
    ('IMAGE_REL_BASED_MIPS_JMPADDR16',  9),
    ('IMAGE_REL_BASED_IA64_IMM64',      9),
    ('IMAGE_REL_BASED_DIR64',           10),
    ('IMAGE_REL_BASED_HIGH3ADJ',        11) ]

RELOCATION_TYPE = dict([(e[1], e[0]) for e in relocation_types]+relocation_types)


dll_characteristics = [
    ('IMAGE_DLL_CHARACTERISTICS_RESERVED_0x0001', 0x0001),
    ('IMAGE_DLL_CHARACTERISTICS_RESERVED_0x0002', 0x0002),
    ('IMAGE_DLL_CHARACTERISTICS_RESERVED_0x0004', 0x0004),
    ('IMAGE_DLL_CHARACTERISTICS_RESERVED_0x0008', 0x0008),
    ('IMAGE_DLL_CHARACTERISTICS_DYNAMIC_BASE',      0x0040),
    ('IMAGE_DLL_CHARACTERISTICS_FORCE_INTEGRITY',   0x0080),
    ('IMAGE_DLL_CHARACTERISTICS_NX_COMPAT',         0x0100),
    ('IMAGE_DLL_CHARACTERISTICS_NO_ISOLATION',      0x0200),
    ('IMAGE_DLL_CHARACTERISTICS_NO_SEH',    0x0400),
    ('IMAGE_DLL_CHARACTERISTICS_NO_BIND',   0x0800),
    ('IMAGE_DLL_CHARACTERISTICS_RESERVED_0x1000', 0x1000),
    ('IMAGE_DLL_CHARACTERISTICS_WDM_DRIVER',    0x2000),
    ('IMAGE_DLL_CHARACTERISTICS_TERMINAL_SERVER_AWARE', 0x8000) ]

DLL_CHARACTERISTICS = dict([(e[1], e[0]) for e in dll_characteristics]+dll_characteristics)


# Resource types
resource_type = [
    ('RT_CURSOR',          1),
    ('RT_BITMAP',          2),
    ('RT_ICON',            3),
    ('RT_MENU',            4),
    ('RT_DIALOG',          5),
    ('RT_STRING',          6),
    ('RT_FONTDIR',         7),
    ('RT_FONT',            8),
    ('RT_ACCELERATOR',     9),
    ('RT_RCDATA',          10),
    ('RT_MESSAGETABLE',    11),
    ('RT_GROUP_CURSOR',    12),
    ('RT_GROUP_ICON',      14),
    ('RT_VERSION',         16),
    ('RT_DLGINCLUDE',      17),
    ('RT_PLUGPLAY',        19),
    ('RT_VXD',             20),
    ('RT_ANICURSOR',       21),
    ('RT_ANIICON',         22),
    ('RT_HTML',            23),
    ('RT_MANIFEST',        24) ]

RESOURCE_TYPE = dict([(e[1], e[0]) for e in resource_type]+resource_type)
    

# Language definitions
lang = [
 ('LANG_NEUTRAL',       0x00),
 ('LANG_INVARIANT',     0x7f),
 ('LANG_AFRIKAANS',     0x36),
 ('LANG_ALBANIAN',      0x1c),
 ('LANG_ARABIC',        0x01),
 ('LANG_ARMENIAN',      0x2b),
 ('LANG_ASSAMESE',      0x4d),
 ('LANG_AZERI',         0x2c),
 ('LANG_BASQUE',        0x2d),
 ('LANG_BELARUSIAN',    0x23),
 ('LANG_BENGALI',       0x45),
 ('LANG_BULGARIAN',     0x02),
 ('LANG_CATALAN',       0x03),
 ('LANG_CHINESE',       0x04),
 ('LANG_CROATIAN',      0x1a),
 ('LANG_CZECH',         0x05),
 ('LANG_DANISH',        0x06),
 ('LANG_DIVEHI',        0x65),
 ('LANG_DUTCH',         0x13),
 ('LANG_ENGLISH',       0x09),
 ('LANG_ESTONIAN',      0x25),
 ('LANG_FAEROESE',      0x38),
 ('LANG_FARSI',         0x29),
 ('LANG_FINNISH',       0x0b),
 ('LANG_FRENCH',        0x0c),
 ('LANG_GALICIAN',      0x56),
 ('LANG_GEORGIAN',      0x37),
 ('LANG_GERMAN',        0x07),
 ('LANG_GREEK',         0x08),
 ('LANG_GUJARATI',      0x47),
 ('LANG_HEBREW',        0x0d),
 ('LANG_HINDI',         0x39),
 ('LANG_HUNGARIAN',     0x0e),
 ('LANG_ICELANDIC',     0x0f),
 ('LANG_INDONESIAN',    0x21),
 ('LANG_ITALIAN',       0x10),
 ('LANG_JAPANESE',      0x11),
 ('LANG_KANNADA',       0x4b),
 ('LANG_KASHMIRI',      0x60),
 ('LANG_KAZAK',         0x3f),
 ('LANG_KONKANI',       0x57),
 ('LANG_KOREAN',        0x12),
 ('LANG_KYRGYZ',        0x40),
 ('LANG_LATVIAN',       0x26),
 ('LANG_LITHUANIAN',    0x27),
 ('LANG_MACEDONIAN',    0x2f),
 ('LANG_MALAY',         0x3e),
 ('LANG_MALAYALAM',     0x4c),
 ('LANG_MANIPURI',      0x58),
 ('LANG_MARATHI',       0x4e),
 ('LANG_MONGOLIAN',     0x50),
 ('LANG_NEPALI',        0x61),
 ('LANG_NORWEGIAN',     0x14),
 ('LANG_ORIYA',         0x48),
 ('LANG_POLISH',        0x15),
 ('LANG_PORTUGUESE',    0x16),
 ('LANG_PUNJABI',       0x46),
 ('LANG_ROMANIAN',      0x18),
 ('LANG_RUSSIAN',       0x19),
 ('LANG_SANSKRIT',      0x4f),
 ('LANG_SERBIAN',       0x1a),
 ('LANG_SINDHI',        0x59),
 ('LANG_SLOVAK',        0x1b),
 ('LANG_SLOVENIAN',     0x24),
 ('LANG_SPANISH',       0x0a),
 ('LANG_SWAHILI',       0x41),
 ('LANG_SWEDISH',       0x1d),
 ('LANG_SYRIAC',        0x5a),
 ('LANG_TAMIL',         0x49),
 ('LANG_TATAR',         0x44),
 ('LANG_TELUGU',        0x4a),
 ('LANG_THAI',          0x1e),
 ('LANG_TURKISH',       0x1f),
 ('LANG_UKRAINIAN',     0x22),
 ('LANG_URDU',          0x20),
 ('LANG_UZBEK',         0x43),
 ('LANG_VIETNAMESE',    0x2a),
 ('LANG_GAELIC',        0x3c),
 ('LANG_MALTESE',       0x3a),
 ('LANG_MAORI',         0x28),
 ('LANG_RHAETO_ROMANCE',0x17),
 ('LANG_SAAMI',         0x3b),
 ('LANG_SORBIAN',       0x2e),
 ('LANG_SUTU',          0x30),
 ('LANG_TSONGA',        0x31),
 ('LANG_TSWANA',        0x32),
 ('LANG_VENDA',         0x33),
 ('LANG_XHOSA',         0x34),
 ('LANG_ZULU',          0x35),
 ('LANG_ESPERANTO',     0x8f),
 ('LANG_WALON',         0x90),
 ('LANG_CORNISH',       0x91),
 ('LANG_WELSH',         0x92),
 ('LANG_BRETON',        0x93) ]

LANG = dict(lang+[(e[1], e[0]) for e in lang])


# Sublanguage definitions
sublang =  [
 ('SUBLANG_NEUTRAL',                        0x00),
 ('SUBLANG_DEFAULT',                        0x01),
 ('SUBLANG_SYS_DEFAULT',                    0x02),
 ('SUBLANG_ARABIC_SAUDI_ARABIA',            0x01),
 ('SUBLANG_ARABIC_IRAQ',                    0x02),
 ('SUBLANG_ARABIC_EGYPT',                   0x03),
 ('SUBLANG_ARABIC_LIBYA',                   0x04),
 ('SUBLANG_ARABIC_ALGERIA',                 0x05),
 ('SUBLANG_ARABIC_MOROCCO',                 0x06),
 ('SUBLANG_ARABIC_TUNISIA',                 0x07),
 ('SUBLANG_ARABIC_OMAN',                    0x08),
 ('SUBLANG_ARABIC_YEMEN',                   0x09),
 ('SUBLANG_ARABIC_SYRIA',                   0x0a),
 ('SUBLANG_ARABIC_JORDAN',                  0x0b),
 ('SUBLANG_ARABIC_LEBANON',                 0x0c),
 ('SUBLANG_ARABIC_KUWAIT',                  0x0d),
 ('SUBLANG_ARABIC_UAE',                     0x0e),
 ('SUBLANG_ARABIC_BAHRAIN',                 0x0f),
 ('SUBLANG_ARABIC_QATAR',                   0x10),
 ('SUBLANG_AZERI_LATIN',                    0x01),
 ('SUBLANG_AZERI_CYRILLIC',                 0x02),
 ('SUBLANG_CHINESE_TRADITIONAL',            0x01),
 ('SUBLANG_CHINESE_SIMPLIFIED',             0x02),
 ('SUBLANG_CHINESE_HONGKONG',               0x03),
 ('SUBLANG_CHINESE_SINGAPORE',              0x04),
 ('SUBLANG_CHINESE_MACAU',                  0x05),
 ('SUBLANG_DUTCH',                          0x01),
 ('SUBLANG_DUTCH_BELGIAN',                  0x02),
 ('SUBLANG_ENGLISH_US',                     0x01),
 ('SUBLANG_ENGLISH_UK',                     0x02),
 ('SUBLANG_ENGLISH_AUS',                    0x03),
 ('SUBLANG_ENGLISH_CAN',                    0x04),
 ('SUBLANG_ENGLISH_NZ',                     0x05),
 ('SUBLANG_ENGLISH_EIRE',                   0x06),
 ('SUBLANG_ENGLISH_SOUTH_AFRICA',           0x07),
 ('SUBLANG_ENGLISH_JAMAICA',                0x08),
 ('SUBLANG_ENGLISH_CARIBBEAN',              0x09),
 ('SUBLANG_ENGLISH_BELIZE',                 0x0a),
 ('SUBLANG_ENGLISH_TRINIDAD',               0x0b),
 ('SUBLANG_ENGLISH_ZIMBABWE',               0x0c),
 ('SUBLANG_ENGLISH_PHILIPPINES',            0x0d),
 ('SUBLANG_FRENCH',                         0x01),
 ('SUBLANG_FRENCH_BELGIAN',                 0x02),
 ('SUBLANG_FRENCH_CANADIAN',                0x03),
 ('SUBLANG_FRENCH_SWISS',                   0x04),
 ('SUBLANG_FRENCH_LUXEMBOURG',              0x05),
 ('SUBLANG_FRENCH_MONACO',                  0x06),
 ('SUBLANG_GERMAN',                         0x01),
 ('SUBLANG_GERMAN_SWISS',                   0x02),
 ('SUBLANG_GERMAN_AUSTRIAN',                0x03),
 ('SUBLANG_GERMAN_LUXEMBOURG',              0x04),
 ('SUBLANG_GERMAN_LIECHTENSTEIN',           0x05),
 ('SUBLANG_ITALIAN',                        0x01),
 ('SUBLANG_ITALIAN_SWISS',                  0x02),
 ('SUBLANG_KASHMIRI_SASIA',                 0x02),
 ('SUBLANG_KASHMIRI_INDIA',                 0x02),
 ('SUBLANG_KOREAN',                         0x01),
 ('SUBLANG_LITHUANIAN',                     0x01),
 ('SUBLANG_MALAY_MALAYSIA',                 0x01),
 ('SUBLANG_MALAY_BRUNEI_DARUSSALAM',        0x02),
 ('SUBLANG_NEPALI_INDIA',                   0x02),
 ('SUBLANG_NORWEGIAN_BOKMAL',               0x01),
 ('SUBLANG_NORWEGIAN_NYNORSK',              0x02),
 ('SUBLANG_PORTUGUESE',                     0x02),
 ('SUBLANG_PORTUGUESE_BRAZILIAN',           0x01),
 ('SUBLANG_SERBIAN_LATIN',                  0x02),
 ('SUBLANG_SERBIAN_CYRILLIC',               0x03),
 ('SUBLANG_SPANISH',                        0x01),
 ('SUBLANG_SPANISH_MEXICAN',                0x02),
 ('SUBLANG_SPANISH_MODERN',                 0x03),
 ('SUBLANG_SPANISH_GUATEMALA',              0x04),
 ('SUBLANG_SPANISH_COSTA_RICA',             0x05),
 ('SUBLANG_SPANISH_PANAMA',                 0x06),
 ('SUBLANG_SPANISH_DOMINICAN_REPUBLIC',     0x07),
 ('SUBLANG_SPANISH_VENEZUELA',              0x08),
 ('SUBLANG_SPANISH_COLOMBIA',               0x09),
 ('SUBLANG_SPANISH_PERU',                   0x0a),
 ('SUBLANG_SPANISH_ARGENTINA',              0x0b),
 ('SUBLANG_SPANISH_ECUADOR',                0x0c),
 ('SUBLANG_SPANISH_CHILE',                  0x0d),
 ('SUBLANG_SPANISH_URUGUAY',                0x0e),
 ('SUBLANG_SPANISH_PARAGUAY',               0x0f),
 ('SUBLANG_SPANISH_BOLIVIA',                0x10),
 ('SUBLANG_SPANISH_EL_SALVADOR',            0x11),
 ('SUBLANG_SPANISH_HONDURAS',               0x12),
 ('SUBLANG_SPANISH_NICARAGUA',              0x13),
 ('SUBLANG_SPANISH_PUERTO_RICO',            0x14),
 ('SUBLANG_SWEDISH',                        0x01),
 ('SUBLANG_SWEDISH_FINLAND',                0x02),
 ('SUBLANG_URDU_PAKISTAN',                  0x01),
 ('SUBLANG_URDU_INDIA',                     0x02),
 ('SUBLANG_UZBEK_LATIN',                    0x01),
 ('SUBLANG_UZBEK_CYRILLIC',                 0x02),
 ('SUBLANG_DUTCH_SURINAM',                  0x03),
 ('SUBLANG_ROMANIAN',                       0x01),
 ('SUBLANG_ROMANIAN_MOLDAVIA',              0x02),
 ('SUBLANG_RUSSIAN',                        0x01),
 ('SUBLANG_RUSSIAN_MOLDAVIA',               0x02),
 ('SUBLANG_CROATIAN',                       0x01),
 ('SUBLANG_LITHUANIAN_CLASSIC',             0x02),
 ('SUBLANG_GAELIC',                         0x01),
 ('SUBLANG_GAELIC_SCOTTISH',                0x02),
 ('SUBLANG_GAELIC_MANX',                    0x03) ]

SUBLANG = dict(sublang+[(e[1], e[0]) for e in sublang])


class UnicodeStringWrapperPostProcessor:
    """This class attempts to help the process of identifying strings
    that might be plain Unicode or Pascal. A list of strings will be
    wrapped on it with the hope the overlappings will help make the
    decision about their type."""
    
    def __init__(self, pe, rva_ptr):
        self.pe = pe
        self.rva_ptr = rva_ptr
        self.string = None
        
    
    def get_rva(self):
        """Get the RVA of the string."""
        
        return self.rva_ptr
        
    
    def __str__(self):
        """Return the escaped ASCII representation of the string."""
        
        def convert_char(char):
            if char in string.printable:
                return char
            else:
                return r'\x%02x' % ord(char)
        
        if self.string:
            return ''.join([convert_char(c) for c in self.string])
        
        return ''
        
    
    def invalidate(self):
        """Make this instance None, to express it's no known string type."""
        
        self = None
        
    
    def render_pascal_16(self):
        
        self.string = self.pe.get_string_u_at_rva(
            self.rva_ptr+2,
            max_length=self.__get_pascal_16_length())
        
    
    def ask_pascal_16(self, next_rva_ptr):
        """The next RVA is taken to be the one immediately following this one.
        
        Such RVA could indicate the natural end of the string and will be checked
        with the possible length contained in the first word.
        """
        
        length = self.__get_pascal_16_length()
        
        if length == (next_rva_ptr - (self.rva_ptr+2)) / 2:
            self.length = length
            return True
        
        return False
        
    
    def __get_pascal_16_length(self):
        
        return self.__get_word_value_at_rva(self.rva_ptr)
        
    
    def __get_word_value_at_rva(self, rva):
        
        try:
            data = self.pe.get_data(self.rva_ptr, 2)
        except PEFormatError, e:
            return False
        
        if len(data)<2:
            return False
        
        return struct.unpack('<H', data)[0]
        
    
    #def render_pascal_8(self):
    #    """"""
        
    
    def ask_unicode_16(self, next_rva_ptr):
        """The next RVA is taken to be the one immediately following this one.
        
