from hachoir_core.field import (FieldSet, ParserError, Bit, UInt8, UInt16, UInt32, TimestampUnix32, Bytes, String, Enum, PaddingBytes, PaddingBits, NullBytes, NullBits) from hachoir_core.text_handler import textHandler, hexadecimal, filesizeHandler from hachoir_core.error import HACHOIR_ERRORS class SectionHeader(FieldSet): static_size = 40 * 8 def createFields(self): yield String(self, "name", 8, charset="ASCII", strip="\0 ") yield filesizeHandler(UInt32(self, "mem_size", "Size in memory")) yield textHandler(UInt32(self, "rva", "RVA (location) in memory"), hexadecimal) yield filesizeHandler(UInt32(self, "phys_size", "Physical size (on disk)")) yield filesizeHandler(UInt32(self, "phys_off", "Physical location (on disk)")) yield PaddingBytes(self, "reserved", 12) # 0x0000000# yield NullBits(self, "reserved[]", 4) # 0x000000#0 yield NullBits(self, "reserved[]", 1) yield Bit(self, "has_code", "Contains code") yield Bit(self, "has_init_data", "Contains initialized data") yield Bit(self, "has_uninit_data", "Contains uninitialized data") # 0x00000#00 yield NullBits(self, "reserved[]", 1) yield Bit(self, "has_comment", "Contains comments?") yield NullBits(self, "reserved[]", 1) yield Bit(self, "remove", "Contents will not become part of image") # 0x0000#000 yield Bit(self, "has_comdata", "Contains comdat?") yield NullBits(self, "reserved[]", 1) yield Bit(self, "no_defer_spec_exc", "Reset speculative exceptions handling bits in the TLB entries") yield Bit(self, "gp_rel", "Content can be accessed relative to GP") # 0x000#0000 yield NullBits(self, "reserved[]", 4) # 0x00#00000 yield NullBits(self, "reserved[]", 4) # 0x0#000000 yield Bit(self, "ext_reloc", "Contains extended relocations?") yield Bit(self, "discarded", "Can be discarded?") yield Bit(self, "is_not_cached", "Is not cachable?") yield Bit(self, "is_not_paged", "Is not pageable?") # 0x#0000000 yield Bit(self, "is_shareable", "Is shareable?") yield Bit(self, "is_executable", "Is executable?") yield Bit(self, "is_readable", "Is readable?") yield Bit(self, "is_writable", "Is writable?") def rva2file(self, rva): return self["phys_off"].value + (rva - self["rva"].value) def createDescription(self): rva = self["rva"].value size = self["mem_size"].value info = [ "rva=0x%08x..0x%08x" % (rva, rva+size), "size=%s" % self["mem_size"].display, ] if self["is_executable"].value: info.append("exec") if self["is_readable"].value: info.append("read") if self["is_writable"].value: info.append("write") return 'Section "%s": %s' % (self["name"].value, ", ".join(info)) def createSectionName(self): try: name = str(self["name"].value.strip(".")) if name: return "section_%s" % name except HACHOIR_ERRORS, err: self.warning(unicode(err)) return "section[]" class DataDirectory(FieldSet): def createFields(self): yield textHandler(UInt32(self, "rva", "Virtual address"), hexadecimal) yield filesizeHandler(UInt32(self, "size")) def createDescription(self): if self["size"].value: return "Directory at %s (%s)" % ( self["rva"].display, self["size"].display) else: return "(empty directory)" class PE_Header(FieldSet): static_size = 24*8 cpu_name = { 0x0184: u"Alpha AXP", 0x01c0: u"ARM", 0x014C: u"Intel 80386", 0x014D: u"Intel 80486", 0x014E: u"Intel Pentium", 0x0200: u"Intel IA64", 0x0268: u"Motorola 68000", 0x0266: u"MIPS", 0x0284: u"Alpha AXP 64 bits", 0x0366: u"MIPS with FPU", 0x0466: u"MIPS16 with FPU", 0x01f0: u"PowerPC little endian", 0x0162: u"R3000", 0x0166: u"MIPS little endian (R4000)", 0x0168: u"R10000", 0x01a2: u"Hitachi SH3", 0x01a6: u"Hitachi SH4", 0x0160: u"R3000 (MIPS), big endian", 0x0162: u"R3000 (MIPS), little endian", 0x0166: u"R4000 (MIPS), little endian", 0x0168: u"R10000 (MIPS), little endian", 0x0184: u"DEC Alpha AXP", 0x01F0: u"IBM Power PC, little endian", } def createFields(self): yield Bytes(self, "header", 4, r"PE header signature (PE\0\0)") if self["header"].value != "PE\0\0": raise ParserError("Invalid PE header signature") yield Enum(UInt16(self, "cpu", "CPU type"), self.cpu_name) yield UInt16(self, "nb_section", "Number of sections") yield TimestampUnix32(self, "creation_date", "Creation date") yield