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winafl-cmin.py
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winafl-cmin.py
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#
# american fuzzy lop - corpus minimization tool
# ----------------------------------------
#
# Original code written by Michal Zalewski <[email protected]>
#
# Windows fork written by Axel "0vercl0k" Souchet <[email protected]>
#
# Copyright 2017 Google Inc. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at:
#
# http://www.apache.org/licenses/LICENSE-2.0
#
#
from __future__ import print_function
import argparse
import collections
import logging
import multiprocessing
import os
import shutil
import subprocess
import sys
import time
import re
from textwrap import dedent, wrap
nul = open(os.devnull, 'wb')
AFLShowMapResult = collections.namedtuple(
'AFLShowMapResult', [
'returncode', 'path', 'filesize', 'tuples'
]
)
class AFLShowMapWorker(object):
'''This class abstracts away the interaction with afl-showmap.exe
and plays nice with the multiprocessing module'''
def __init__(self, args):
self.args = args
@staticmethod
def _to_showmap_options(args, trace_name = '-'):
'''Takes the argparse namespace, and convert it to the list of options used
to invoke afl-showmap.exe'''
r = [
'afl-showmap.exe', '-o', trace_name, '-m', args.memory_limit
]
if os.getenv('AFL_NO_SINKHOLE') is None:
r.append('-q')
if args.edges_only:
r.append('-e')
if args.time_limit > 0:
r.extend(['-t', '%d' % args.time_limit])
else:
r.extend(['-t', 'none'])
if args.static_instr:
r.append('-Y')
else:
r.extend(['-D', args.dynamorio_dir])
r.append('--')
r.extend(['-target_module', args.target_module])
if args.target_method is None:
r.extend(['-target_offset', '0x%x' % args.target_offset])
else:
r.extend(['-target_method', args.target_method])
r.extend(['-nargs', '%d' % args.nargs])
r.extend(['-covtype', args.covtype])
if args.call_convention is not None:
r.extend(['-call_convention', args.call_convention])
for mod in args.coverage_modules:
r.extend(['-coverage_module', mod])
r.append('--')
r.extend(args.target_cmdline)
return r
def __call__(self, input_file):
'''Runs afl-showmap.exe on a specific target and extracts
the tuples from the generated trace'''
current_process = multiprocessing.current_process()
fileread = None
if self.args.file_read is not None:
# It means that the target expects to have '@@' replaced with a
# constant path file. First step, is to copy the input to
# this location
fileread = self.args.file_read.replace(
'@@', current_process.name
)
if os.path.isfile(fileread):
os.remove(fileread)
shutil.copyfile(input_file, fileread)
trace_name = 'worker.%d.trace.bin' % current_process.pid
opts = AFLShowMapWorker._to_showmap_options(self.args, trace_name)
# If we have a '@@' marker in the command line, it has to be replaced
# by an actual file. It is either directly the input testcase, or the
# file specified by the -f option.
if opts.count('@@') > 0:
# TODO(0vercl0k): handle inputs via stdin as opposed to '@@' & -f
idx = opts.index('@@')
opts[idx] = input_file if fileread is None else fileread
# Make sure there isn't a trace that hasn't been properly cleaned
if os.path.isfile(trace_name):
os.remove(trace_name)
p = subprocess.Popen(opts, close_fds = True)
p.wait()
if fileread is not None:
# Clean it up
os.remove(fileread)
# Read the trace file and populate the tuple store
tuples = {}
if os.path.isfile(trace_name):
with open(trace_name, 'r') as f:
for line in f.readlines():
tuple_id, hitcount = map(int, line.split(':', 1))
tuples[tuple_id] = hitcount
# Clean it up
os.remove(trace_name)
return AFLShowMapResult(
p.returncode, input_file,
os.path.getsize(input_file), tuples
)
def target_offset(opt):
'''Validates that the target_offset is actually an integer, else
raises an ArgumentTypeError exception back to the argparse parser.'''
try:
return int(opt, 0)
except ValueError:
raise argparse.ArgumentTypeError('must be an integer')
def memory_limit(opt):
'''Validates that the -m parameter is properly formatted, else
raises an ArgumentTypeError exception back to the argparse parser.'''
if re.match(r'^\d+[TGkM]?$', opt) or opt == 'none':
return opt
raise argparse.ArgumentTypeError('must be an integer followed by either: '
'T, G, M, k or nothing; or none')
def setup_argparse():
'''Sets up the argparse configuration.'''
