#!/usr/bin/env ruby # $Id$ require 'rex/image_source' require 'rex/peparsey/exceptions' require 'rex/peparsey/pebase' require 'rex/peparsey/section' require 'rex/struct2' module Rex module PeParsey class Pe < PeBase def initialize(isource) # # DOS Header # # Parse the initial dos header, starting at the file beginning # offset = 0 dos_header = self.class._parse_dos_header(isource.read(offset, IMAGE_DOS_HEADER_SIZE)) # # File Header # # If there is going to be a PE, the dos header tells us where to find it # So now we try to parse the file (pe) header # offset += dos_header.e_lfanew # most likely an invalid e_lfanew... if offset > isource.size raise FileHeaderError, "e_lfanew looks invalid", caller end file_header = self.class._parse_file_header(isource.read(offset, IMAGE_FILE_HEADER_SIZE)) # # Optional Header # # After the file header, we find the optional header. Right now # we require a optional header. Despite it's name, all binaries # that we are interested in should have one. We need this # header for a lot of stuff, so we die without it... # offset += IMAGE_FILE_HEADER_SIZE optional_header = self.class._parse_optional_header( isource.read(offset, file_header.SizeOfOptionalHeader) ) if !optional_header raise OptionalHeaderError, "No optional header!", caller end base = optional_header.ImageBase # # Section Headers # # After the optional header should be the section headers. # We know how many there should be from the file header... # offset += file_header.SizeOfOptionalHeader num_sections = file_header.NumberOfSections section_headers = self.class._parse_section_headers( isource.read(offset, IMAGE_SIZEOF_SECTION_HEADER * num_sections) ) # # End of Headers # # After the section headers (which are padded to FileAlignment) # we should find the section data, described by the section # headers... # # So this is the end of our header data, lets store this # in an image source for possible access later... # offset += IMAGE_SIZEOF_SECTION_HEADER * num_sections offset = self.class._align_offset(offset, optional_header.FileAlignment) header_section = Section.new(isource.subsource(0, offset), 0, nil) # # Sections # # So from here on out should be section data, and then any # trailing data (like authenticode and stuff I think) # sections = [ ] section_headers.each do |section_header| rva = section_header.VirtualAddress size = section_header.SizeOfRawData file_offset = section_header.PointerToRawData sections << Section.new( isource.subsource(file_offset, size), rva, section_header ) end # # Save the stuffs! # # We have parsed enough to load the file up here, now we just # save off all of the structures and data... We will # save our fake header section, the real sections, etc. # # # These should not be accessed directly # self._isource = isource self._dos_header = dos_header self._file_header = file_header self._optional_header = optional_header self._section_headers = section_headers self.image_base = base self.sections = sections self.header_section = header_section self._config_header = _parse_config_header() # These can be accessed directly self.hdr = HeaderAccessor.new self.hdr.dos = self._dos_header self.hdr.file = self._file_header self.hdr.opt = self._optional_header self.hdr.sections = self._section_headers self.hdr.config = self._config_header end # # Return everything that's going to be mapped in the process # and accessable. This should include all of the sections # and our "fake" section for the header data... # def all_sections [ header_section ] + sections end # # Returns true if this binary is for a 64-bit architecture. # def ptr_64? [ IMAGE_FILE_MACHINE_IA64, IMAGE_FILE_MACHINE_ALPHA64, IMAGE_FILE_MACHINE_AMD64 ].include?(self._file_header.Machine) end # # Returns true if this binary is for a 32-bit architecture. # This check does not take into account 16-bit binaries at the moment. # def ptr_32? ptr_64? == false end # # Converts a virtual address to a string representation based on the # underlying architecture. # def ptr_s(va) (ptr_32?) ? ("0x%.8x" % va) : ("0x%.16x" % va) end end end end