        Such RVA could indicate the natural end of the string and will be checked
        to see if there's a Unicode NULL character there.
        """
        
        if self.__get_word_value_at_rva(next_rva_ptr-2) == 0:
            self.length = next_rva_ptr - self.rva_ptr
            return True
        
        return False
        
    
    def render_unicode_16(self):
        """"""
        
        self.string = self.pe.get_string_u_at_rva(self.rva_ptr)
    

class PEFormatError(Exception):
    """Generic PE format error exception."""
    
    def __init__(self, value):
        self.value = value
    
    def __str__(self):
        return repr(self.value)


class Dump:
    """Convenience class for dumping the PE information."""
    
    def __init__(self):
        self.text = list()
        
    
    def add_lines(self, txt, indent=0):
        """Adds a list of lines.
        
        The list can be indented with the optional argument 'indent'.
        """
        for line in txt:
            self.add_line(line, indent)
            
    
    def add_line(self, txt, indent=0):
        """Adds a line.
        
        The line can be indented with the optional argument 'indent'.
        """
        
        self.add(txt+'\n', indent)
        
    
    def add(self, txt, indent=0):
        """Adds some text, no newline will be appended.
        
        The text can be indented with the optional argument 'indent'.
        """
        
        if isinstance(txt, unicode):
            try:
                txt = str(txt)
            except UnicodeEncodeError:
                s = []
                for c in txt:
                    try:
                        s.append(str(c))
                    except UnicodeEncodeError:
                        s.append(repr(c))
                
                txt = ''.join(s)
        
        self.text.append( ' '*indent + txt )
        
    
    def add_header(self, txt):
        """Adds a header element."""
        
        self.add_line('-'*10+txt+'-'*10+'\n')
        
    
    def add_newline(self):
        """Adds a newline."""
        
        self.text.append( '\n' )
        
    
    def get_text(self):
        """Get the text in its current state."""
        
        return ''.join( self.text )


STRUCT_SIZEOF_TYPES = {
    'x': 1, 'c': 1, 'b': 1, 'B': 1, 
    'h': 2, 'H': 2, 
    'i': 4, 'I': 4, 'l': 4, 'L': 4, 'f': 4,
    'q': 8, 'Q': 8, 'd': 8,
    's': 1 }

class Structure:
    """Prepare structure object to extract members from data.
    
    Format is a list containing definitions for the elements
    of the structure.
    """
    
    
    def __init__(self, format, name=None, file_offset=None):
        # Format is forced little endian, for big endian non Intel platforms
        self.__format__ = '<'
        self.__keys__ = []
        #self.values = {}
        self.__format_length__ = 0
        self.__field_offsets__ = dict()
        self.__set_format__(format[1])
        self.__all_zeroes__ = False
        self.__unpacked_data_elms__ = None
        self.__file_offset__ = file_offset
        if name:
            self.name = name
        else:
            self.name = format[0]
            
    
    def __get_format__(self):
        return self.__format__
        
    def get_field_absolute_offset(self, field_name):
        """Return the offset within the field for the requested field in the structure."""
        return self.__file_offset__ + self.__field_offsets__[field_name]

    def get_field_relative_offset(self, field_name):
        """Return the offset within the structure for the requested field."""
        return self.__field_offsets__[field_name]
    
    def get_file_offset(self):
        return self.__file_offset__
    
    def set_file_offset(self, offset):
        self.__file_offset__ = offset
    
    def all_zeroes(self):
        """Returns true is the unpacked data is all zeroes."""
        
        return self.__all_zeroes__
                
    def sizeof_type(self, t):
        count = 1
        _t = t
        if t[0] in string.digits:
            # extract the count
            count = int( ''.join([d for d in t if d in string.digits]) )
            _t = ''.join([d for d in t if d not in string.digits])
        return STRUCT_SIZEOF_TYPES[_t] * count
    
    def __set_format__(self, format):
        
        offset = 0
        for elm in format:
            if ',' in elm:
                elm_type, elm_name = elm.split(',', 1)
                self.__format__ += elm_type
                
                elm_names = elm_name.split(',')
                names = []
                for elm_name in elm_names:
                    if elm_name in self.__keys__:
                        search_list = [x[:len(elm_name)] for x in self.__keys__]
                        occ_count = search_list.count(elm_name)
                        elm_name = elm_name+'_'+str(occ_count)
                    names.append(elm_name)
                    self.__field_offsets__[elm_name] = offset

                offset += self.sizeof_type(elm_type)

                # Some PE header structures have unions on them, so a certain
                # value might have different names, so each key has a list of
                # all the possible members referring to the data.
                self.__keys__.append(names)
        
        self.__format_length__ = struct.calcsize(self.__format__)
        
    
    def sizeof(self):
        """Return size of the structure."""
        
        return self.__format_length__
        
    
    def __unpack__(self, data):
        
        if len(data) > self.__format_length__:
            data = data[:self.__format_length__]
        
        # OC Patch:
        # Some malware have incorrect header lengths.
        # Fail gracefully if this occurs
        # Buggy malware: a29b0118af8b7408444df81701ad5a7f
        #
        elif len(data)<self.__format_length__:
            raise PEFormatError('Data length less than expected header length.')
            
        
        if data.count(chr(0)) == len(data):
            self.__all_zeroes__ = True
        
        self.__unpacked_data_elms__ = struct.unpack(self.__format__, data)
        for i in xrange(len(self.__unpacked_data_elms__)):
            for key in self.__keys__[i]:
                #self.values[key] = self.__unpacked_data_elms__[i]
                setattr(self, key, self.__unpacked_data_elms__[i])
    
    
    def __pack__(self):
        
        new_values = []
        
        for i in xrange(len(self.__unpacked_data_elms__)):
            
            for key in self.__keys__[i]:
                new_val = getattr(self, key)
                old_val = self.__unpacked_data_elms__[i]
                
                # In the case of Unions, when the first changed value
                # is picked the loop is exited
                if new_val != old_val:
                    break
            
            new_values.append(new_val)
        
        return struct.pack(self.__format__, *new_values)
                
    
    def __str__(self):
        return '\n'.join( self.dump() )
    
    def __repr__(self):
        return '<Structure: %s>' % (' '.join( [' '.join(s.split()) for s in self.dump()] ))
        
    
    def dump(self, indentation=0):
        """Returns a string representation of the structure."""
        
        dump = []
        
        dump.append('[%s]' % self.name)
        
        # Refer to the __set_format__ method for an explanation
        # of the following construct.
        for keys in self.__keys__:
            for key in keys:
                
                val = getattr(self, key)
                if isinstance(val, int) or isinstance(val, long):
                    val_str = '0x%-8X' % (val)
                    if key == 'TimeDateStamp' or key == 'dwTimeStamp':
                        try:
                            val_str += ' [%s UTC]' % time.asctime(time.gmtime(val))
                        except exceptions.ValueError, e:
                            val_str += ' [INVALID TIME]'
                else:
                    val_str = ''.join(filter(lambda c:c != '\0', str(val)))
                
                dump.append('0x%-8X 0x%-3X %-30s %s' % (
                    self.__field_offsets__[key] + self.__file_offset__, 
                    self.__field_offsets__[key], key+':', val_str))
        
        return dump



class SectionStructure(Structure):
    """Convenience section handling class."""
    
    def get_data(self, start, length=None):
        """Get data chunk from a section.
        
        Allows to query data from the section by passing the
        addresses where the PE file would be loaded by default.
        It is then possible to retrieve code and data by its real
        addresses as it would be if loaded.
        """
        
        offset = start - self.VirtualAddress
        
        if length:
            end = offset+length
        else:
            end = len(self.data)
        
        return self.data[offset:end]
    
    
    def get_rva_from_offset(self, offset):
        return offset - self.PointerToRawData + self.VirtualAddress
    
    
    def get_offset_from_rva(self, rva):
        return (rva - self.VirtualAddress) + self.PointerToRawData
    
    
    def contains_offset(self, offset):
        """Check whether the section contains the file offset provided."""
        
        if self.PointerToRawData is None:
           # bss and other sections containing only uninitialized data must have 0
           # and do not take space in the file
           return False
        return self.PointerToRawData <= offset < self.PointerToRawData + self.SizeOfRawData
    
    
    def contains_rva(self, rva):
        """Check whether the section contains the address provided."""
        
        # PECOFF documentation v8 says:
        # The total size of the section when loaded into memory.
        # If this value is greater than SizeOfRawData, the section is zero-padded.
        # This field is valid only for executable images and should be set to zero
        # for object files.
        
        if len(self.data) < self.SizeOfRawData:
            size = self.Misc_VirtualSize
        else:
            size = max(self.SizeOfRawData, self.Misc_VirtualSize)
        
        return self.VirtualAddress <= rva < self.VirtualAddress + size
    
    def contains(self, rva):
        #print "DEPRECATION WARNING: you should use contains_rva() instead of contains()"
        return self.contains_rva(rva)
    
    
    def set_data(self, data):
        """Set the data belonging to the section."""
        
        self.data = data
        
    
    def get_entropy(self):
        """Calculate and return the entropy for the section."""
        
        return self.entropy_H( self.data )
    
    
    def get_hash_sha1(self):
        """Get the SHA-1 hex-digest of the section's data."""
        
        if sha1 is not None:
            return sha1( self.data ).hexdigest()
    
    
    def get_hash_sha256(self):
        """Get the SHA-256 hex-digest of the section's data."""
        
        if sha256 is not None:
            return sha256( self.data ).hexdigest()
    
    
    def get_hash_sha512(self):
        """Get the SHA-512 hex-digest of the section's data."""
        
        if sha512 is not None:
            return sha512( self.data ).hexdigest()
    
    
    def get_hash_md5(self):
        """Get the MD5 hex-digest of the section's data."""
        
        if md5 is not None:
            return md5( self.data ).hexdigest()
    
    
    def entropy_H(self, data):
        """Calculate the entropy of a chunk of data."""
        
        if len(data) == 0:
            return 0.0
        
        occurences = array.array('L', [0]*256)
        
        for x in data:
            occurences[ord(x)] += 1
        
        entropy = 0
        for x in occurences:
            if x:
                p_x = float(x) / len(data)
                entropy -= p_x*math.log(p_x, 2)
        
        return entropy



class DataContainer:
    """Generic data container."""
    
    def __init__(self, **args):
        for key, value in args.items():
            setattr(self, key, value)



class ImportDescData(DataContainer):
    """Holds import descriptor information.
    
    dll:        name of the imported DLL
    imports:    list of imported symbols (ImportData instances)
    struct:     IMAGE_IMPORT_DESCRIPTOR structure
    """

class ImportData(DataContainer):
    """Holds imported symbol's information.
    
    ordinal:    Ordinal of the symbol
    name:       Name of the symbol
    bound:      If the symbol is bound, this contains
                the address.
    """

    
    def __setattr__(self, name, val):

        # If the instance doesn't yet have an ordinal attribute
        # it's not fully initialized so can't do any of the
        # following
        #
        if hasattr(self, 'ordinal') and hasattr(self, 'bound') and hasattr(self, 'name'):
        
            if name == 'ordinal':

                if self.pe.PE_TYPE == OPTIONAL_HEADER_MAGIC_PE:
                    ordinal_flag = IMAGE_ORDINAL_FLAG
                elif self.pe.PE_TYPE == OPTIONAL_HEADER_MAGIC_PE_PLUS:
                    ordinal_flag = IMAGE_ORDINAL_FLAG64

                # Set the ordinal and flag the entry as imporing by ordinal
                self.struct_table.Ordinal = ordinal_flag | (val & 0xffff)
                self.struct_table.AddressOfData = self.struct_table.Ordinal
                self.struct_table.Function = self.struct_table.Ordinal
                self.struct_table.ForwarderString = self.struct_table.Ordinal
            elif name == 'bound':
                if self.struct_iat is not None:
                    self.struct_iat.AddressOfData = val
                    self.struct_iat.AddressOfData = self.struct_iat.AddressOfData
                    self.struct_iat.Function = self.struct_iat.AddressOfData
                    self.struct_iat.ForwarderString = self.struct_iat.AddressOfData
            elif name == 'address':
                self.struct_table.AddressOfData = val
                self.struct_table.Ordinal = self.struct_table.AddressOfData
                self.struct_table.Function = self.struct_table.AddressOfData
                self.struct_table.ForwarderString = self.struct_table.AddressOfData
            elif name == 'name':
                # Make sure we reset the entry in case the import had been set to import by ordinal
                if self.name_offset:

                    name_rva = self.pe.get_rva_from_offset( self.name_offset )
                    self.pe.set_dword_at_offset( self.ordinal_offset, (0<<31) | name_rva )
                
                    # Complain if the length of the new name is longer than the existing one
                    if len(val) > len(self.name):
                        #raise Exception('The export name provided is longer than the existing one.')
                        pass
                    self.pe.set_bytes_at_offset( self.name_offset, val )

        self.__dict__[name] = val
        
        
class ExportDirData(DataContainer):
    """Holds export directory information.
    
    struct:     IMAGE_EXPORT_DIRECTORY structure
    symbols:    list of exported symbols (ExportData instances)
"""

class ExportData(DataContainer):
    """Holds exported symbols' information.
    
    ordinal:    ordinal of the symbol
    address:    address of the symbol
    name:       name of the symbol (None if the symbol is
                exported by ordinal only)
    forwarder:  if the symbol is forwarded it will
                contain the name of the target symbol,
                None otherwise.
    """

    def __setattr__(self, name, val):

        # If the instance doesn't yet have an ordinal attribute
        # it's not fully initialized so can't do any of the
        # following
        #
        if hasattr(self, 'ordinal') and hasattr(self, 'address') and hasattr(self, 'forwarder') and hasattr(self, 'name'):
        
            if name == 'ordinal':
                self.pe.set_word_at_offset( self.ordinal_offset, val )
            elif name == 'address':
                self.pe.set_dword_at_offset( self.address_offset, val )
            elif name == 'name':
                # Complain if the length of the new name is longer than the existing one
                if len(val) > len(self.name):
                    #raise Exception('The export name provided is longer than the existing one.')
                    pass
                self.pe.set_bytes_at_offset( self.name_offset, val )
            elif name == 'forwarder':
                # Complain if the length of the new name is longer than the existing one
                if len(val) > len(self.forwarder):
                    #raise Exception('The forwarder name provided is longer than the existing one.')
                    pass
                self.pe.set_bytes_at_offset( self.forwarder_offset, val )

        self.__dict__[name] = val


class ResourceDirData(DataContainer):
    """Holds resource directory information.
    
    struct:     IMAGE_RESOURCE_DIRECTORY structure
    entries:    list of entries (ResourceDirEntryData instances)
    """

class ResourceDirEntryData(DataContainer):
    """Holds resource directory entry data.
    
    struct:     IMAGE_RESOURCE_DIRECTORY_ENTRY structure
    name:       If the resource is identified by name this
                attribute will contain the name string. None
                otherwise. If identified by id, the id is
                available at 'struct.Id'
    id:         the id, also in struct.Id
    directory:  If this entry has a lower level directory
                this attribute will point to the
                ResourceDirData instance representing it.
    data:       If this entry has no further lower directories
                and points to the actual resource data, this
                attribute will reference the corresponding
                ResourceDataEntryData instance.
    (Either of the 'directory' or 'data' attribute will exist,
    but not both.)
    """

class ResourceDataEntryData(DataContainer):
    """Holds resource data entry information.
    
    struct:     IMAGE_RESOURCE_DATA_ENTRY structure
    lang:       Primary language ID
    sublang:    Sublanguage ID
    """

class DebugData(DataContainer):
    """Holds debug information.
    
    struct:     IMAGE_DEBUG_DIRECTORY structure
    """

class BaseRelocationData(DataContainer):
    """Holds base relocation information.
    
    struct:     IMAGE_BASE_RELOCATION structure
    entries:    list of relocation data (RelocationData instances)
    """

class RelocationData(DataContainer):
    """Holds relocation information.
    
    type:       Type of relocation
                The type string is can be obtained by
                RELOCATION_TYPE[type]
    rva:        RVA of the relocation
    """
    def __setattr__(self, name, val):

        # If the instance doesn't yet have a struct attribute
        # it's not fully initialized so can't do any of the
        # following
        #
        if hasattr(self, 'struct'):
            # Get the word containing the type and data
            #
            word = self.struct.Data
        
            if name == 'type':
                word = (val << 12) | (word & 0xfff)
            elif name == 'rva':
                offset = val-self.base_rva
                if offset < 0:
                    offset = 0
                word = ( word & 0xf000) | ( offset & 0xfff)

            # Store the modified data
            #
            self.struct.Data = word

        self.__dict__[name] = val

class TlsData(DataContainer):
    """Holds TLS information.
    
    struct:     IMAGE_TLS_DIRECTORY structure
    """

class BoundImportDescData(DataContainer):
    """Holds bound import descriptor data.
    
    This directory entry will provide with information on the
    DLLs this PE files has been bound to (if bound at all).
    The structure will contain the name and timestamp of the
    DLL at the time of binding so that the loader can know
    whether it differs from the one currently present in the
    system and must, therefore, re-bind the PE's imports.
    
    struct:     IMAGE_BOUND_IMPORT_DESCRIPTOR structure
    name:       DLL name
    entries:    list of entries (BoundImportRefData instances)
                the entries will exist if this DLL has forwarded
                symbols. If so, the destination DLL will have an
                entry in this list.
    """

class LoadConfigData(DataContainer):
    """Holds Load Config data.
    
    struct:     IMAGE_LOAD_CONFIG_DIRECTORY structure
    name:       dll name
    """

class BoundImportRefData(DataContainer):
    """Holds bound import forwarder reference data.
    