UInt32(self, "ptr_to_sym", "Pointer to symbol table") yield UInt32(self, "nb_symbols", "Number of symbols") yield UInt16(self, "opt_hdr_size", "Optional header size") yield Bit(self, "reloc_stripped", "If true, don't contain base relocations.") yield Bit(self, "exec_image", "Executable image?") yield Bit(self, "line_nb_stripped", "COFF line numbers stripped?") yield Bit(self, "local_sym_stripped", "COFF symbol table entries stripped?") yield Bit(self, "aggr_ws", "Aggressively trim working set") yield Bit(self, "large_addr", "Application can handle addresses greater than 2 GB") yield NullBits(self, "reserved", 1) yield Bit(self, "reverse_lo", "Little endian: LSB precedes MSB in memory") yield Bit(self, "32bit", "Machine based on 32-bit-word architecture") yield Bit(self, "is_stripped", "Debugging information removed?") yield Bit(self, "swap", "If image is on removable media, copy and run from swap file") yield PaddingBits(self, "reserved2", 1) yield Bit(self, "is_system", "It's a system file") yield Bit(self, "is_dll", "It's a dynamic-link library (DLL)") yield Bit(self, "up", "File should be run only on a UP machine") yield Bit(self, "reverse_hi", "Big endian: MSB precedes LSB in memory") class PE_OptHeader(FieldSet): SUBSYSTEM_NAME = { 1: u"Native", 2: u"Windows GUI", 3: u"Windows CUI", 5: u"OS/2 CUI", 7: u"POSIX CUI", 8: u"Native Windows", 9: u"Windows CE GUI", 10: u"EFI application", 11: u"EFI boot service driver", 12: u"EFI runtime driver", 13: u"EFI ROM", 14: u"XBOX", 16: u"Windows boot application", } DIRECTORY_NAME = { 0: "export", 1: "import", 2: "resource", 3: "exception", 4: "certificate", 5: "relocation", 6: "debug", 7: "description", 8: "global_ptr", 9: "tls", # Thread local storage 10: "load_config", 11: "bound_import", 12: "import_address", } def createFields(self): yield UInt16(self, "signature", "PE optional header signature (0x010b)") # TODO: Support PE32+ (signature=0x020b) if self["signature"].value != 0x010b: raise ParserError("Invalid PE optional header signature") yield UInt8(self, "maj_lnk_ver", "Major linker version") yield UInt8(self, "min_lnk_ver", "Minor linker version") yield filesizeHandler(UInt32(self, "size_code", "Size of code")) yield filesizeHandler(UInt32(self, "size_init_data", "Size of initialized data")) yield filesizeHandler(UInt32(self, "size_uninit_data", "Size of uninitialized data")) yield textHandler(UInt32(self, "entry_point", "Address (RVA) of the code entry point"), hexadecimal) yield textHandler(UInt32(self, "base_code", "Base (RVA) of code"), hexadecimal) yield textHandler(UInt32(self, "base_data", "Base (RVA) of data"), hexadecimal) yield textHandler(UInt32(self, "image_base", "Image base (RVA)"), hexadecimal) yield filesizeHandler(UInt32(self, "sect_align", "Section alignment")) yield filesizeHandler(UInt32(self, "file_align", "File alignment")) yield UInt16(self, "maj_os_ver", "Major OS version") yield UInt16(self, "min_os_ver", "Minor OS version") yield UInt16(self, "maj_img_ver", "Major image version") yield UInt16(self, "min_img_ver", "Minor image version") yield UInt16(self, "maj_subsys_ver", "Major subsystem version") yield UInt16(self, "min_subsys_ver", "Minor subsystem version") yield NullBytes(self, "reserved", 4) yield filesizeHandler(UInt32(self, "size_img", "Size of image")) yield filesizeHandler(UInt32(self, "size_hdr", "Size of headers")) yield textHandler(UInt32(self, "checksum"), hexadecimal) yield Enum(UInt16(self, "subsystem"), self.SUBSYSTEM_NAME) yield UInt16(self, "dll_flags") yield filesizeHandler(UInt32(self, "size_stack_reserve")) yield filesizeHandler(UInt32(self, "size_stack_commit")) yield filesizeHandler(UInt32(self, "size_heap_reserve")) yield filesizeHandler(UInt32(self, "size_heap_commit")) yield UInt32(self, "loader_flags") yield UInt32(self, "nb_directory", "Number of RVA and sizes") for index in xrange(self["nb_directory"].value): try: name = self.DIRECTORY_NAME[index] except KeyError: name = "data_dir[%u]" % index yield DataDirectory(self, name) def createDescription(self): return "PE optional header: %s, entry point %s" % ( self["subsystem"].display, self["entry_point"].display)