#!/usr/bin/env python3 import argparse from capstone import * import difflib import struct import subprocess import os import sys parser = argparse.ArgumentParser(allow_abbrev=False, description='Recompilation Compare: compare an original EXE with a recompiled EXE + PDB.') parser.add_argument('original', metavar='original-binary', help='The original binary') parser.add_argument('recompiled', metavar='recompiled-binary', help='The recompiled binary') parser.add_argument('pdb', metavar='recompiled-pdb', help='The PDB of the recompiled binary') parser.add_argument('decomp_dir', metavar='decomp-dir', help='The decompiled source tree') parser.add_argument('--verbose', '-v', metavar='offset', help='Print assembly diff for specific function (original file\'s offset)') parser.add_argument('--html', '-H', metavar='output-file', help='Generate searchable HTML summary of status and diffs') args = parser.parse_args() verbose = None if args.verbose: try: verbose = int(args.verbose, 16) except ValueError: parser.error('invalid verbose argument') html = args.html original = args.original if not os.path.isfile(original): parser.error('Original binary does not exist') recomp = args.recompiled if not os.path.isfile(recomp): parser.error('Recompiled binary does not exist') syms = args.pdb if not os.path.isfile(syms): parser.error('Symbols PDB does not exist') source = args.decomp_dir if not os.path.isdir(source): parser.error('Source directory does not exist') # Declare a class that can automatically convert virtual executable addresses # to file addresses class Bin: def __init__(self, filename): self.file = open(filename, 'rb') #HACK: Strictly, we should be parsing the header, but we know where # everything is in these two files so we just jump straight there # Read ImageBase self.file.seek(0xB4) self.imagebase = struct.unpack('i', self.file.read(4))[0] # Read .text VirtualAddress self.file.seek(0x184) self.textvirt = struct.unpack('i', self.file.read(4))[0] # Read .text PointerToRawData self.file.seek(0x18C) self.textraw = struct.unpack('i', self.file.read(4))[0] def __del__(self): if self.file: self.file.close() def get_addr(self, virt): return virt - self.imagebase - self.textvirt + self.textraw def read(self, offset, size): self.file.seek(self.get_addr(offset)) return self.file.read(size) class RecompiledInfo: addr = None size = None name = None start = None def get_wine_path(fn): return subprocess.check_output(['winepath', '-w', fn]).decode('utf-8').strip() def get_unix_path(fn): return subprocess.check_output(['winepath', fn]).decode('utf-8').strip() def get_file_in_script_dir(fn): return os.path.join(os.path.dirname(os.path.abspath(sys.argv[0])), fn) # Declare a class that parses the output of cvdump for fast access later class SymInfo: funcs = {} lines = {} def __init__(self, pdb, file): call = [get_file_in_script_dir('cvdump.exe'), '-l', '-s'] if os.name != 'nt': # Run cvdump through wine and convert path to Windows-friendly wine path call.insert(0, 'wine') call.append(get_wine_path(pdb)) else: call.append(pdb) print('Parsing %s...' % pdb) line_dump = subprocess.check_output(call).decode('utf-8').split('\r\n') current_section = None for i, line in enumerate(line_dump): if line.startswith('***'): current_section = line[4:] if current_section == 'SYMBOLS' and 'S_GPROC32' in line: addr = int(line[26:34], 16) info = RecompiledInfo() info.addr = addr + recompfile.imagebase + recompfile.textvirt use_dbg_offs = False if use_dbg_offs: debug_offs = line_dump[i + 2] debug_start = int(debug_offs[22:30], 16) debug_end = int(debug_offs[43:], 16) info.start = debug_start info.size = debug_end - debug_start else: info.start = 0 info.size = int(line[41:49], 16) info.name = line[77:] self.funcs[addr] = info elif current_section == 'LINES' and line.startswith(' ') and not line.startswith(' '): sourcepath = line.split()[0] if os.name != 'nt': # Convert filename to Unix path for file compare sourcepath = get_unix_path(sourcepath) if sourcepath not in self.lines: self.lines[sourcepath] = {} j = i + 2 while True: ll = line_dump[j].split() if len(ll) == 0: break k = 0 while k < len(ll): linenum = int(ll[k + 0]) address = int(ll[k + 1], 16) if linenum not in self.lines[sourcepath]: self.lines[sourcepath][linenum] = address