    Contains the same information as the bound descriptor but
    for forwarded DLLs, if any.
    
    struct:     IMAGE_BOUND_FORWARDER_REF structure
    name:       dll name
    """


class PE:
    """A Portable Executable representation.
    
    This class provides access to most of the information in a PE file.
    
    It expects to be supplied the name of the file to load or PE data
    to process and an optional argument 'fast_load' (False by default)
    which controls whether to load all the directories information,
    which can be quite time consuming.
    
    pe = pefile.PE('module.dll')
    pe = pefile.PE(name='module.dll')
    
    would load 'module.dll' and process it. If the data would be already
    available in a buffer the same could be achieved with:
    
    pe = pefile.PE(data=module_dll_data)
    
    The "fast_load" can be set to a default by setting its value in the
    module itself by means,for instance, of a "pefile.fast_load = True".
    That will make all the subsequent instances not to load the
    whole PE structure. The "full_load" method can be used to parse
    the missing data at a later stage.
    
    Basic headers information will be available in the attributes:
    
    DOS_HEADER
    NT_HEADERS
    FILE_HEADER
    OPTIONAL_HEADER
    
    All of them will contain among their attributes the members of the
    corresponding structures as defined in WINNT.H
    
    The raw data corresponding to the header (from the beginning of the
    file up to the start of the first section) will be available in the
    instance's attribute 'header' as a string.
    
    The sections will be available as a list in the 'sections' attribute.
    Each entry will contain as attributes all the structure's members.
    
    Directory entries will be available as attributes (if they exist):
    (no other entries are processed at this point)
    
    DIRECTORY_ENTRY_IMPORT (list of ImportDescData instances)
    DIRECTORY_ENTRY_EXPORT (ExportDirData instance)
    DIRECTORY_ENTRY_RESOURCE (ResourceDirData instance)
    DIRECTORY_ENTRY_DEBUG (list of DebugData instances)
    DIRECTORY_ENTRY_BASERELOC (list of BaseRelocationData instances)
    DIRECTORY_ENTRY_TLS
    DIRECTORY_ENTRY_BOUND_IMPORT (list of BoundImportData instances)
    
    The following dictionary attributes provide ways of mapping different
    constants. They will accept the numeric value and return the string
    representation and the opposite, feed in the string and get the
    numeric constant:
    
    DIRECTORY_ENTRY
    IMAGE_CHARACTERISTICS
    SECTION_CHARACTERISTICS
    DEBUG_TYPE
    SUBSYSTEM_TYPE
    MACHINE_TYPE
    RELOCATION_TYPE
    RESOURCE_TYPE
    LANG
    SUBLANG
    """
    
    #
    # Format specifications for PE structures.
    #
    
    __IMAGE_DOS_HEADER_format__ = ('IMAGE_DOS_HEADER',
        ('H,e_magic', 'H,e_cblp', 'H,e_cp',
        'H,e_crlc', 'H,e_cparhdr', 'H,e_minalloc',
        'H,e_maxalloc', 'H,e_ss', 'H,e_sp', 'H,e_csum',
        'H,e_ip', 'H,e_cs', 'H,e_lfarlc', 'H,e_ovno', '8s,e_res',
        'H,e_oemid', 'H,e_oeminfo', '20s,e_res2',
        'I,e_lfanew'))
    
    __IMAGE_FILE_HEADER_format__ = ('IMAGE_FILE_HEADER',
        ('H,Machine', 'H,NumberOfSections',
        'I,TimeDateStamp', 'I,PointerToSymbolTable',
        'I,NumberOfSymbols', 'H,SizeOfOptionalHeader',
        'H,Characteristics'))
    
    __IMAGE_DATA_DIRECTORY_format__ = ('IMAGE_DATA_DIRECTORY',
        ('I,VirtualAddress', 'I,Size'))
    
    
    __IMAGE_OPTIONAL_HEADER_format__ = ('IMAGE_OPTIONAL_HEADER',
        ('H,Magic', 'B,MajorLinkerVersion',
        'B,MinorLinkerVersion', 'I,SizeOfCode',
        'I,SizeOfInitializedData', 'I,SizeOfUninitializedData',
        'I,AddressOfEntryPoint', 'I,BaseOfCode', 'I,BaseOfData',
        'I,ImageBase', 'I,SectionAlignment', 'I,FileAlignment',
        'H,MajorOperatingSystemVersion', 'H,MinorOperatingSystemVersion',
        'H,MajorImageVersion', 'H,MinorImageVersion',
        'H,MajorSubsystemVersion', 'H,MinorSubsystemVersion',
        'I,Reserved1', 'I,SizeOfImage', 'I,SizeOfHeaders',
        'I,CheckSum', 'H,Subsystem', 'H,DllCharacteristics',
        'I,SizeOfStackReserve', 'I,SizeOfStackCommit',
        'I,SizeOfHeapReserve', 'I,SizeOfHeapCommit',
        'I,LoaderFlags', 'I,NumberOfRvaAndSizes' ))
    
    
    __IMAGE_OPTIONAL_HEADER64_format__ = ('IMAGE_OPTIONAL_HEADER64',
        ('H,Magic', 'B,MajorLinkerVersion',
        'B,MinorLinkerVersion', 'I,SizeOfCode',
        'I,SizeOfInitializedData', 'I,SizeOfUninitializedData',
        'I,AddressOfEntryPoint', 'I,BaseOfCode',
        'Q,ImageBase', 'I,SectionAlignment', 'I,FileAlignment',
        'H,MajorOperatingSystemVersion', 'H,MinorOperatingSystemVersion',
        'H,MajorImageVersion', 'H,MinorImageVersion',
        'H,MajorSubsystemVersion', 'H,MinorSubsystemVersion',
        'I,Reserved1', 'I,SizeOfImage', 'I,SizeOfHeaders',
        'I,CheckSum', 'H,Subsystem', 'H,DllCharacteristics',
        'Q,SizeOfStackReserve', 'Q,SizeOfStackCommit',
        'Q,SizeOfHeapReserve', 'Q,SizeOfHeapCommit',
        'I,LoaderFlags', 'I,NumberOfRvaAndSizes' ))
        
    
    __IMAGE_NT_HEADERS_format__ = ('IMAGE_NT_HEADERS', ('I,Signature',))
    
    __IMAGE_SECTION_HEADER_format__ = ('IMAGE_SECTION_HEADER',
        ('8s,Name', 'I,Misc,Misc_PhysicalAddress,Misc_VirtualSize',
        'I,VirtualAddress', 'I,SizeOfRawData', 'I,PointerToRawData',
        'I,PointerToRelocations', 'I,PointerToLinenumbers',
        'H,NumberOfRelocations', 'H,NumberOfLinenumbers',
        'I,Characteristics'))
    
    __IMAGE_DELAY_IMPORT_DESCRIPTOR_format__ = ('IMAGE_DELAY_IMPORT_DESCRIPTOR',
        ('I,grAttrs', 'I,szName', 'I,phmod', 'I,pIAT', 'I,pINT',
        'I,pBoundIAT', 'I,pUnloadIAT', 'I,dwTimeStamp'))
    
    __IMAGE_IMPORT_DESCRIPTOR_format__ =  ('IMAGE_IMPORT_DESCRIPTOR',
        ('I,OriginalFirstThunk,Characteristics',
        'I,TimeDateStamp', 'I,ForwarderChain', 'I,Name', 'I,FirstThunk'))
    
    __IMAGE_EXPORT_DIRECTORY_format__ =  ('IMAGE_EXPORT_DIRECTORY',
        ('I,Characteristics',
        'I,TimeDateStamp', 'H,MajorVersion', 'H,MinorVersion', 'I,Name',
        'I,Base', 'I,NumberOfFunctions', 'I,NumberOfNames',
        'I,AddressOfFunctions', 'I,AddressOfNames', 'I,AddressOfNameOrdinals'))
    
    __IMAGE_RESOURCE_DIRECTORY_format__ = ('IMAGE_RESOURCE_DIRECTORY',
        ('I,Characteristics',
        'I,TimeDateStamp', 'H,MajorVersion', 'H,MinorVersion',
        'H,NumberOfNamedEntries', 'H,NumberOfIdEntries'))
    
    __IMAGE_RESOURCE_DIRECTORY_ENTRY_format__ = ('IMAGE_RESOURCE_DIRECTORY_ENTRY',
        ('I,Name',
        'I,OffsetToData'))
    
    __IMAGE_RESOURCE_DATA_ENTRY_format__ = ('IMAGE_RESOURCE_DATA_ENTRY',
        ('I,OffsetToData', 'I,Size', 'I,CodePage', 'I,Reserved'))
    
    __VS_VERSIONINFO_format__ = ( 'VS_VERSIONINFO',
        ('H,Length', 'H,ValueLength', 'H,Type' ))
    
    __VS_FIXEDFILEINFO_format__ = ( 'VS_FIXEDFILEINFO',
        ('I,Signature', 'I,StrucVersion', 'I,FileVersionMS', 'I,FileVersionLS',
         'I,ProductVersionMS', 'I,ProductVersionLS', 'I,FileFlagsMask', 'I,FileFlags',
         'I,FileOS', 'I,FileType', 'I,FileSubtype', 'I,FileDateMS', 'I,FileDateLS'))
    
    __StringFileInfo_format__ = ( 'StringFileInfo',
        ('H,Length', 'H,ValueLength', 'H,Type' ))
    
    __StringTable_format__ = ( 'StringTable',
        ('H,Length', 'H,ValueLength', 'H,Type' ))
    
    __String_format__ = ( 'String',
        ('H,Length', 'H,ValueLength', 'H,Type' ))
    
    __Var_format__ = ( 'Var', ('H,Length', 'H,ValueLength', 'H,Type' ))
    
    __IMAGE_THUNK_DATA_format__ = ('IMAGE_THUNK_DATA',
        ('I,ForwarderString,Function,Ordinal,AddressOfData',))
    
    __IMAGE_THUNK_DATA64_format__ = ('IMAGE_THUNK_DATA',
        ('Q,ForwarderString,Function,Ordinal,AddressOfData',))
    
    __IMAGE_DEBUG_DIRECTORY_format__ = ('IMAGE_DEBUG_DIRECTORY',
        ('I,Characteristics', 'I,TimeDateStamp', 'H,MajorVersion',
        'H,MinorVersion', 'I,Type', 'I,SizeOfData', 'I,AddressOfRawData',
        'I,PointerToRawData'))
    
    __IMAGE_BASE_RELOCATION_format__ = ('IMAGE_BASE_RELOCATION',
        ('I,VirtualAddress', 'I,SizeOfBlock') )
    
    __IMAGE_BASE_RELOCATION_ENTRY_format__ = ('IMAGE_BASE_RELOCATION_ENTRY',
        ('H,Data',) )

    __IMAGE_TLS_DIRECTORY_format__ = ('IMAGE_TLS_DIRECTORY',
        ('I,StartAddressOfRawData', 'I,EndAddressOfRawData',
        'I,AddressOfIndex', 'I,AddressOfCallBacks',
        'I,SizeOfZeroFill', 'I,Characteristics' ) )
    
    __IMAGE_TLS_DIRECTORY64_format__ = ('IMAGE_TLS_DIRECTORY',
        ('Q,StartAddressOfRawData', 'Q,EndAddressOfRawData',
        'Q,AddressOfIndex', 'Q,AddressOfCallBacks',
        'I,SizeOfZeroFill', 'I,Characteristics' ) )
    
    __IMAGE_LOAD_CONFIG_DIRECTORY_format__ = ('IMAGE_LOAD_CONFIG_DIRECTORY',
        ('I,Size', 'I,TimeDateStamp',
        'H,MajorVersion', 'H,MinorVersion',
        'I,GlobalFlagsClear', 'I,GlobalFlagsSet',
        'I,CriticalSectionDefaultTimeout',
        'I,DeCommitFreeBlockThreshold',
        'I,DeCommitTotalFreeThreshold',
        'I,LockPrefixTable',
        'I,MaximumAllocationSize',
        'I,VirtualMemoryThreshold',
        'I,ProcessHeapFlags',
        'I,ProcessAffinityMask',
        'H,CSDVersion', 'H,Reserved1',
        'I,EditList', 'I,SecurityCookie',
        'I,SEHandlerTable', 'I,SEHandlerCount' ) )
        
    __IMAGE_LOAD_CONFIG_DIRECTORY64_format__ = ('IMAGE_LOAD_CONFIG_DIRECTORY',
        ('I,Size', 'I,TimeDateStamp',
      'H,MajorVersion', 'H,MinorVersion',
      'I,GlobalFlagsClear', 'I,GlobalFlagsSet',
      'I,CriticalSectionDefaultTimeout',
      'Q,DeCommitFreeBlockThreshold',
      'Q,DeCommitTotalFreeThreshold',
      'Q,LockPrefixTable',
      'Q,MaximumAllocationSize',
      'Q,VirtualMemoryThreshold',
      'Q,ProcessAffinityMask',
      'I,ProcessHeapFlags',
      'H,CSDVersion', 'H,Reserved1',
      'Q,EditList', 'Q,SecurityCookie',
      'Q,SEHandlerTable', 'Q,SEHandlerCount' ) )
    
    __IMAGE_BOUND_IMPORT_DESCRIPTOR_format__ = ('IMAGE_BOUND_IMPORT_DESCRIPTOR',
        ('I,TimeDateStamp', 'H,OffsetModuleName', 'H,NumberOfModuleForwarderRefs'))
    
    __IMAGE_BOUND_FORWARDER_REF_format__ = ('IMAGE_BOUND_FORWARDER_REF',
        ('I,TimeDateStamp', 'H,OffsetModuleName', 'H,Reserved') )
    
    
    def __init__(self, name=None, data=None, fast_load=None):
        
        self.sections = []
        
        self.__warnings = []
        
        self.PE_TYPE = None
        
        if  not name and not data:
            return
        
        # This list will keep track of all the structures created.
        # That will allow for an easy iteration through the list
        # in order to save the modifications made
        self.__structures__ = []
        
        if not fast_load:
            fast_load = globals()['fast_load']
        self.__parse__(name, data, fast_load)
        
    
    def __unpack_data__(self, format, data, file_offset):
        """Apply structure format to raw data.
        
        Returns and unpacked structure object if successful, None otherwise.
        """
        
        structure = Structure(format, file_offset=file_offset)
        
        try:
            structure.__unpack__(data)
        except PEFormatError, err:
            self.__warnings.append(
                'Corrupt header "%s" at file offset %d. Exception: %s' % (
                    format[0], file_offset, str(err))  )
            return None
        
        self.__structures__.append(structure)
        
        return structure
        
    
    def __parse__(self, fname, data, fast_load):
        """Parse a Portable Executable file.
        
        Loads a PE file, parsing all its structures and making them available
        through the instance's attributes.
        """
        
        if fname:
            fd = file(fname, 'rb')
            self.__data__ = fd.read()
            fd.close()
        elif data:
            self.__data__ = data
        
        
        self.DOS_HEADER = self.__unpack_data__(
            self.__IMAGE_DOS_HEADER_format__,
            self.__data__, file_offset=0)
        
        if not self.DOS_HEADER or self.DOS_HEADER.e_magic != IMAGE_DOS_SIGNATURE:
            raise PEFormatError('DOS Header magic not found.')
        
