#!/usr/bin/env python3 # # Copyright 2016 The Chromium Authors # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. """Generate a dictionary for libFuzzer or AFL-based fuzzer. Invoked manually using a fuzzer binary and target format/protocol specification. Works better for text formats or protocols. For binary ones may be useless. """ import argparse # This is a Python 2-only import despite the file using a Python 3 shebang. This # implies that this file has been unused for years and has not been properly # converted to Python 3. import HTMLParser # pylint: disable=import-error import logging import os import re import shutil import subprocess import sys import tempfile ENCODING_TYPES = ['ascii', 'utf_16_be', 'utf_16_le', 'utf_32_be', 'utf_32_le'] MIN_STRING_LENGTH = 4 def DecodeHTML(html_data): """HTML-decoding of the data.""" html_parser = HTMLParser.HTMLParser() data = html_parser.unescape(html_data.decode('ascii', 'ignore')) return data.encode('ascii', 'ignore') def EscapeDictionaryElement(element): """Escape all unprintable and control characters in an element.""" element_escaped = element.encode('string_escape') # Remove escaping for single quote because it breaks libFuzzer. element_escaped = element_escaped.replace("\\'", "'") # Add escaping for double quote. element_escaped = element_escaped.replace('"', '\\"') return element_escaped def ExtractWordsFromBinary(filepath, min_length=MIN_STRING_LENGTH): """Extract words (splitted strings) from a binary executable file.""" rodata = PreprocessAndReadRodata(filepath) words = [] strings_re = re.compile(r'[^\x00-\x1F\x7F-\xFF]{%d,}' % min_length) # Use different encodings for strings extraction. for encoding in ENCODING_TYPES: data = rodata.decode(encoding, 'ignore').encode('ascii', 'ignore') raw_strings = strings_re.findall(data) for splitted_line in map(lambda line: line.split(), raw_strings): words += splitted_line return set(words) def ExtractWordsFromLines(lines): """Extract all words from a list of strings.""" words = set() for line in lines: for word in line.split(): words.add(word) return words def ExtractWordsFromSpec(filepath, is_html): """Extract words from a specification.""" data = ReadSpecification(filepath, is_html) words = data.split() return set(words) def FindIndentedText(text): """Find space-indented text blocks, e.g. code or data samples in RFCs.""" lines = text.split('\n') indented_blocks = [] current_block = '' previous_number_of_spaces = 0 # Go through every line and concatenate space-indented blocks into lines. for i in range(0, len(lines), 1): if not lines[i]: # Ignore empty lines. continue # Space-indented text blocks have more leading spaces than regular text. n = FindNumberOfLeadingSpaces(lines[i]) if n > previous_number_of_spaces: # Beginning of a space-indented text block, start concatenation. current_block = lines[i][n:] elif n == previous_number_of_spaces and current_block: # Or continuation of a space-indented text block, concatenate lines. current_block += '\n' + lines[i][n:] if n < previous_number_of_spaces and current_block: # Current line is not indented, save previously concatenated lines. indented_blocks.append(current_block) current_block = '' previous_number_of_spaces = n return indented_blocks def FindNumberOfLeadingSpaces(line): """Calculate number of leading whitespace characters in the string.""" n = 0 while n < len(line) and line[n].isspace(): n += 1 return n def GenerateDictionary(path_to_binary, path_to_spec, strategy, is_html=False): """Generate a dictionary for given pair of fuzzer binary and specification.""" for filepath in [path_to_binary, path_to_spec]: if not os.path.exists(filepath): logging.error("%s doesn't exist. Exit.", filepath) sys.exit(1) words_from_binary = ExtractWordsFromBinary(path_to_binary) words_from_spec = ExtractWordsFromSpec(path_to_spec, is_html) dictionary_words = set() if 'i' in strategy: # Strategy i: only words which are common for binary and for specification. dictionary_words = words_from_binary.intersection(words_from_spec) if 'q' in strategy: # Strategy q: add words from all quoted strings from specification. # TODO(mmoroz): experimental and very noisy. Not recommended to use. spec_data = ReadSpecification(path_to_spec, is_html) quoted_strings = FindIndentedText(spec_data) quoted_words = ExtractWordsFromLines(quoted_strings) dictionary_words = dictionary_words.union(quoted_words) if 'u' in strategy: # Strategy u: add all uppercase words from specification. uppercase_words = set(w for w in words_from_spec if w.isupper()) dictionary_words = dictionary_words.union(uppercase_words) return dictionary_words def PreprocessAndReadRodata(filepath): """Create a stripped copy of the binary and extract .rodata section.""" stripped_file = tempfile.NamedTemporaryFile(prefix='.stripped_') stripped_filepath = stripped_file.name shutil.copyfile(filepath, stripped_filepath) # Strip all symbols to reduce amount of redundant strings. strip_cmd = ['strip', '--strip-all', stripped_filepath] result = subprocess.call(strip_cmd) if result: logging.warning('Failed to strip the binary. Using the original version.') stripped_filepath = filepath # Extract .rodata section to reduce amount of redundant strings. rodata_file = tempfile.NamedTemporaryFile(prefix='.rodata_') rodata_filepath = rodata_file.name objcopy_cmd = ['objcopy', '-j', '.rodata', stripped_filepath, rodata_filepath] # Hide output from stderr since objcopy prints a warning. with open(os.devnull, 'w') as devnull: result = subprocess.call(objcopy_cmd, stderr=devnull) if result: logging.warning('Failed to extract .rodata section. Using the whole file.') rodata_filepath = stripped_filepath with open(rodata_filepath) as file_handle: data = file_handle.read() stripped_file.close() rodata_file.close() return data def ReadSpecification(filepath, is_html): """Read a specification file and return its contents.""" with open(filepath, 'r') as file_handle: data = file_handle.read() if is_html: data = DecodeHTML(data) return data def WriteDictionary(dictionary_path, dictionary): """Write given dictionary to a file.""" with open(dictionary_path, 'wb') as file_handle: file_handle.write('# This is an automatically generated dictionary.\n') for word in dictionary: if not word: continue line = '"%s"\n' % EscapeDictionaryElement(word) file_handle.write(line) def main(): parser = argparse.ArgumentParser(description='Generate fuzzer dictionary.') parser.add_argument('--fuzzer', required=True, help='Path to a fuzzer binary executable. It is ' 'recommended to use a binary built with ' '"use_libfuzzer=false is_asan=false" to get a better ' 'dictionary with fewer number of redundant elements.') parser.add_argument('--spec', required=True, help='Path to a target specification (in textual form).') parser.add_argument('--html', default=0, help='Decode HTML [01] (0 is default value): ' '1 - if specification has HTML entities to be decoded.') parser.add_argument('--out', required=True, help='Path to a file to write a dictionary into.') parser.add_argument('--strategy', default='iu', help='Generation strategy [iqu] ("iu" is default value): ' 'i - intersection, q - quoted, u - uppercase.') args = parser.parse_args() dictionary = GenerateDictionary(args.fuzzer, args.spec, args.strategy, is_html=bool(args.html)) WriteDictionary(args.out, dictionary) if __name__ == '__main__': main()