k += 2 j += 1 def get_recompiled_address(self, filename, line): addr = None found = False #print('Looking for ' + filename + ' line ' + str(line)) for fn in self.lines: # Sometimes a PDB is compiled with a relative path while we always have # an absolute path. Therefore we must if os.path.samefile(fn, filename): filename = fn break if filename in self.lines and line in self.lines[fn]: addr = self.lines[fn][line] if addr in self.funcs: return self.funcs[addr] else: print('Failed to find function symbol with address: %s' % hex(addr)) else: print('Failed to find function symbol with filename and line: %s:%s' % (filename, str(line))) origfile = Bin(original) recompfile = Bin(recomp) syminfo = SymInfo(syms, recompfile) print() md = Cs(CS_ARCH_X86, CS_MODE_32) def sanitize(file, mnemonic, op_str): offsetplaceholder = '' if mnemonic == 'call' or mnemonic == 'jmp': # Filter out "calls" because the offsets we're not currently trying to # match offsets. As long as there's a call in the right place, it's # probably accurate. op_str = offsetplaceholder else: def filter_out_ptr(ptype, op_str): try: ptrstr = ptype + ' ptr [' start = op_str.index(ptrstr) + len(ptrstr) end = op_str.index(']', start) # This will throw ValueError if not hex inttest = int(op_str[start:end], 16) return op_str[0:start] + offsetplaceholder + op_str[end:] except ValueError: return op_str # Filter out dword ptrs where the pointer is to an offset op_str = filter_out_ptr('dword', op_str) op_str = filter_out_ptr('word', op_str) op_str = filter_out_ptr('byte', op_str) # Use heuristics to filter out any args that look like offsets words = op_str.split(' ') for i, word in enumerate(words): try: inttest = int(word, 16) if inttest >= file.imagebase + file.textvirt: words[i] = offsetplaceholder except ValueError: pass op_str = ' '.join(words) return mnemonic, op_str def parse_asm(file, addr, size): asm = [] data = file.read(addr, size) for i in md.disasm(data, 0): # Use heuristics to disregard some differences that aren't representative # of the accuracy of a function (e.g. global offsets) mnemonic, op_str = sanitize(file, i.mnemonic, i.op_str) if op_str is None: asm.append(mnemonic) else: asm.append("%s %s" % (mnemonic, op_str)) return asm function_count = 0 total_accuracy = 0 htmlinsert = [] for subdir, dirs, files in os.walk(source): for file in files: srcfilename = os.path.join(os.path.abspath(subdir), file) srcfile = open(srcfilename, 'r') line_no = 0 while True: try: line = srcfile.readline() line_no += 1 if not line: break if line.startswith('// OFFSET:'): par = line[10:].strip().split() module = par[0] addr = int(par[1], 16) find_open_bracket = line while '{' not in find_open_bracket: find_open_bracket = srcfile.readline() line_no += 1 recinfo = syminfo.get_recompiled_address(srcfilename, line_no) if not recinfo: continue if recinfo.size: origasm = parse_asm(origfile, addr + recinfo.start, recinfo.size) recompasm = parse_asm(recompfile, recinfo.addr + recinfo.start, recinfo.size) diff = difflib.SequenceMatcher(None, origasm, recompasm) ratio = diff.ratio() else: ratio = 0 print(' %s (%s / %s) is %.2f%% similar to the original' % (recinfo.name, hex(addr), hex(recinfo.addr), ratio * 100)) function_count += 1 total_accuracy += ratio if recinfo.size: if verbose == addr or html: udiff = difflib.unified_diff(origasm, recompasm) if verbose == addr: for line in udiff: print(line) print() print() if html: htmlinsert.append('{address: "%s", name: "%s", matching: %s, diff: "%s"}' % (hex(addr), recinfo.name, str(ratio), '\\n'.join(udiff).replace('"', '\\"').replace('\n', '\\n'))) except UnicodeDecodeError: break def gen_html(html, data): templatefile = open(get_file_in_script_dir('template.html'), 'r') if not templatefile: print('Failed to find HTML template file, can\'t generate HTML summary') return templatedata = templatefile.read() templatefile.close() templatedata = templatedata.replace('/* INSERT DATA HERE */', ','.join(data), 1) htmlfile = open(html, 'w') if not htmlfile: print('Failed to write to HTML file %s' % html) return htmlfile.write(templatedata) htmlfile.close() if html: gen_html(html, htmlinsert) if function_count > 0: print('\nTotal accuracy %.2f%% across %i functions' % (total_accuracy / function_count * 100, function_count))