        # OC Patch:
        # Check for sane value in e_lfanew
        #
        if self.DOS_HEADER.e_lfanew > len(self.__data__):
            raise PEFormatError('Invalid e_lfanew value, probably not a PE file')
        
        nt_headers_offset = self.DOS_HEADER.e_lfanew
        
        self.NT_HEADERS = self.__unpack_data__(
            self.__IMAGE_NT_HEADERS_format__,
            self.__data__[nt_headers_offset:],
            file_offset = nt_headers_offset)
        
        # We better check the signature right here, before the file screws
        # around with sections:
        # OC Patch:
        # Some malware will cause the Signature value to not exist at all
        if not self.NT_HEADERS or not self.NT_HEADERS.Signature:
            raise PEFormatError('NT Headers not found.')
        
        if self.NT_HEADERS.Signature != IMAGE_NT_SIGNATURE:
            raise PEFormatError('Invalid NT Headers signature.')
        
        self.FILE_HEADER = self.__unpack_data__(
            self.__IMAGE_FILE_HEADER_format__,
            self.__data__[nt_headers_offset+4:],
            file_offset = nt_headers_offset+4)
        image_flags = self.retrieve_flags(IMAGE_CHARACTERISTICS, 'IMAGE_FILE_')
        
        if not self.FILE_HEADER:
            raise PEFormatError('File Header missing')
        
        # Set the image's flags according the the Characteristics member
        self.set_flags(self.FILE_HEADER, self.FILE_HEADER.Characteristics, image_flags)
        
        optional_header_offset =    \
            nt_headers_offset+4+self.FILE_HEADER.sizeof()
        
        # Note: location of sections can be controlled from PE header:
        sections_offset = optional_header_offset + self.FILE_HEADER.SizeOfOptionalHeader
        
        self.OPTIONAL_HEADER = self.__unpack_data__(
            self.__IMAGE_OPTIONAL_HEADER_format__,
            self.__data__[optional_header_offset:],
            file_offset = optional_header_offset)
        
        # According to solardesigner's findings for his
        # Tiny PE project, the optional header does not
        # need fields beyond "Subsystem" in order to be
        # loadable by the Windows loader (given that zeroes
        # are acceptable values and the header is loaded
        # in a zeroed memory page)
        # If trying to parse a full Optional Header fails
        # we try to parse it again with some 0 padding
        #
        MINIMUM_VALID_OPTIONAL_HEADER_RAW_SIZE = 69
        
        if ( self.OPTIONAL_HEADER is None and
            len(self.__data__[optional_header_offset:])
                >= MINIMUM_VALID_OPTIONAL_HEADER_RAW_SIZE ):
            
            # Add enough zeroes to make up for the unused fields
            #
            padding_length = 128
            
            # Create padding
            #
            padded_data = self.__data__[optional_header_offset:] + (
                '\0' * padding_length)
            
            self.OPTIONAL_HEADER = self.__unpack_data__(
                self.__IMAGE_OPTIONAL_HEADER_format__,
                padded_data,
                file_offset = optional_header_offset)
            
        
        # Check the Magic in the OPTIONAL_HEADER and set the PE file
        # type accordingly
        #
        if self.OPTIONAL_HEADER is not None:
            
            if self.OPTIONAL_HEADER.Magic == OPTIONAL_HEADER_MAGIC_PE:
                
                self.PE_TYPE = OPTIONAL_HEADER_MAGIC_PE
            
            elif self.OPTIONAL_HEADER.Magic == OPTIONAL_HEADER_MAGIC_PE_PLUS:
                
                self.PE_TYPE = OPTIONAL_HEADER_MAGIC_PE_PLUS
                
                self.OPTIONAL_HEADER = self.__unpack_data__(
                    self.__IMAGE_OPTIONAL_HEADER64_format__,
                    self.__data__[optional_header_offset:],
                    file_offset = optional_header_offset)
                
                # Again, as explained above, we try to parse
                # a reduced form of the Optional Header which
                # is still valid despite not including all
                # structure members
                #
                MINIMUM_VALID_OPTIONAL_HEADER_RAW_SIZE = 69+4
                
                if ( self.OPTIONAL_HEADER is None and
                    len(self.__data__[optional_header_offset:])
                        >= MINIMUM_VALID_OPTIONAL_HEADER_RAW_SIZE ):
                    
                    padding_length = 128
                    padded_data = self.__data__[optional_header_offset:] + (
                        '\0' * padding_length)
                    self.OPTIONAL_HEADER = self.__unpack_data__(
                        self.__IMAGE_OPTIONAL_HEADER64_format__,
                        padded_data,
                        file_offset = optional_header_offset)
        
        
        if not self.FILE_HEADER:
            raise PEFormatError('File Header missing')
        
        
        # OC Patch:
        # Die gracefully if there is no OPTIONAL_HEADER field
        # 975440f5ad5e2e4a92c4d9a5f22f75c1
        if self.PE_TYPE is None or self.OPTIONAL_HEADER is None:
            raise PEFormatError("No Optional Header found, invalid PE32 or PE32+ file")
        
        dll_characteristics_flags = self.retrieve_flags(DLL_CHARACTERISTICS, 'IMAGE_DLL_CHARACTERISTICS_')
        
        # Set the Dll Characteristics flags according the the DllCharacteristics member
        self.set_flags(
            self.OPTIONAL_HEADER,
            self.OPTIONAL_HEADER.DllCharacteristics,
            dll_characteristics_flags)
        
        
        self.OPTIONAL_HEADER.DATA_DIRECTORY = []
        #offset = (optional_header_offset + self.FILE_HEADER.SizeOfOptionalHeader)
        offset = (optional_header_offset + self.OPTIONAL_HEADER.sizeof())
        
        
        self.NT_HEADERS.FILE_HEADER = self.FILE_HEADER
        self.NT_HEADERS.OPTIONAL_HEADER = self.OPTIONAL_HEADER
        
        
        # The NumberOfRvaAndSizes is sanitized to stay within
        # reasonable limits so can be casted to an int
        #
        if self.OPTIONAL_HEADER.NumberOfRvaAndSizes > 0x10:
            self.__warnings.append(
                'Suspicious NumberOfRvaAndSizes in the Optional Header. ' +
                'Normal values are never larger than 0x10, the value is: 0x%x' %
                self.OPTIONAL_HEADER.NumberOfRvaAndSizes )
        
        for i in xrange(int(0x7fffffffL & self.OPTIONAL_HEADER.NumberOfRvaAndSizes)):
            
            if len(self.__data__[offset:]) == 0:
                break
            
            if len(self.__data__[offset:]) < 8:
                data = self.__data__[offset:]+'\0'*8
            else:
                data = self.__data__[offset:]
            
            dir_entry = self.__unpack_data__(
                self.__IMAGE_DATA_DIRECTORY_format__,
                data,
                file_offset = offset)
            
            if dir_entry is None:
                break
            
            # Would fail if missing an entry
            # 1d4937b2fa4d84ad1bce0309857e70ca offending sample
            try:
                dir_entry.name = DIRECTORY_ENTRY[i]
            except (KeyError, AttributeError):
                break
            
            offset += dir_entry.sizeof()
            
            self.OPTIONAL_HEADER.DATA_DIRECTORY.append(dir_entry)
            
            # If the offset goes outside the optional header,
            # the loop is broken, regardless of how many directories
            # NumberOfRvaAndSizes says there are
            #
            # We assume a normally sized optional header, hence that we do
            # a sizeof() instead of reading SizeOfOptionalHeader.
            # Then we add a default number of directories times their size,
            # if we go beyond that, we assume the number of directories
            # is wrong and stop processing
            if offset >= (optional_header_offset +
                self.OPTIONAL_HEADER.sizeof() + 8*16) :
                
                break
                        
        
        offset = self.parse_sections(sections_offset)
        
        # OC Patch:
        # There could be a problem if there are no raw data sections
        # greater than 0
        # fc91013eb72529da005110a3403541b6 example
        # Should this throw an exception in the minimum header offset
        # can't be found?
        #
        rawDataPointers = [
            s.PointerToRawData for s in self.sections if s.PointerToRawData>0]
        
        if len(rawDataPointers) > 0:
            lowest_section_offset = min(rawDataPointers)
        else:
            lowest_section_offset = None
        
        if not lowest_section_offset or lowest_section_offset<offset:
            self.header = self.__data__[:offset]
        else:
            self.header = self.__data__[:lowest_section_offset]
        
        
        # Check whether the entry point lies within a section
        #
        if self.get_section_by_rva(self.OPTIONAL_HEADER.AddressOfEntryPoint) is not None:
            
            # Check whether the entry point lies within the file
            #
            ep_offset = self.get_offset_from_rva(self.OPTIONAL_HEADER.AddressOfEntryPoint)
            if ep_offset > len(self.__data__):
                
                self.__warnings.append(
                    'Possibly corrupt file. AddressOfEntryPoint lies outside the file. ' +
                    'AddressOfEntryPoint: 0x%x' %
                    self.OPTIONAL_HEADER.AddressOfEntryPoint )
        
        else:
            
            self.__warnings.append(
                'AddressOfEntryPoint lies outside the sections\' boundaries. ' +
                'AddressOfEntryPoint: 0x%x' %
                self.OPTIONAL_HEADER.AddressOfEntryPoint )
        
        
        if not fast_load:
            self.parse_data_directories()
    
    
    def get_warnings(self):
        """Return the list of warnings.
        
        Non-critical problems found when parsing the PE file are
        appended to a list of warnings. This method returns the
        full list.
        """
        
        return self.__warnings
        
    
    def show_warnings(self):
        """Print the list of warnings.
        
        Non-critical problems found when parsing the PE file are
        appended to a list of warnings. This method prints the
        full list to standard output.
        """
        
        for warning in self.__warnings:
            print '>', warning
    
    
    def full_load(self):
        """Process the data directories.
        
        This method will load the data directories which might not have
        been loaded if the "fast_load" option was used.
        """
        
        self.parse_data_directories()
        
    
    def write(self, filename=None):
        """Write the PE file.
        
        This function will process all headers and components
        of the PE file and include all changes made (by just
        assigning to attributes in the PE objects) and write
        the changes back to a file whose name is provided as
        an argument. The filename is optional, if not 
        provided the data will be returned as a 'str' object.
        """
        
        file_data = list(self.__data__)
        for structure in self.__structures__:
            
            struct_data = list(structure.__pack__())
            offset = structure.get_file_offset()
            
            file_data[offset:offset+len(struct_data)] = struct_data
        
        if hasattr(self, 'VS_VERSIONINFO'):
            if hasattr(self, 'FileInfo'):
                for entry in self.FileInfo:
                    if hasattr(entry, 'StringTable'):
                        for st_entry in entry.StringTable:
                            for key, entry in st_entry.entries.items():
                                
                                offsets = st_entry.entries_offsets[key]
                                lengths = st_entry.entries_lengths[key]
                                
                                if len( entry ) > lengths[1]:
                                    
                                    l = list()
                                    for idx, c in enumerate(entry):
                                        if ord(c) > 256:
                                            l.extend( [ chr(ord(c) & 0xff), chr( (ord(c) & 0xff00) >>8) ]  )
                                        else:
                                            l.extend( [chr( ord(c) ), '\0'] )
                                    
                                    file_data[
                                        offsets[1] : offsets[1] + lengths[1]*2 ] = l
                                
                                else:
                                    
                                    l = list()
                                    for idx, c in enumerate(entry):
                                        if ord(c) > 256:
                                            l.extend( [ chr(ord(c) & 0xff), chr( (ord(c) & 0xff00) >>8) ]  )
                                        else:
                                            l.extend( [chr( ord(c) ), '\0'] )

                                    file_data[
                                        offsets[1] : offsets[1] + len(entry)*2 ] = l
                                    
                                    remainder = lengths[1] - len(entry)
                                    file_data[
                                        offsets[1] + len(entry)*2 :
                                        offsets[1] + lengths[1]*2 ] = [
                                            u'\0' ] * remainder*2
                
        new_file_data = ''.join( [ chr(ord(c)) for c in file_data] )
        
        if filename:
            f = file(filename, 'wb+')
            f.write(new_file_data)
            f.close()
        else:
            return new_file_data
    
    
    def parse_sections(self, offset):
        """Fetch the PE file sections.
        
        The sections will be readily available in the "sections" attribute.
        Its attributes will contain all the section information plus "data"
        a buffer containing the section's data.
        
        The "Characteristics" member will be processed and attributes
        representing the section characteristics (with the 'IMAGE_SCN_'
        string trimmed from the constant's names) will be added to the
        section instance.
        
        Refer to the SectionStructure class for additional info.
        """
        
        self.sections = []
        
        for i in xrange(self.FILE_HEADER.NumberOfSections):
            section = SectionStructure(self.__IMAGE_SECTION_HEADER_format__)
            if not section:
                break
            section_offset = offset + section.sizeof() * i
            section.set_file_offset(section_offset)
            section.__unpack__(self.__data__[section_offset:])
            self.__structures__.append(section)
            
            if section.SizeOfRawData > len(self.__data__):
                self.__warnings.append(
                    ('Error parsing section %d. ' % i) +
                    'SizeOfRawData is larger than file.')
            
            if section.PointerToRawData > len(self.__data__):
                self.__warnings.append(
                    ('Error parsing section %d. ' % i) +
                    'PointerToRawData points beyond the end of the file.')
            
            if section.Misc_VirtualSize > 0x10000000:
                self.__warnings.append(
                    ('Suspicious value found parsing section %d. ' % i) +
                    'VirtualSize is extremely large > 256MiB.')
            
            if section.VirtualAddress > 0x10000000:
                self.__warnings.append(
                    ('Suspicious value found parsing section %d. ' % i) +
                    'VirtualAddress is beyond 0x10000000.')
            
            #
            # Some packer used a non-aligned PointerToRawData in the sections,
            # which causes several common tools not to load the section data
            # properly as they blindly read from the indicated offset.
            # It seems that Windows will round the offset down to the largest
            # offset multiple of FileAlignment which is smaller than
            # PointerToRawData. The following code will do the same.
            #
            
            #alignment = self.OPTIONAL_HEADER.FileAlignment
            self.update_section_data(section)
            
            if ( self.OPTIONAL_HEADER.FileAlignment != 0 and
                (section.PointerToRawData % self.OPTIONAL_HEADER.FileAlignment) != 0):
                self.__warnings.append(
                    ('Error parsing section %d. ' % i) +
                    'Suspicious value for FileAlignment in the Optional Header. ' +
                    'Normally the PointerToRawData entry of the sections\' structures ' +
                    'is a multiple of FileAlignment, this might imply the file ' +
                    'is trying to confuse tools which parse this incorrectly')
            
            
            section_flags = self.retrieve_flags(SECTION_CHARACTERISTICS, 'IMAGE_SCN_')
            
            # Set the section's flags according the the Characteristics member
            self.set_flags(section, section.Characteristics, section_flags)
            
            if ( section.__dict__.get('IMAGE_SCN_MEM_WRITE', False)  and
                section.__dict__.get('IMAGE_SCN_MEM_EXECUTE', False) ):
                
                self.__warnings.append(
                    ('Suspicious flags set for section %d. ' % i) +
                    'Both IMAGE_SCN_MEM_WRITE and IMAGE_SCN_MEM_EXECUTE are set. ' +
                    'This might indicate a packed executable.')
            
            self.sections.append(section)
        
        if self.FILE_HEADER.NumberOfSections > 0 and self.sections:
            return offset + self.sections[0].sizeof()*self.FILE_HEADER.NumberOfSections
        else:
            return offset
        
    
    def retrieve_flags(self, flag_dict, flag_filter):
        """Read the flags from a dictionary and return them in a usable form.
        
        Will return a list of (flag, value) for all flags in "flag_dict"
        matching the filter "flag_filter".
        """
        
        return [(f[0], f[1]) for f in flag_dict.items() if
                isinstance(f[0], str) and f[0].startswith(flag_filter)]
                
    
    def set_flags(self, obj, flag_field, flags):
        """Will process the flags and set attributes in the object accordingly.
        
        The object "obj" will gain attributes named after the flags provided in
        "flags" and valued True/False, matching the results of applying each
        flag value from "flags" to flag_field.
        """
        
        for flag in flags:
            if flag[1] & flag_field:
                setattr(obj, flag[0], True)
            else:
                setattr(obj, flag[0], False)
    
    
    def parse_data_directories(self, directories=None):
        """Parse and process the PE file's data directories.
        
        If the optional argument 'directories' is given, only
        the directories at the specified indices will be parsed.
        Such functionality allows parsing of areas of interest
        without the burden of having to parse all others.
        The directories can then be specified as:
        
        For export/import only:
        
          directories = [ 0, 1 ]
          
        or (more verbosely):
        
          directories = [ DIRECTORY_ENTRY['IMAGE_DIRECTORY_ENTRY_IMPORT'], 
            DIRECTORY_ENTRY['IMAGE_DIRECTORY_ENTRY_EXPORT'] ]
            
        If 'directories' is a list, the ones that are processed will be removed,
        leaving only the ones that are not present in the image.
        """
        
        directory_parsing = (
            ('IMAGE_DIRECTORY_ENTRY_IMPORT', self.parse_import_directory),
            ('IMAGE_DIRECTORY_ENTRY_EXPORT', self.parse_export_directory),
            ('IMAGE_DIRECTORY_ENTRY_RESOURCE', self.parse_resources_directory),
            ('IMAGE_DIRECTORY_ENTRY_DEBUG', self.parse_debug_directory),
            ('IMAGE_DIRECTORY_ENTRY_BASERELOC', self.parse_relocations_directory),
            ('IMAGE_DIRECTORY_ENTRY_TLS', self.parse_directory_tls),
            ('IMAGE_DIRECTORY_ENTRY_LOAD_CONFIG', self.parse_directory_load_config),
            ('IMAGE_DIRECTORY_ENTRY_DELAY_IMPORT', self.parse_delay_import_directory),
            ('IMAGE_DIRECTORY_ENTRY_BOUND_IMPORT', self.parse_directory_bound_imports) )
            
        if directories is not None:
            if not isinstance(directories, (tuple, list)):
                directories = [directories]
        
        for entry in directory_parsing:
            # OC Patch:
            #
            try:
                directory_index = DIRECTORY_ENTRY[entry[0]]
                dir_entry = self.OPTIONAL_HEADER.DATA_DIRECTORY[directory_index]
            except IndexError:
                break
                
            # Only process all the directories if no individual ones have
            # been chosen
            #
            if directories is None or directory_index in directories:
                
                if dir_entry.VirtualAddress:
                    value = entry[1](dir_entry.VirtualAddress, dir_entry.Size)
                    if value:
                        setattr(self, entry[0][6:], value)
                        
            if (directories is not None) and isinstance(directories, list) and (entry[0] in directories):
                directories.remove(directory_index)
                
        
    
    def parse_directory_bound_imports(self, rva, size):
        """"""
        
        bnd_descr = Structure(self.__IMAGE_BOUND_IMPORT_DESCRIPTOR_format__)
        bnd_descr_size = bnd_descr.sizeof()
        start = rva
        
        bound_imports = []
        while True:
            
            bnd_descr = self.__unpack_data__(
                self.__IMAGE_BOUND_IMPORT_DESCRIPTOR_format__,
                   self.__data__[rva:rva+bnd_descr_size],
                   file_offset = rva)
            if bnd_descr is None:
                # If can't parse directory then silently return.
                # This directory does not necessarily have to be valid to
                # still have a valid PE file
                
                self.__warnings.append(
                    'The Bound Imports directory exists but can\'t be parsed.')
                
                return
            
            if bnd_descr.all_zeroes():
                break
            
            rva += bnd_descr.sizeof()
            
            forwarder_refs = []
            for idx in xrange(bnd_descr.NumberOfModuleForwarderRefs):
                # Both structures IMAGE_BOUND_IMPORT_DESCRIPTOR and
                # IMAGE_BOUND_FORWARDER_REF have the same size.
                bnd_frwd_ref = self.__unpack_data__(
                    self.__IMAGE_BOUND_FORWARDER_REF_format__,
                    self.__data__[rva:rva+bnd_descr_size],
                    file_offset = rva)
                # OC Patch:
                if not bnd_frwd_ref:
                    raise PEFormatError(
                        "IMAGE_BOUND_FORWARDER_REF cannot be read")
                rva += bnd_frwd_ref.sizeof()
                
                name_str =  self.get_string_from_data(
                    start+bnd_frwd_ref.OffsetModuleName, self.__data__)
                
                if not name_str:
                    break
                forwarder_refs.append(BoundImportRefData(
                    struct = bnd_frwd_ref,
                    name = name_str))
            
            name_str = self.get_string_from_data(
                start+bnd_descr.OffsetModuleName, self.__data__)
            
            if not name_str:
                break
            bound_imports.append(
                BoundImportDescData(
                    struct = bnd_descr,
                    name = name_str,
                    entries = forwarder_refs))
        
        return bound_imports
        
    
    def parse_directory_tls(self, rva, size):
        """"""
        
        if self.PE_TYPE == OPTIONAL_HEADER_MAGIC_PE:
            format = self.__IMAGE_TLS_DIRECTORY_format__
        
        elif self.PE_TYPE == OPTIONAL_HEADER_MAGIC_PE_PLUS:
            format = self.__IMAGE_TLS_DIRECTORY64_format__
        
        try:
            tls_struct = self.__unpack_data__(
                format,
                self.get_data( rva, Structure(format).sizeof() ),
                file_offset = self.get_offset_from_rva(rva))
        except PEFormatError:
            self.__warnings.append(
                'Invalid TLS information. Can\'t read ' +
                'data at RVA: 0x%x' % rva)
            tls_struct = None
        
        if not tls_struct:
            return None
        
        return TlsData( struct = tls_struct )
    
    
    def parse_directory_load_config(self, rva, size):
        """"""
        
        if self.PE_TYPE == OPTIONAL_HEADER_MAGIC_PE:
            format = self.__IMAGE_LOAD_CONFIG_DIRECTORY_format__
        
        elif self.PE_TYPE == OPTIONAL_HEADER_MAGIC_PE_PLUS:
            format = self.__IMAGE_LOAD_CONFIG_DIRECTORY64_format__
        
        try:
            load_config_struct = self.__unpack_data__(
                format,
                self.get_data( rva, Structure(format).sizeof() ),
                file_offset = self.get_offset_from_rva(rva))
        except PEFormatError:
            self.__warnings.append(
                'Invalid LOAD_CONFIG information. Can\'t read ' +
                'data at RVA: 0x%x' % rva)
            load_config_struct = None

        if not load_config_struct:
            return None
        
        return LoadConfigData( struct = load_config_struct )


    def parse_relocations_directory(self, rva, size):
        """"""
        
        rlc_size = Structure(self.__IMAGE_BASE_RELOCATION_format__).sizeof()
        end = rva+size
        
        relocations = []
        while rva < end:
            
            # OC Patch:
            # Malware that has bad RVA entries will cause an error.
            # Just continue on after an exception
            #
            try:
                rlc = self.__unpack_data__(
                    self.__IMAGE_BASE_RELOCATION_format__,
                    self.get_data(rva, rlc_size),
                    file_offset = self.get_offset_from_rva(rva) )
            except PEFormatError:
                self.__warnings.append(
                    'Invalid relocation information. Can\'t read ' +
                    'data at RVA: 0x%x' % rva)
                rlc = None
            
            if not rlc:
                break
            
            reloc_entries = self.parse_relocations(
                rva+rlc_size, rlc.VirtualAddress, rlc.SizeOfBlock-rlc_size )
            
            relocations.append(
                BaseRelocationData(
                    struct = rlc,
                    entries = reloc_entries))
            
            if not rlc.SizeOfBlock:
                break
            rva += rlc.SizeOfBlock
        
        return relocations
        
    
    def parse_relocations(self, data_rva, rva, size):
        """"""
        
        data = self.get_data(data_rva, size)
        file_offset = self.get_offset_from_rva(data_rva)
        
        entries = []
        for idx in xrange( len(data) / 2 ):
            
            entry = self.__unpack_data__(
                self.__IMAGE_BASE_RELOCATION_ENTRY_format__,
                data[idx*2:(idx+1)*2],
                file_offset = file_offset )
                
            if not entry:
                break
            word = entry.Data
            
            reloc_type = (word>>12)
            reloc_offset = (word & 0x0fff)
            entries.append(
                RelocationData(
                    struct = entry,
                    type = reloc_type,
                    base_rva = rva,
                    rva = reloc_offset+rva))
            file_offset += entry.sizeof()
        
        return entries
        
    
    def parse_debug_directory(self, rva, size):
        """"""
        
        dbg_size = Structure(self.__IMAGE_DEBUG_DIRECTORY_format__).sizeof()
        
        debug = []
        for idx in xrange(size/dbg_size):
            try:
                data = self.get_data(rva+dbg_size*idx, dbg_size)
            except PEFormatError, e:
                self.__warnings.append(
                    'Invalid debug information. Can\'t read ' +
                    'data at RVA: 0x%x' % rva)
                return None
            
            dbg = self.__unpack_data__(
                self.__IMAGE_DEBUG_DIRECTORY_format__,
                data, file_offset = self.get_offset_from_rva(rva+dbg_size*idx))
            
            if not dbg:
                return None
            
            debug.append(
                DebugData(
                    struct = dbg))
        
        return debug
                        
    
    def parse_resources_directory(self, rva, size=0, base_rva = None, level = 0):
        """Parse the resources directory.
        
        Given the RVA of the resources directory, it will process all
        its entries.
        
        The root will have the corresponding member of its structure,
        IMAGE_RESOURCE_DIRECTORY plus 'entries', a list of all the
        entries in the directory.
        
        Those entries will have, correspondingly, all the structure's
        members (IMAGE_RESOURCE_DIRECTORY_ENTRY) and an additional one,
        "directory", pointing to the IMAGE_RESOURCE_DIRECTORY structure
        representing upper layers of the tree. This one will also have
        an 'entries' attribute, pointing to the 3rd, and last, level.
        Another directory with more entries. Those last entries will
        have a new attribute (both 'leaf' or 'data_entry' can be used to
        access it). This structure finally points to the resource data.
        All the members of this structure, IMAGE_RESOURCE_DATA_ENTRY,
        are available as its attributes.
        """
        
        # OC Patch:
        original_rva = rva
        
        if base_rva is None:
            base_rva = rva
        
        resources_section = self.get_section_by_rva(rva)
        
        try:
            # If the RVA is invalid all would blow up. Some EXEs seem to be
            # specially nasty and have an invalid RVA.
            data = self.get_data(rva, Structure(self.__IMAGE_RESOURCE_DIRECTORY_format__).sizeof() )
        except PEFormatError, e:
            self.__warnings.append(
                'Invalid resources directory. Can\'t read ' +
                'directory data at RVA: 0x%x' % rva)
            return None
        
        # Get the resource directory structure, that is, the header
        # of the table preceding the actual entries
        #
        resource_dir = self.__unpack_data__(
            self.__IMAGE_RESOURCE_DIRECTORY_format__, data,
            file_offset = self.get_offset_from_rva(rva) )
        if resource_dir is None:
            # If can't parse resources directory then silently return.
            # This directory does not necessarily have to be valid to
            # still have a valid PE file
            self.__warnings.append(
                'Invalid resources directory. Can\'t parse ' +
                'directory data at RVA: 0x%x' % rva)
            #print "At 0x%08x" % self.get_offset_from_rva(rva)
            return None
        
        dir_entries = []
        
        # Advance the RVA to the positon immediately following the directory
        # table header and pointing to the first entry in the table
        #
        rva += resource_dir.sizeof()
        
        number_of_entries = (
            resource_dir.NumberOfNamedEntries +
            resource_dir.NumberOfIdEntries )
        
        strings_to_postprocess = list()
        
        for idx in xrange(number_of_entries):
            
            res = self.parse_resource_entry(rva)
            if res is None:
                self.__warnings.append(
                    'Error parsing the resources directory, ' +
                    'Entry %d is invalid, RVA = 0x%x. ' %
                    (idx, rva) )
                break
            
            
            entry_name = None
            entry_id = None
            
            # If all named entries have been processed, only Id ones
            # remain
            
            if idx >= resource_dir.NumberOfNamedEntries:
                entry_id = res.Name
            else:
                ustr_offset = base_rva+res.NameOffset
                try:
                    #entry_name = self.get_string_u_at_rva(ustr_offset, max_length=16)
                    entry_name = UnicodeStringWrapperPostProcessor(self, ustr_offset)
                    strings_to_postprocess.append(entry_name)
                
                except PEFormatError, excp:
                    self.__warnings.append(
                        'Error parsing the resources directory, ' +
                        'attempting to read entry name. ' +
                        'Can\'t read unicode string at offset 0x%x' %
                        (ustr_offset) )
                
            
            if res.DataIsDirectory:
                # OC Patch:
                #
                # One trick malware can do is to recursively reference
                # the next directory. This causes hilarity to ensue when
                # trying to parse everything correctly.
                # If the original RVA given to this function is equal to
                # the next one to parse, we assume that it's a trick.
                # Instead of raising a PEFormatError this would skip some
                # reasonable data so we just break.
                #
                # 9ee4d0a0caf095314fd7041a3e4404dc is the offending sample
                if original_rva == (base_rva + res.OffsetToDirectory):
                    
                    break
                
                else:
                    entry_directory = self.parse_resources_directory(
                        base_rva+res.OffsetToDirectory,
                        base_rva=base_rva, level = level+1)
                
                if not entry_directory:
                    break
                dir_entries.append(
                    ResourceDirEntryData(
                        struct = res,
                        name = entry_name,
                        id = entry_id,
                        directory = entry_directory))
            
            else:
                struct = self.parse_resource_data_entry(
                    base_rva + res.OffsetToDirectory)
                
                if struct:
                    entry_data = ResourceDataEntryData(
                        struct = struct,
                        lang = res.Name & 0xff,
                        sublang = (res.Name>>8) & 0xff)
                    
                    dir_entries.append(
                        ResourceDirEntryData(
                            struct = res,
                            name = entry_name,
                            id = entry_id,
                            data = entry_data))
                
                else:
                    break
                
            
            
            # Check if this entry contains version information
            #
            if level == 0 and res.Id == RESOURCE_TYPE['RT_VERSION']:
                if len(dir_entries)>0:
                    last_entry = dir_entries[-1]
                
                rt_version_struct = None
                try:
                    rt_version_struct = last_entry.directory.entries[0].directory.entries[0].data.struct
                except:
                    # Maybe a malformed directory structure...?
                    # Lets ignore it
                    pass
                
                if rt_version_struct is not None:
                    self.parse_version_information(rt_version_struct)
            
            rva += res.sizeof()
                    
        
        string_rvas = [s.get_rva() for s in strings_to_postprocess]
        string_rvas.sort()
        
        for idx, s in enumerate(strings_to_postprocess):
            s.render_pascal_16()
            
        
        resource_directory_data = ResourceDirData(
            struct = resource_dir,
            entries = dir_entries)
        
        return resource_directory_data
        
    
    def parse_resource_data_entry(self, rva):
        """Parse a data entry from the resources directory."""
        
        try:
            # If the RVA is invalid all would blow up. Some EXEs seem to be
            # specially nasty and have an invalid RVA.
            data = self.get_data(rva, Structure(self.__IMAGE_RESOURCE_DATA_ENTRY_format__).sizeof() )
        except PEFormatError, excp:
            self.__warnings.append(
                'Error parsing a resource directory data entry, ' +
                'the RVA is invalid: 0x%x' % ( rva ) )
            return None
        
        data_entry = self.__unpack_data__(
            self.__IMAGE_RESOURCE_DATA_ENTRY_format__, data,
            file_offset = self.get_offset_from_rva(rva) )
        
        return data_entry
        
    
    def parse_resource_entry(self, rva):
        """Parse a directory entry from the resources directory."""
        
        resource = self.__unpack_data__(
            self.__IMAGE_RESOURCE_DIRECTORY_ENTRY_format__, 
            self.get_data( rva, Structure(self.__IMAGE_RESOURCE_DIRECTORY_ENTRY_format__).sizeof() ),
            file_offset = self.get_offset_from_rva(rva) )
        
        if resource is None:
            return None
        
        #resource.NameIsString = (resource.Name & 0x80000000L) >> 31
        resource.NameOffset = resource.Name & 0x7FFFFFFFL
        
        resource.__pad = resource.Name & 0xFFFF0000L
        resource.Id = resource.Name & 0x0000FFFFL
        
        resource.DataIsDirectory = (resource.OffsetToData & 0x80000000L) >> 31
        resource.OffsetToDirectory = resource.OffsetToData & 0x7FFFFFFFL
        
        return resource
        
    
    def parse_version_information(self, version_struct):
        """Parse version information structure.
        
        The date will be made available in three attributes of the PE object.
        
        VS_VERSIONINFO     will contain the first three fields of the main structure:
            'Length', 'ValueLength', and 'Type'
        
        VS_FIXEDFILEINFO    will hold the rest of the fields, accessible as sub-attributes:
            'Signature', 'StrucVersion', 'FileVersionMS', 'FileVersionLS',
            'ProductVersionMS', 'ProductVersionLS', 'FileFlagsMask', 'FileFlags',
            'FileOS', 'FileType', 'FileSubtype', 'FileDateMS', 'FileDateLS'
        
        FileInfo    is a list of all StringFileInfo and VarFileInfo structures.
        
        StringFileInfo structures will have a list as an attribute named 'StringTable'
        containing all the StringTable structures. Each of those structures contains a
        dictionary 'entries' with all the key/value version information string pairs.
        
        VarFileInfo structures will have a list as an attribute named 'Var' containing
        all Var structures. Each Var structure will have a dictionary as an attribute
        named 'entry' which will contain the name and value of the Var.
        """
        
        
        # Retrieve the data for the version info resource
        #
        start_offset = self.get_offset_from_rva( version_struct.OffsetToData )
        raw_data = self.__data__[ start_offset : start_offset+version_struct.Size ]
        
        
        # Map the main structure and the subsequent string
        #
        versioninfo_struct = self.__unpack_data__(
            self.__VS_VERSIONINFO_format__, raw_data,
            file_offset = start_offset )
        
        if versioninfo_struct is None:
            return
        
        ustr_offset = version_struct.OffsetToData + versioninfo_struct.sizeof()
        try:
            versioninfo_string = self.get_string_u_at_rva( ustr_offset )
        except PEFormatError, excp:
            self.__warnings.append(
                'Error parsing the version information, ' +
                'attempting to read VS_VERSION_INFO string. Can\'t ' +
                'read unicode string at offset 0x%x' % (
                ustr_offset ) )
            
            versioninfo_string = None
        
        # If the structure does not contain the expected name, it's assumed to be invalid
        #
        if versioninfo_string != u'VS_VERSION_INFO':
            
            self.__warnings.append('Invalid VS_VERSION_INFO block')
            return
        
        
        # Set the PE object's VS_VERSIONINFO to this one
        #
        self.VS_VERSIONINFO = versioninfo_struct
        
        # The the Key attribute to point to the unicode string identifying the structure
        #
        self.VS_VERSIONINFO.Key = versioninfo_string
        
        
        # Process the fixed version information, get the offset and structure
        #
        fixedfileinfo_offset = self.dword_align(
            versioninfo_struct.sizeof() + 2 * (len(versioninfo_string) + 1),
            version_struct.OffsetToData)
        fixedfileinfo_struct = self.__unpack_data__(
            self.__VS_FIXEDFILEINFO_format__,
            raw_data[fixedfileinfo_offset:],
            file_offset = start_offset+fixedfileinfo_offset )
        
        if not fixedfileinfo_struct:
            return
        
        # Set the PE object's VS_FIXEDFILEINFO to this one
        #
        self.VS_FIXEDFILEINFO = fixedfileinfo_struct
        
        
        # Start parsing all the StringFileInfo and VarFileInfo structures
        #
        
        # Get the first one
        #
        stringfileinfo_offset = self.dword_align(
            fixedfileinfo_offset + fixedfileinfo_struct.sizeof(),
            version_struct.OffsetToData)
        original_stringfileinfo_offset = stringfileinfo_offset
        
        
        # Set the PE object's attribute that will contain them all.
        #
        self.FileInfo = list()
        
        
        while True:
            
            # Process the StringFileInfo/VarFileInfo struct
            #
            stringfileinfo_struct = self.__unpack_data__(
                self.__StringFileInfo_format__,
                raw_data[stringfileinfo_offset:],
                file_offset = start_offset+stringfileinfo_offset )
            
            if stringfileinfo_struct is None:
                self.__warnings.append(
                    'Error parsing StringFileInfo/VarFileInfo struct' )
                return None
            
            # Get the subsequent string defining the structure.
            #
            ustr_offset = ( version_struct.OffsetToData +
                stringfileinfo_offset + versioninfo_struct.sizeof() )
            try:
                stringfileinfo_string = self.get_string_u_at_rva( ustr_offset )
            except PEFormatError, excp:
                self.__warnings.append(
                    'Error parsing the version information, ' +
                    'attempting to read StringFileInfo string. Can\'t ' +
                    'read unicode string at offset 0x%x' %  ( ustr_offset ) )
                break
            
            # Set such string as the Key attribute
            #
            stringfileinfo_struct.Key = stringfileinfo_string
            
            
            # Append the structure to the PE object's list
            #
            self.FileInfo.append(stringfileinfo_struct)
            
            
            # Parse a StringFileInfo entry
            #
            if stringfileinfo_string.startswith(u'StringFileInfo'):
                
                if stringfileinfo_struct.Type == 1 and stringfileinfo_struct.ValueLength == 0:
                    
                    stringtable_offset = self.dword_align(
                        stringfileinfo_offset + stringfileinfo_struct.sizeof() +
                            2*(len(stringfileinfo_string)+1),
                        version_struct.OffsetToData)
                    
                    stringfileinfo_struct.StringTable = list()
                    
                    # Process the String Table entries
                    #
                    while True:
                        
                        stringtable_struct = self.__unpack_data__(
                            self.__StringTable_format__,
                            raw_data[stringtable_offset:],
                            file_offset = start_offset+stringtable_offset )
                        
                        if not stringtable_struct:
                            break
                        
                        ustr_offset = ( version_struct.OffsetToData + stringtable_offset +
                            stringtable_struct.sizeof() )
                        try:
                            stringtable_string = self.get_string_u_at_rva( ustr_offset )
                        except PEFormatError, excp:
                            self.__warnings.append(
                                'Error parsing the version information, ' +
                                'attempting to read StringTable string. Can\'t ' +
                                'read unicode string at offset 0x%x' % ( ustr_offset ) )
                            break
                        
                        stringtable_struct.LangID = stringtable_string
                        stringtable_struct.entries = dict()
                        stringtable_struct.entries_offsets = dict()
                        stringtable_struct.entries_lengths = dict()
                        stringfileinfo_struct.StringTable.append(stringtable_struct)
                        
                        entry_offset = self.dword_align(
                            stringtable_offset + stringtable_struct.sizeof() +
                                2*(len(stringtable_string)+1),
                            version_struct.OffsetToData)
                        
                        # Process all entries in the string table
                        #
                        
                        while entry_offset < stringtable_offset + stringtable_struct.Length:
                            
                            string_struct = self.__unpack_data__(
                                self.__String_format__, raw_data[entry_offset:],
                                file_offset = start_offset+entry_offset )
                            
                            if not string_struct:
                                break
                            
                            ustr_offset = ( version_struct.OffsetToData + entry_offset +
                                string_struct.sizeof() )
                            try:
                                key = self.get_string_u_at_rva( ustr_offset )
                                key_offset = self.get_offset_from_rva( ustr_offset )
                            except PEFormatError, excp:
                                self.__warnings.append(
                                    'Error parsing the version information, ' +
                                    'attempting to read StringTable Key string. Can\'t ' +
                                    'read unicode string at offset 0x%x' % ( ustr_offset ) )
                                break
                            
                            value_offset = self.dword_align(
                                2*(len(key)+1) + entry_offset + string_struct.sizeof(),
                                version_struct.OffsetToData)
                            
                            ustr_offset = version_struct.OffsetToData + value_offset
                            try:
                                value = self.get_string_u_at_rva( ustr_offset,
                                    max_length = string_struct.ValueLength )
                                value_offset = self.get_offset_from_rva( ustr_offset )
                            except PEFormatError, excp:
                                self.__warnings.append(
                                    'Error parsing the version information, ' +
                                    'attempting to read StringTable Value string. ' +
                                    'Can\'t read unicode string at offset 0x%x' % (
                                    ustr_offset ) )
                                break
                            
                            if string_struct.Length == 0:
                                entry_offset = stringtable_offset + stringtable_struct.Length
                            else:
                                entry_offset = self.dword_align(
                                    string_struct.Length+entry_offset, version_struct.OffsetToData)
                            
                            key_as_char = []
                            for c in key:
                                if ord(c)>128:
                                    key_as_char.append('\\x%02x' %ord(c))
                                else:
                                    key_as_char.append(c)
                            
                            key_as_char = ''.join(key_as_char)
                            
                            setattr(stringtable_struct, key_as_char, value)
                            stringtable_struct.entries[key] = value
                            stringtable_struct.entries_offsets[key] = (key_offset, value_offset)
                            stringtable_struct.entries_lengths[key] = (len(key), len(value))
                        
                        
                        new_stringtable_offset = self.dword_align(
                            stringtable_struct.Length + stringtable_offset,
                            version_struct.OffsetToData)
                            
                        # check if the entry is crafted in a way that would lead to an infinite
                        # loop and break if so
                        #
                        if new_stringtable_offset == stringtable_offset:
                            break
                        stringtable_offset = new_stringtable_offset
                            
                        if stringtable_offset >= stringfileinfo_struct.Length:
                            break
            
            # Parse a VarFileInfo entry
            #
            elif stringfileinfo_string.startswith( u'VarFileInfo' ):
                
                varfileinfo_struct = stringfileinfo_struct
                varfileinfo_struct.name = 'VarFileInfo'
                
                if varfileinfo_struct.Type == 1 and varfileinfo_struct.ValueLength == 0:
                    
                    var_offset = self.dword_align(
                        stringfileinfo_offset + varfileinfo_struct.sizeof() +
                            2*(len(stringfileinfo_string)+1),
                        version_struct.OffsetToData)
                    
                    varfileinfo_struct.Var = list()
                    
                    # Process all entries
                    #
                    
                    while True:
                        var_struct = self.__unpack_data__(
                            self.__Var_format__,
                            raw_data[var_offset:],
                            file_offset = start_offset+var_offset )
                        
                        if not var_struct:
                            break
                        
                        ustr_offset = ( version_struct.OffsetToData + var_offset +
                            var_struct.sizeof() )
                        try:
                            var_string = self.get_string_u_at_rva( ustr_offset )
                        except PEFormatError, excp:
                            self.__warnings.append(
                                'Error parsing the version information, ' +
                                'attempting to read VarFileInfo Var string. ' +
                                'Can\'t read unicode string at offset 0x%x' % (ustr_offset))
                            break
                        
                        
                        varfileinfo_struct.Var.append(var_struct)
                        
                        varword_offset = self.dword_align(
                            2*(len(var_string)+1) + var_offset + var_struct.sizeof(),
                            version_struct.OffsetToData)
                        orig_varword_offset = varword_offset
                        
                        while varword_offset < orig_varword_offset + var_struct.ValueLength:
                            word1 = self.get_word_from_data(
                                raw_data[varword_offset:varword_offset+2], 0)
                            word2 = self.get_word_from_data(
                                raw_data[varword_offset+2:varword_offset+4], 0)
                            varword_offset += 4
                            
                            if isinstance(word1, (int, long)) and isinstance(word1, (int, long)):
                                var_struct.entry = {var_string: '0x%04x 0x%04x' % (word1, word2)}
                        
                        var_offset = self.dword_align(
                            var_offset+var_struct.Length, version_struct.OffsetToData)
                        
                        if var_offset <= var_offset+var_struct.Length:
                            break
                
            
            # Increment and align the offset
            #
            stringfileinfo_offset = self.dword_align(
                stringfileinfo_struct.Length+stringfileinfo_offset,
                version_struct.OffsetToData)
            
            # Check if all the StringFileInfo and VarFileInfo items have been processed
            #
            if stringfileinfo_struct.Length == 0 or stringfileinfo_offset >= versioninfo_struct.Length:
                break
            
        
    
    def parse_export_directory(self, rva, size):
        """Parse the export directory.
        
        Given the RVA of the export directory, it will process all
        its entries.
        
        The exports will be made available through a list "exports"
        containing a tuple with the following elements:
            
            (ordinal, symbol_address, symbol_name)
        
        And also through a dictionary "exports_by_ordinal" whose keys
        will be the ordinals and the values tuples of the from:
            
            (symbol_address, symbol_name)
        
        The symbol addresses are relative, not absolute.
        """
        
        try:
            export_dir =  self.__unpack_data__(
                self.__IMAGE_EXPORT_DIRECTORY_format__,
                self.get_data( rva, Structure(self.__IMAGE_EXPORT_DIRECTORY_format__).sizeof() ),
                file_offset = self.get_offset_from_rva(rva) )
        except PEFormatError:
            self.__warnings.append(
                'Error parsing export directory at RVA: 0x%x' % ( rva ) )
            return
        
        if not export_dir:
            return
        
        # We keep track of the bytes left in the file and use it to set a upper
        # bound in the number of items that can be read from the different
        # arrays
        #
        def length_until_eof(rva):
            return len(self.__data__) - self.get_offset_from_rva(rva)
        
        try:
            address_of_names = self.get_data(
                export_dir.AddressOfNames, min( length_until_eof(export_dir.AddressOfNames), export_dir.NumberOfNames*4))
            address_of_name_ordinals = self.get_data(
                export_dir.AddressOfNameOrdinals, min( length_until_eof(export_dir.AddressOfNameOrdinals), export_dir.NumberOfNames*4) )
            address_of_functions = self.get_data(
                export_dir.AddressOfFunctions, min( length_until_eof(export_dir.AddressOfFunctions), export_dir.NumberOfFunctions*4) )
        except PEFormatError:
            self.__warnings.append(
                'Error parsing export directory at RVA: 0x%x' % ( rva ) )
            return
        
        exports = []
        
        for i in xrange( min( export_dir.NumberOfNames, length_until_eof(export_dir.AddressOfNames)/4) ):
                
            symbol_name_address = self.get_dword_from_data(address_of_names, i)
            symbol_name = self.get_string_at_rva( symbol_name_address )
            
            symbol_ordinal = self.get_word_from_data(
                address_of_name_ordinals, i)
            
            
            if symbol_ordinal*4 < len(address_of_functions):
                symbol_address = self.get_dword_from_data(
                    address_of_functions, symbol_ordinal)
            else:
                # Corrupt? a bad pointer... we assume it's all
                # useless, no exports
                return None

            if symbol_address is None or symbol_address == 0:
                continue
            
            # If the funcion's RVA points within the export directory
            # it will point to a string with the forwarded symbol's string
            # instead of pointing the the function start address.
            
            if symbol_address >= rva and symbol_address < rva+size:
                forwarder_str = self.get_string_at_rva(symbol_address)
            else:
                forwarder_str = None
            
            exports.append(
                ExportData(
                    pe = self,
                    ordinal = export_dir.Base+symbol_ordinal,
                    ordinal_offset = self.get_offset_from_rva( export_dir.AddressOfNameOrdinals + 2*i ),
                    address = symbol_address,
                    address_offset = self.get_offset_from_rva( export_dir.AddressOfFunctions + 4*symbol_ordinal ),
                    name = symbol_name,
                    name_offset = self.get_offset_from_rva( symbol_name_address ),
                    forwarder = forwarder_str,
                    forwarder_offset = self.get_offset_from_rva( symbol_address ) ))
        
        ordinals = [exp.ordinal for exp in exports]
        
        for idx in xrange( min(export_dir.NumberOfFunctions, length_until_eof(export_dir.AddressOfFunctions)/4) ):
            
            if not idx+export_dir.Base in ordinals:
                symbol_address = self.get_dword_from_data(
                    address_of_functions,
                    idx)
                
                if symbol_address is None or symbol_address == 0:
                    continue
                #
                # Checking for forwarder again.
                #
                if symbol_address >= rva and symbol_address < rva+size:
                    forwarder_str = self.get_string_at_rva(symbol_address)
                else:
                    forwarder_str = None
                
                exports.append(
                    ExportData(
                        ordinal = export_dir.Base+idx,
                        address = symbol_address,
                        name = None,
                        forwarder = forwarder_str))
        
        return ExportDirData(
                struct = export_dir,
                symbols = exports)
        
    
    def dword_align(self, offset, base):
        offset += base
        return (offset+3) - ((offset+3)%4) - base
        
    
    def parse_delay_import_directory(self, rva, size):
        """Walk and parse the delay import directory."""
        
        import_descs =  []
        while True:
            try:
                # If the RVA is invalid all would blow up. Some PEs seem to be
                # specially nasty and have an invalid RVA.
                data = self.get_data( rva, Structure(self.__IMAGE_DELAY_IMPORT_DESCRIPTOR_format__).sizeof() )
            except PEFormatError, e:
                self.__warnings.append(
                    'Error parsing the Delay import directory at RVA: 0x%x' % ( rva ) )
                break
            
            import_desc =  self.__unpack_data__(
                self.__IMAGE_DELAY_IMPORT_DESCRIPTOR_format__,
                data, file_offset = self.get_offset_from_rva(rva) )
            
            
            # If the structure is all zeroes, we reached the end of the list
            if not import_desc or import_desc.all_zeroes():
                break
            
            
            rva += import_desc.sizeof()
            
            try:
                import_data =  self.parse_imports(
                    import_desc.pINT,
                    import_desc.pIAT,
                    None)
            except PEFormatError, e:
                self.__warnings.append(
                    'Error parsing the Delay import directory. ' +
                    'Invalid import data at RVA: 0x%x' % ( rva ) )
                break
            
            if not import_data:
                continue
            
            
            dll = self.get_string_at_rva(import_desc.szName)
            if dll:
                import_descs.append(
                    ImportDescData(
                        struct = import_desc,
                        imports = import_data,
                        dll = dll))
        
        return import_descs
                    

    
    def parse_import_directory(self, rva, size):
        """Walk and parse the import directory."""
        
        import_descs =  []
        while True:
            try:
                # If the RVA is invalid all would blow up. Some EXEs seem to be
                # specially nasty and have an invalid RVA.
                data = self.get_data(rva, Structure(self.__IMAGE_IMPORT_DESCRIPTOR_format__).sizeof() )
            except PEFormatError, e:
                self.__warnings.append(
                    'Error parsing the Import directory at RVA: 0x%x' % ( rva ) )
                break
            
            import_desc =  self.__unpack_data__(
                self.__IMAGE_IMPORT_DESCRIPTOR_format__,
                data, file_offset = self.get_offset_from_rva(rva) )
            
            # If the structure is all zeroes, we reached the end of the list
            if not import_desc or import_desc.all_zeroes():
                break
            
            rva += import_desc.sizeof()
            
            try:
                import_data =  self.parse_imports(
                    import_desc.OriginalFirstThunk,
                    import_desc.FirstThunk,
                    import_desc.ForwarderChain)
            except PEFormatError, excp:
                self.__warnings.append(
                    'Error parsing the Import directory. ' +
                    'Invalid Import data at RVA: 0x%x (%s)' % ( rva, str(excp) ) )
                break
                #raise excp
            
            if not import_data:
                continue
            
            dll = self.get_string_at_rva(import_desc.Name)
            if dll:
                import_descs.append(
                    ImportDescData(
                        struct = import_desc,
                        imports = import_data,
                        dll = dll))
        
        suspicious_imports = set([ 'LoadLibrary', 'GetProcAddress' ])
        suspicious_imports_count = 0
        total_symbols = 0
        for imp_dll in import_descs:
            for symbol in imp_dll.imports:
                for suspicious_symbol in suspicious_imports:
                    if symbol and symbol.name and symbol.name.startswith( suspicious_symbol ):
                        suspicious_imports_count += 1
                        break
                total_symbols += 1
        if suspicious_imports_count == len(suspicious_imports) and total_symbols < 20:
            self.__warnings.append(
                'Imported symbols contain entries typical of packed executables.' )
            
            
        
        return import_descs

    
    
    def parse_imports(self, original_first_thunk, first_thunk, forwarder_chain):
        """Parse the imported symbols.
        
        It will fill a list, which will be available as the dictionary
        attribute "imports". Its keys will be the DLL names and the values
        all the symbols imported from that object.
        """
        
        imported_symbols = []
        imports_section = self.get_section_by_rva(first_thunk)
        if not imports_section:
            raise PEFormatError, 'Invalid/corrupt imports.'
        
        # Import Lookup Table. Contains ordinals or pointers to strings.
        ilt = self.get_import_table(original_first_thunk)
        # Import Address Table. May have identical content to ILT if
        # PE file is not bounded, Will contain the address of the
        # imported symbols once the binary is loaded or if it is already
        # bound.
        iat = self.get_import_table(first_thunk)

        # OC Patch:
        # Would crash if IAT or ILT had None type
        if (not iat or len(iat)==0) and (not ilt or len(ilt)==0):
            raise PEFormatError(
                'Invalid Import Table information. ' +
                'Both ILT and IAT appear to be broken.')
        
        table = None
        if ilt:
            table = ilt
        elif iat:
            table = iat
        else:
            return None
        
        if self.PE_TYPE == OPTIONAL_HEADER_MAGIC_PE:
            ordinal_flag = IMAGE_ORDINAL_FLAG
        elif self.PE_TYPE == OPTIONAL_HEADER_MAGIC_PE_PLUS:
            ordinal_flag = IMAGE_ORDINAL_FLAG64
        
        
        for idx in xrange(len(table)):
            
            imp_ord = None
            imp_hint = None
            imp_name = None
            name_offset = None
            hint_name_table_rva = None
            
            if table[idx].AddressOfData:
                
                # If imported by ordinal, we will append the ordinal number
                #
                if table[idx].AddressOfData & ordinal_flag:
                    import_by_ordinal = True
                    imp_ord = table[idx].AddressOfData & 0xffff
                    imp_name = None
                    name_offset = None
                else:
                    import_by_ordinal = False
                    try:
                        hint_name_table_rva = table[idx].AddressOfData & 0x7fffffff
                        data = self.get_data(hint_name_table_rva, 2)
                        # Get the Hint
                        imp_hint = self.get_word_from_data(data, 0)
                        imp_name = self.get_string_at_rva(table[idx].AddressOfData+2)
                        name_offset = self.get_offset_from_rva(table[idx].AddressOfData+2)
                    except PEFormatError, e:
                        pass
            
            imp_address = first_thunk + self.OPTIONAL_HEADER.ImageBase + idx * 4
            
            struct_iat = None
            try:
                if iat and ilt and ilt[idx].AddressOfData != iat[idx].AddressOfData:
                    imp_bound = iat[idx].AddressOfData
                    struct_iat = iat[idx]
                else:
                    imp_bound = None
            except IndexError:
                imp_bound = None
            
            # The file with hashes:
            #
            # MD5: bfe97192e8107d52dd7b4010d12b2924
            # SHA256: 3d22f8b001423cb460811ab4f4789f277b35838d45c62ec0454c877e7c82c7f5
            #
            # has an invalid table built in a way that it's parseable but contains invalid
            # entries that lead pefile to take extremely long amounts of time to
            # parse. It also leads to extreme memory consumption.
            # To prevent similar cases, if invalid entries are found in the middle of a
            # table the parsing will be aborted
            #
            if imp_ord == None and imp_name == None:
                raise PEFormatError( 'Invalid entries in the Import Table. Aborting parsing.' )
            
            if imp_name != '' and (imp_ord or imp_name):
                imported_symbols.append(
                    ImportData(
                    pe = self,
                        struct_table = table[idx],
                        struct_iat = struct_iat, # for bound imports if any
                        import_by_ordinal = import_by_ordinal,
                        ordinal = imp_ord,
                        ordinal_offset = table[idx].get_file_offset(),
                        hint = imp_hint,
                        name = imp_name,
                        name_offset = name_offset,
                        bound = imp_bound,
                        address = imp_address,
                        hint_name_table_rva = hint_name_table_rva))
        
        return imported_symbols


    
    def get_import_table(self, rva):
        
        table = []
        
        while True and rva:
            
            if self.PE_TYPE == OPTIONAL_HEADER_MAGIC_PE:
                format = self.__IMAGE_THUNK_DATA_format__
            elif self.PE_TYPE == OPTIONAL_HEADER_MAGIC_PE_PLUS:
                format = self.__IMAGE_THUNK_DATA64_format__
            
            try:
                data = self.get_data( rva, Structure(format).sizeof() )
            except PEFormatError, e:
                self.__warnings.append(
                    'Error parsing the import table. ' +
                    'Invalid data at RVA: 0x%x' % ( rva ) )
                return None
            
            thunk_data = self.__unpack_data__(
                format, data, file_offset=self.get_offset_from_rva(rva) )
            
            if not thunk_data or thunk_data.all_zeroes():
                break
            
            rva += thunk_data.sizeof()
            
            table.append(thunk_data)
        
        return table
    
    
    def get_memory_mapped_image(self, max_virtual_address=0x10000000, ImageBase=None):
        """Returns the data corresponding to the memory layout of the PE file.
        
        The data includes the PE header and the sections loaded at offsets
        corresponding to their relative virtual addresses. (the VirtualAddress
        section header member).
        Any offset in this data corresponds to the absolute memory address
        ImageBase+offset.
        
        The optional argument 'max_virtual_address' provides with means of limiting
        which section are processed.
        Any section with their VirtualAddress beyond this value will be skipped.
        Normally, sections with values beyond this range are just there to confuse
        tools. It's a common trick to see in packed executables.
        
        If the 'ImageBase' optional argument is supplied, the file's relocations
        will be applied to the image by calling the 'relocate_image()' method. Beware
        that the relocation information is applied permanently.
        """
        
        # Rebase if requested
        #
        if ImageBase is not None:
            
            # Keep a copy of the image's data before modifying it by rebasing it
            #
            original_data = self.__data__
            
            self.relocate_image(ImageBase)
            
        # Collect all sections in one code block
        mapped_data = self.header
        for section in self.sections:
            
            # Miscellaneous integrity tests.
            # Some packer will set these to bogus values to
            # make tools go nuts.
            #
            if section.Misc_VirtualSize == 0 or section.SizeOfRawData == 0:
                continue
            
            if section.SizeOfRawData > len(self.__data__):
                continue
            
            if section.PointerToRawData > len(self.__data__):
                continue
            
            if section.VirtualAddress >= max_virtual_address:
                continue
            
            padding_length = section.VirtualAddress - len(mapped_data)
            
            if padding_length>0:
                mapped_data += '\0'*padding_length
            elif padding_length<0:
                mapped_data = mapped_data[:padding_length]
            
            mapped_data += section.data
            
        # If the image was rebased, restore it to its original form
        #
        if ImageBase is not None:
            self.__data__ = original_data
            
            self.update_all_section_data()
        
        return mapped_data
            
    
    def get_data(self, rva, length=None):
        """Get data regardless of the section where it lies on.
        
        Given a RVA and the size of the chunk to retrieve, this method
        will find the section where the data lies and return the data.
        """
        
        s = self.get_section_by_rva(rva)
        
        if not s:
            if rva<len(self.header):
                if length:
                    end = rva+length
                else:
                    end = None
                return self.header[rva:end]
            
            raise PEFormatError, 'data at RVA can\'t be fetched. Corrupt header?'
        
        return s.get_data(rva, length)

    
    def get_rva_from_offset(self, offset):
        """Get the RVA corresponding to this file offset. """
        
        s = self.get_section_by_offset(offset)
        if not s:
            raise PEFormatError("specified offset (0x%x) doesn't belong to any section." % offset)
        return s.get_rva_from_offset(offset)
    
    def get_offset_from_rva(self, rva):
        """Get the file offset corresponding to this RVA.
        
        Given a RVA , this method will find the section where the
        data lies and return the offset within the file.
        """
        
        s = self.get_section_by_rva(rva)
        if not s:
            
            raise PEFormatError, 'data at RVA can\'t be fetched. Corrupt header?'
        
        return s.get_offset_from_rva(rva)
            
    
    def get_string_at_rva(self, rva):
        """Get an ASCII string located at the given address."""
        
        s = self.get_section_by_rva(rva)
        if not s:
            if rva<len(self.header):
                return self.get_string_from_data(rva, self.header)
            return None
        
        return self.get_string_from_data(rva-s.VirtualAddress, s.data)
        
    
    def get_string_from_data(self, offset, data):
        """Get an ASCII string from within the data."""
        
        # OC Patch
        b = None
        
        try:
            b = data[offset]
        except IndexError:
            return ''
        
        s = ''
        while ord(b):
            s += b
            offset += 1
            try:
                b = data[offset]
            except IndexError:
                break
        
        return s
                
    
    def get_string_u_at_rva(self, rva, max_length = 2**16):
        """Get an Unicode string located at the given address."""
        
        try:
            # If the RVA is invalid all would blow up. Some EXEs seem to be
            # specially nasty and have an invalid RVA.
            data = self.get_data(rva, 2)
        except PEFormatError, e:
            return None
        
        #length = struct.unpack('<H', data)[0]
        
        s = u''
        for idx in xrange(max_length):
            try:
                uchr = struct.unpack('<H', self.get_data(rva+2*idx, 2))[0]
            except struct.error:
                break
            
            if unichr(uchr) == u'\0':
                break
            s += unichr(uchr)
        
        return s

    
    def get_section_by_offset(self, offset):
        """Get the section containing the given file offset."""
        
        sections = [s for s in self.sections if s.contains_offset(offset)]
        
        if sections:
            return sections[0]
        
        return None

    
    def get_section_by_rva(self, rva):
        """Get the section containing the given address."""
        
        sections = [s for s in self.sections if s.contains_rva(rva)]
        
        if sections:
            return sections[0]
        
        return None
    
    def __str__(self):
        return self.dump_info()
        
    
    def print_info(self):
        """Print all the PE header information in a human readable from."""
        print self.dump_info()
        
    
    def dump_info(self, dump=None):
        """Dump all the PE header information into human readable string."""
        
        
        if dump is None:
            dump = Dump()
        
        warnings = self.get_warnings()
        if warnings:
            dump.add_header('Parsing Warnings')
            for warning in warnings:
                dump.add_line(warning)
                dump.add_newline()
        
        
        dump.add_header('DOS_HEADER')
        dump.add_lines(self.DOS_HEADER.dump())
        dump.add_newline()
        
        dump.add_header('NT_HEADERS')
        dump.add_lines(self.NT_HEADERS.dump())
        dump.add_newline()
        
        dump.add_header('FILE_HEADER')
        dump.add_lines(self.FILE_HEADER.dump())
        
        image_flags = self.retrieve_flags(IMAGE_CHARACTERISTICS, 'IMAGE_FILE_')
        
        dump.add('Flags: ')
        flags = []
        for flag in image_flags:
            if getattr(self.FILE_HEADER, flag[0]):
                flags.append(flag[0])
        dump.add_line(', '.join(flags))
        dump.add_newline()
        
        if hasattr(self, 'OPTIONAL_HEADER') and self.OPTIONAL_HEADER is not None:
            dump.add_header('OPTIONAL_HEADER')
            dump.add_lines(self.OPTIONAL_HEADER.dump())
        
        dll_characteristics_flags = self.retrieve_flags(DLL_CHARACTERISTICS, 'IMAGE_DLL_CHARACTERISTICS_')
        
        dump.add('DllCharacteristics: ')
        flags = []
        for flag in dll_characteristics_flags:
            if getattr(self.OPTIONAL_HEADER, flag[0]):
                flags.append(flag[0])
        dump.add_line(', '.join(flags))
        dump.add_newline()
        
        
        dump.add_header('PE Sections')
        
        section_flags = self.retrieve_flags(SECTION_CHARACTERISTICS, 'IMAGE_SCN_')
        
        for section in self.sections:
            dump.add_lines(section.dump())
            dump.add('Flags: ')
            flags = []
            for flag in section_flags:
                if getattr(section, flag[0]):
                    flags.append(flag[0])
            dump.add_line(', '.join(flags))
            dump.add_line('Entropy: %f (Min=0.0, Max=8.0)' % section.get_entropy() )
            if md5 is not None:
                dump.add_line('MD5     hash: %s' % section.get_hash_md5() )
            if sha1 is not None:
                dump.add_line('SHA-1   hash: %s' % section.get_hash_sha1() )
            if sha256 is not None:
                dump.add_line('SHA-256 hash: %s' % section.get_hash_sha256() )
            if sha512 is not None:
                dump.add_line('SHA-512 hash: %s' % section.get_hash_sha512() )
            dump.add_newline()
            
        
        
        if (hasattr(self, 'OPTIONAL_HEADER') and
            hasattr(self.OPTIONAL_HEADER, 'DATA_DIRECTORY') ):
            
            dump.add_header('Directories')
            for idx in xrange(len(self.OPTIONAL_HEADER.DATA_DIRECTORY)):
                directory = self.OPTIONAL_HEADER.DATA_DIRECTORY[idx]
                dump.add_lines(directory.dump())
            dump.add_newline()
            
        
        def convert_char(char):
            if char in string.ascii_letters or char in string.digits or char in string.punctuation or char in string.whitespace:
                return char
            else:
                return r'\x%02x' % ord(char)
                
        def convert_to_printable(s):
            return ''.join([convert_char(c) for c in s])
        
        if hasattr(self, 'VS_VERSIONINFO'):
            dump.add_header('Version Information')
            dump.add_lines(self.VS_VERSIONINFO.dump())
            dump.add_newline()
            
            if hasattr(self, 'VS_FIXEDFILEINFO'):
                dump.add_lines(self.VS_FIXEDFILEINFO.dump())
                dump.add_newline()
            
            if hasattr(self, 'FileInfo'):
                for entry in self.FileInfo:
                    dump.add_lines(entry.dump())
                    dump.add_newline()
                    
                    if hasattr(entry, 'StringTable'):
                        for st_entry in entry.StringTable:
                            [dump.add_line('  '+line) for line in st_entry.dump()]
                            dump.add_line('  LangID: '+st_entry.LangID)
                            dump.add_newline()
                            for str_entry in st_entry.entries.items():
                                dump.add_line( '    ' +
                                    convert_to_printable(str_entry[0]) + ': ' +
                                    convert_to_printable(str_entry[1]) )
                        dump.add_newline()
                    
                    elif hasattr(entry, 'Var'):
                        for var_entry in entry.Var:
                            if hasattr(var_entry, 'entry'):
                                [dump.add_line('  '+line) for line in var_entry.dump()]
                                dump.add_line(
                                    '    ' + 
                                    convert_to_printable(var_entry.entry.keys()[0]) +
                                    ': ' + var_entry.entry.values()[0])
                        
                        dump.add_newline()

            
        
        if hasattr(self, 'DIRECTORY_ENTRY_EXPORT'):
            dump.add_header('Exported symbols')
            dump.add_lines(self.DIRECTORY_ENTRY_EXPORT.struct.dump())
            dump.add_newline()
            dump.add_line('%-10s   %-10s  %s' % ('Ordinal', 'RVA', 'Name'))
            for export in self.DIRECTORY_ENTRY_EXPORT.symbols:
                dump.add('%-10d 0x%08Xh    %s' % (
                    export.ordinal, export.address, export.name))
                if export.forwarder:
                    dump.add_line(' forwarder: %s' % export.forwarder)
                else:
                    dump.add_newline()
            
            dump.add_newline()
        
        if hasattr(self, 'DIRECTORY_ENTRY_IMPORT'):
            dump.add_header('Imported symbols')
            for module in self.DIRECTORY_ENTRY_IMPORT:
                dump.add_lines(module.struct.dump())
                dump.add_newline()
                for symbol in module.imports:
                    
                    if symbol.import_by_ordinal is True:
                        dump.add('%s Ordinal[%s] (Imported by Ordinal)' % (
                            module.dll, str(symbol.ordinal)))
                    else:
                        dump.add('%s.%s Hint[%s]' % (
                            module.dll, symbol.name, str(symbol.hint)))
                    
                    if symbol.bound:
                        dump.add_line(' Bound: 0x%08X' % (symbol.bound))
                    else:
                        dump.add_newline()
                dump.add_newline()
        
        
        if hasattr(self, 'DIRECTORY_ENTRY_BOUND_IMPORT'):
            dump.add_header('Bound imports')
            for bound_imp_desc in self.DIRECTORY_ENTRY_BOUND_IMPORT:
                
                dump.add_lines(bound_imp_desc.struct.dump())
                dump.add_line('DLL: %s' % bound_imp_desc.name)
                dump.add_newline()
                
                for bound_imp_ref in bound_imp_desc.entries:
                    dump.add_lines(bound_imp_ref.struct.dump(), 4)
                    dump.add_line('DLL: %s' % bound_imp_ref.name, 4)
                    dump.add_newline()

        
        if hasattr(self, 'DIRECTORY_ENTRY_DELAY_IMPORT'):
            dump.add_header('Delay Imported symbols')
            for module in self.DIRECTORY_ENTRY_DELAY_IMPORT:
                
                dump.add_lines(module.struct.dump())
                dump.add_newline()
                
                for symbol in module.imports:
                    if symbol.import_by_ordinal is True:
                        dump.add('%s Ordinal[%s] (Imported by Ordinal)' % (
                            module.dll, str(symbol.ordinal)))
                    else:
                        dump.add('%s.%s Hint[%s]' % (
                            module.dll, symbol.name, str(symbol.hint)))
                    
                    if symbol.bound:
                        dump.add_line(' Bound: 0x%08X' % (symbol.bound))
                    else:
                        dump.add_newline()
                dump.add_newline()
        
        
        if hasattr(self, 'DIRECTORY_ENTRY_RESOURCE'):
            dump.add_header('Resource directory')
            
            dump.add_lines(self.DIRECTORY_ENTRY_RESOURCE.struct.dump())
            
            for resource_type in self.DIRECTORY_ENTRY_RESOURCE.entries:
                
                if resource_type.name is not None:
                    dump.add_line('Name: [%s]' % resource_type.name, 2)
                else:
                    dump.add_line('Id: [0x%X] (%s)' % (
                        resource_type.struct.Id, RESOURCE_TYPE.get(
                            resource_type.struct.Id, '-')),
                        2)
                
                dump.add_lines(resource_type.struct.dump(), 2)
                
                if hasattr(resource_type, 'directory'):
                    
                    dump.add_lines(resource_type.directory.struct.dump(), 4)
                    
                    for resource_id in resource_type.directory.entries:
                        
                        if resource_id.name is not None:
                            dump.add_line('Name: [%s]' % resource_id.name, 6)
                        else:
                            dump.add_line('Id: [0x%X]' % resource_id.struct.Id, 6)
                        
                        dump.add_lines(resource_id.struct.dump(), 6)
                        
                        if hasattr(resource_id, 'directory'):
                            dump.add_lines(resource_id.directory.struct.dump(), 8)
                            
                            for resource_lang in resource_id.directory.entries:
                            #    dump.add_line('\\--- LANG [%d,%d][%s]' % (
                            #        resource_lang.data.lang,
                            #        resource_lang.data.sublang,
                            #        LANG[resource_lang.data.lang]), 8)
                                dump.add_lines(resource_lang.struct.dump(), 10)
                                dump.add_lines(resource_lang.data.struct.dump(), 12)
                dump.add_newline()
            
            dump.add_newline()
        
        
        if ( hasattr(self, 'DIRECTORY_ENTRY_TLS') and
             self.DIRECTORY_ENTRY_TLS and
             self.DIRECTORY_ENTRY_TLS.struct ):
            
            dump.add_header('TLS')
            dump.add_lines(self.DIRECTORY_ENTRY_TLS.struct.dump())
            dump.add_newline()
        
        
        if ( hasattr(self, 'DIRECTORY_ENTRY_LOAD_CONFIG') and
             self.DIRECTORY_ENTRY_LOAD_CONFIG and
             self.DIRECTORY_ENTRY_LOAD_CONFIG.struct ):
             
            dump.add_header('LOAD_CONFIG')
            dump.add_lines(self.DIRECTORY_ENTRY_LOAD_CONFIG.struct.dump())
            dump.add_newline()
        
        
        if hasattr(self, 'DIRECTORY_ENTRY_DEBUG'):
            dump.add_header('Debug information')
            for dbg in self.DIRECTORY_ENTRY_DEBUG:
                dump.add_lines(dbg.struct.dump())
                try:
                    dump.add_line('Type: '+DEBUG_TYPE[dbg.struct.Type])
                except KeyError:
                    dump.add_line('Type: 0x%x(Unknown)' % dbg.struct.Type)
                dump.add_newline()
        
        
        if hasattr(self, 'DIRECTORY_ENTRY_BASERELOC'):
            dump.add_header('Base relocations')
            for base_reloc in self.DIRECTORY_ENTRY_BASERELOC:
                dump.add_lines(base_reloc.struct.dump())
                for reloc in base_reloc.entries:
                    try:
                        dump.add_line('%08Xh %s' % (
                            reloc.rva, RELOCATION_TYPE[reloc.type][16:]), 4)
                    except KeyError:
                        dump.add_line('0x%08X 0x%x(Unknown)' % (
                            reloc.rva, reloc.type), 4)
                dump.add_newline()

        
        return dump.get_text()
    
    # OC Patch
    def get_physical_by_rva(self, rva):
        """Gets the physical address in the PE file from an RVA value."""
        try:
            return self.get_offset_from_rva(rva)
        except Exception:
            return None

    
    ##
    # Double-Word get/set
    ##
    
    def get_data_from_dword(self, dword):
        """Return a four byte string representing the double word value. (little endian)."""
        return struct.pack('<L', dword & 0xffffffff)

    
    def get_dword_from_data(self, data, offset):
        """Convert four bytes of data to a double word (little endian)
        
        'offset' is assumed to index into a dword array. So setting it to
        N will return a dword out of the data starting at offset N*4.
        
        Returns None if the data can't be turned into a double word.
        """
        
        if (offset+1)*4 > len(data):
            return None
        
        return struct.unpack('<I', data[offset*4:(offset+1)*4])[0]
        
    
    def get_dword_at_rva(self, rva):
        """Return the double word value at the given RVA.
        
        Returns None if the value can't be read, i.e. the RVA can't be mapped
        to a file offset.
        """
        
        try:
            return self.get_dword_from_data(self.get_data(rva)[:4], 0)
        except PEFormatError:
            return None

    
    def get_dword_from_offset(self, offset):
        """Return the double word value at the given file offset. (little endian)"""
        
        if offset+4 > len(self.__data__):
            return None
        
        return self.get_dword_from_data(self.__data__[offset:offset+4], 0)

    
    def set_dword_at_rva(self, rva, dword):
        """Set the double word value at the file offset corresponding to the given RVA."""
        return self.set_bytes_at_rva(rva, self.get_data_from_dword(dword))

    
    def set_dword_at_offset(self, offset, dword):
        """Set the double word value at the given file offset."""
        return self.set_bytes_at_offset(offset, self.get_data_from_dword(dword))


    
    ##
    # Word get/set
    ##
    
    def get_data_from_word(self, word):
        """Return a two byte string representing the word value. (little endian)."""
        return struct.pack('<H', word)

    
    def get_word_from_data(self, data, offset):
        """Convert two bytes of data to a word (little endian)
        
        'offset' is assumed to index into a word array. So setting it to
        N will return a dword out of the data starting at offset N*2.
        
        Returns None if the data can't be turned into a word.
        """
        
        if (offset+1)*2 > len(data):
            return None
        
        return struct.unpack('<H', data[offset*2:(offset+1)*2])[0]

    
    def get_word_at_rva(self, rva):
        """Return the word value at the given RVA.
        
        Returns None if the value can't be read, i.e. the RVA can't be mapped
        to a file offset.
        """
        
        try:
            return self.get_word_from_data(self.get_data(rva)[:2], 0)
        except PEFormatError:
            return None

    
    def get_word_from_offset(self, offset):
        """Return the word value at the given file offset. (little endian)"""
        
        if offset+2 > len(self.__data__):
            return None
        
        return self.get_word_from_data(self.__data__[offset:offset+2], 0)

    
    def set_word_at_rva(self, rva, word):
        """Set the word value at the file offset corresponding to the given RVA."""
        return self.set_bytes_at_rva(rva, self.get_data_from_word(word))

    
    def set_word_at_offset(self, offset, word):
        """Set the word value at the given file offset."""
        return self.set_bytes_at_offset(offset, self.get_data_from_word(word))

    
    ##
    # Quad-Word get/set
    ##
    
    def get_data_from_qword(self, word):
        """Return a eight byte string representing the quad-word value. (little endian)."""
        return struct.pack('<Q', word)

    
    def get_qword_from_data(self, data, offset):
        """Convert eight bytes of data to a word (little endian)
        
        'offset' is assumed to index into a word array. So setting it to
        N will return a dword out of the data starting at offset N*8.
        
        Returns None if the data can't be turned into a quad word.
        """
        
        if (offset+1)*8 > len(data):
            return None
        
        return struct.unpack('<Q', data[offset*8:(offset+1)*8])[0]

    
    def get_qword_at_rva(self, rva):
        """Return the quad-word value at the given RVA.
        
        Returns None if the value can't be read, i.e. the RVA can't be mapped
        to a file offset.
        """
        
        try:
            return self.get_qword_from_data(self.get_data(rva)[:8], 0)
        except PEFormatError:
            return None

    
    def get_qword_from_offset(self, offset):
        """Return the quad-word value at the given file offset. (little endian)"""
        
        if offset+8 > len(self.__data__):
            return None
        
        return self.get_qword_from_data(self.__data__[offset:offset+8], 0)

    
    def set_qword_at_rva(self, rva, qword):
        """Set the quad-word value at the file offset corresponding to the given RVA."""
        return self.set_bytes_at_rva(rva, self.get_data_from_qword(qword))

    
    def set_qword_at_offset(self, offset, qword):
        """Set the quad-word value at the given file offset."""
        return self.set_bytes_at_offset(offset, self.get_data_from_qword(qword))


    
    ##
    # Set bytes
    ##
    
    
    def set_bytes_at_rva(self, rva, data):
        """Overwrite, with the given string, the bytes at the file offset corresponding to the given RVA.
        
        Return True if successful, False otherwise. It can fail if the
        offset is outside the file's boundaries.
        """
        
        offset = self.get_physical_by_rva(rva)
        if not offset:
            raise False
        
        return self.set_bytes_at_offset(offset, data)
        
    
    def set_bytes_at_offset(self, offset, data):
        """Overwrite the bytes at the given file offset with the given string.
        
        Return True if successful, False otherwise. It can fail if the
        offset is outside the file's boundaries.
        """
        
        if not isinstance(data, str):
            raise TypeError('data should be of type: str')
        
        if offset >= 0 and offset < len(self.__data__):
            self.__data__ = ( self.__data__[:offset] + data + self.__data__[offset+len(data):] )
        else:
            return False
        
        self.update_all_section_data()
        
        return True
    
    
    def update_all_section_data(self):
        """Refresh the data of all section in the file.
        
        Will call update_section_data() for each section in the file.
        """
        
        for section in self.sections:
            self.update_section_data(section)
    
    
    def update_section_data(self, section):
        """Update the section data with any data updated in the file.
        
        If the file's data is modified, the section's data can be refreshed
        by invoking this method.
        """
        
        # Refresh the section's data with the modified information
        #
        section_data_start = section.PointerToRawData
        section_data_end = section_data_start+section.SizeOfRawData
        section.set_data(self.__data__[section_data_start:section_data_end])
        
    
    
    def relocate_image(self, new_ImageBase):
        """Apply the relocation information to the image using the provided new image base.
        
        This method will apply the relocation information to the image. Given the new base,
        all the relocations will be processed and both the raw data and the section's data
        will be fixed accordingly.
        The resulting image can be retrieved as well through the method:
            
            get_memory_mapped_image()
        
        In order to get something that would more closely match what could be found in memory
        once the Windows loader finished its work.
        """
        
        relocation_difference = new_ImageBase - self.OPTIONAL_HEADER.ImageBase
        
        
        for reloc in self.DIRECTORY_ENTRY_BASERELOC:
            
            virtual_address = reloc.struct.VirtualAddress
            size_of_block = reloc.struct.SizeOfBlock
            
            # We iterate with an index because if the relocation is of type
            # IMAGE_REL_BASED_HIGHADJ we need to also process the next entry
            # at once and skip it for the next iteration
            #
            entry_idx = 0
            while entry_idx<len(reloc.entries):
                
                entry = reloc.entries[entry_idx]
                entry_idx += 1
                
                if entry.type == RELOCATION_TYPE['IMAGE_REL_BASED_ABSOLUTE']:
                    # Nothing to do for this type of relocation
                    pass
                
                elif entry.type == RELOCATION_TYPE['IMAGE_REL_BASED_HIGH']:
                    # Fix the high 16bits of a relocation
                    #
                    # Add high 16bits of relocation_difference to the
                    # 16bit value at RVA=entry.rva
                    
                    self.set_word_at_rva(
                        entry.rva,
                        ( self.get_word_at_rva(entry.rva) + relocation_difference>>16)&0xffff )
                
                elif entry.type == RELOCATION_TYPE['IMAGE_REL_BASED_LOW']:
                    # Fix the low 16bits of a relocation
                    #
                    # Add low 16 bits of relocation_difference to the 16bit value
                    # at RVA=entry.rva
                    
                    self.set_word_at_rva(
                        entry.rva,
                        ( self.get_word_at_rva(entry.rva) + relocation_difference)&0xffff)
                
                elif entry.type == RELOCATION_TYPE['IMAGE_REL_BASED_HIGHLOW']:
                    # Handle all high and low parts of a 32bit relocation
                    #
                    # Add relocation_difference to the value at RVA=entry.rva
                    
                    self.set_dword_at_rva(
                        entry.rva,
                        self.get_dword_at_rva(entry.rva)+relocation_difference)
                
                elif entry.type == RELOCATION_TYPE['IMAGE_REL_BASED_HIGHADJ']:
                    # Fix the high 16bits of a relocation and adjust
                    #
                    # Add high 16bits of relocation_difference to the 32bit value
                    # composed from the (16bit value at RVA=entry.rva)<<16 plus
                    # the 16bit value at the next relocation entry.
                    #
                    
                    # If the next entry is beyond the array's limits,
                    # abort... the table is corrupt
                    #
                    if entry_idx == len(reloc.entries):
                        break
                    
                    next_entry = reloc.entries[entry_idx]
                    entry_idx += 1
                    self.set_word_at_rva( entry.rva,
                        ((self.get_word_at_rva(entry.rva)<<16) + next_entry.rva +
                        relocation_difference & 0xffff0000) >> 16 )
                
                elif entry.type == RELOCATION_TYPE['IMAGE_REL_BASED_DIR64']:
                    # Apply the difference to the 64bit value at the offset
                    # RVA=entry.rva
                    
                    self.set_qword_at_rva(
                        entry.rva,
                        self.get_qword_at_rva(entry.rva) + relocation_difference)
                
    
    def verify_checksum(self):
        
        return self.OPTIONAL_HEADER.CheckSum == self.generate_checksum()
        
    
    def generate_checksum(self):
        
        # This will make sure that the data representing the PE image
        # is updated with any changes that might have been made by
        # assigning values to header fields as those are not automatically
        # updated upon assignment.
        #
        self.__data__ = self.write()
        
        # Get the offset to the CheckSum field in the OptionalHeader
        #
        checksum_offset = self.OPTIONAL_HEADER.__file_offset__ + 0x40 # 64
        
        checksum = 0
        
        # Verify the data is dword-aligned. Add padding if needed
        #
        remainder = len(self.__data__) % 4
        data = self.__data__ + ( '\0' * ((4-remainder) * ( remainder != 0 )) )
        
        for i in range( len( data ) / 4 ):
            
            # Skip the checksum field
            #
            if i == checksum_offset / 4:
                continue
            
            dword = struct.unpack('I', data[ i*4 : i*4+4 ])[0]
            checksum = (checksum & 0xffffffff) + dword + (checksum>>32)
            if checksum > 2**32:
                checksum = (checksum & 0xffffffff) + (checksum >> 32)
        
        checksum = (checksum & 0xffff) + (checksum >> 16)
        checksum = (checksum) + (checksum >> 16)
        checksum = checksum & 0xffff
        
        # The length is the one of the original data, not the padded one
        #
        return checksum + len(self.__data__)
    
    
    def is_exe(self):
        """Check whether the file is a standard executable.
        
        This will return true only if the file has the IMAGE_FILE_EXECUTABLE_IMAGE flag set
        and the IMAGE_FILE_DLL not set and the file does not appear to be a driver either.
        """
        
        EXE_flag = IMAGE_CHARACTERISTICS['IMAGE_FILE_EXECUTABLE_IMAGE']
        
        if (not self.is_dll()) and (not self.is_driver()) and ( 
                EXE_flag & self.FILE_HEADER.Characteristics) == EXE_flag:
            return True
        
        return False
    
    
    def is_dll(self):
        """Check whether the file is a standard DLL.
        
        This will return true only if the image has the IMAGE_FILE_DLL flag set.
        """
        
        DLL_flag = IMAGE_CHARACTERISTICS['IMAGE_FILE_DLL']
        
        if ( DLL_flag & self.FILE_HEADER.Characteristics) == DLL_flag:
            return True
            
        return False
    
    
    def is_driver(self):
        """Check whether the file is a Windows driver.
        
        This will return true only if there are reliable indicators of the image
        being a driver.
        """

        # Checking that the ImageBase field of the OptionalHeader is above or
        # equal to 0x80000000 (that is, whether it lies in the upper 2GB of
        # the address space, normally belonging to the kernel) is not a
        # reliable enough indicator.  For instance, PEs that play the invalid
        # ImageBase trick to get relocated could be incorrectly assumed to be
        # drivers.
         
        # This is not reliable either...
        #   
        # if any( (section.Characteristics & SECTION_CHARACTERISTICS['IMAGE_SCN_MEM_NOT_PAGED']) for section in self.sections ):
        #    return True
            
        if hasattr(self, 'DIRECTORY_ENTRY_IMPORT'):
            
            # If it imports from "ntoskrnl.exe" or other kernel components it should be a driver
            #
            if set( ('ntoskrnl.exe', 'hal.dll', 'ndis.sys', 'bootvid.dll', 'kdcom.dll' ) ).intersection( [ imp.dll.lower() for imp in self.DIRECTORY_ENTRY_IMPORT ] ):
                return True
                
        return False
    
    
    def is_valid(self):
        """"""
        pass
    
    
    def is_suspicious(self):
        """"""
        pass