parser = argparse.ArgumentParser(
formatter_class = argparse.RawDescriptionHelpFormatter,
epilog = '\n'.join(wrap(dedent(
'''
Examples of use:
* Typical use
winafl-cmin.py -D D:\\DRIO\\bin32 -t 100000 -i in -o minset -covtype edge -coverage_module m.dll -target_module test.exe -target_method fuzz -nargs 2 -- test.exe @@
* Dry-run, keep crashes only with 4 workers with a working directory:
winafl-cmin.py -C --dry-run -w 4 --working-dir D:\\dir -D D:\\DRIO\\bin32 -t 10000 -i in -i C:\\fuzz\\in -o out_mini -covtype edge -coverage_module m.dll -target_module test.exe -target_method fuzz -nargs 2 -- test.exe @@
* Read from specific file
winafl-cmin.py -D D:\\DRIO\\bin32 -t 100000 -i in -o minset -f foo.ext -covtype edge -coverage_module m.dll -target_module test.exe -target_method fuzz -nargs 2 -- test.exe @@
* Read from specific file with pattern
winafl-cmin.py -D D:\\DRIO\\bin32 -t 100000 -i in -o minset -f prefix-@@-foo.ext -covtype edge -coverage_module m.dll -target_module test.exe -target_method fuzz -nargs 2 -- test.exe @@
* Typical use with static instrumentation
winafl-cmin.py -Y -t 100000 -i in -o minset -- test.instr.exe @@
'''
), 100, replace_whitespace = False))
)
group = parser.add_argument_group('basic parameters')
group.add_argument(
'-i', '--input', action = 'append', required = True,
metavar = 'dir', help = 'input directory with the starting corpus.'
' Multiple input directories are supported'
)
group.add_argument(
'-o', '--output', required = True,
metavar = 'dir', help = 'output directory for minimized files'
)
group.add_argument(
'--crash-dir', required=False,
metavar='dir', help='output directory for crashing files'
)
group.add_argument(
'--hang-dir', required=False,
metavar='dir', help='output directory for hanging files'
)
group.add_argument(
'-n', '--dry-run', action = 'store_true', default = False,
help = 'do not really populate the output directory'
)
group.add_argument(
'--working-dir', default = os.getcwd(),
metavar = 'dir', help = 'directory containing afl-showmap.exe,'
'winafl.dll, the target binary, etc.'
)
group.add_argument(
'-v', '--verbose', action = 'store_const',
default = logging.INFO, const = logging.DEBUG
)
group = parser.add_argument_group('instrumentation settings')
instr_type = group.add_mutually_exclusive_group(required = True)
instr_type.add_argument(
'-Y', '--static-instr', action = 'store_true',
help = 'use the static instrumentation mode'
)
instr_type.add_argument(
'-D', '--dynamorio_dir',
metavar = 'dir', help = 'directory containing DynamoRIO binaries (drrun, drconfig)'
)
group.add_argument(
'-covtype', choices = ('edge', 'bb'), default = 'bb',
help = 'the type of coverage being recorded (defaults to bb)'
)
group.add_argument(
'-call_convention', choices = ('stdcall', 'fastcall', 'thiscall', 'ms64'),
default = 'stdcall', help = 'the calling convention of the target_method'
)
group.add_argument(
'-coverage_module', dest = 'coverage_modules', default = None,
action = 'append', metavar = 'module', help = 'module for which to record coverage.'
' Multiple module flags are supported'
)
group.add_argument(
'-target_module', default = None, metavar = 'module',
help = 'module which contains the target function to be fuzzed'
)
group.add_argument(
'-nargs', type = int, default = None, metavar = 'nargs',
help = 'number of arguments the fuzzed method takes. This is used to save/restore'
' the arguments between runs'
)
group = group.add_mutually_exclusive_group()
group.add_argument(
'-target_method', default = None, metavar = 'method',
help = 'name of the method to fuzz in persistent mode.'
' A symbol for the method needs to be exported for this to work'
)
group.add_argument(
'-target_offset', default = None, type = target_offset, metavar = 'rva offset',
help = 'offset of the method to fuzz from the start of the module'
)
group = parser.add_argument_group('execution control settings')
group.add_argument(
'-t', '--time-limit', type = int, default = 0,
metavar = 'msec', help = 'timeout for each run (none)'
)
group.add_argument(
'-m', '--memory-limit', default = 'none', type = memory_limit,
metavar = 'megs', help = 'memory limit for child process'
)
# Note(0vercl0k): If you use -f, which means you want the input file at
# a specific location (and a specific name), we have to force the pool
# process to contain only a single worker as there is a unique location
# specified by -f.. unless you provide a pattern with @@ like
# c:\dir\prefix@@suffix where @@ will be replaced with a unique identifier.
group.add_argument(
'-f', '--file-read', default = None,
metavar = 'file', help = 'location read by the fuzzed program. '
'Usage of @@ is encouraged to keep parallelization possible'
)
group = parser.add_argument_group('minimization settings')
group.add_argument(
'-C', '--crash-only', action = 'store_true', default = False,
help = 'keep crashing inputs in output directory, reject everything else'
)
group.add_argument(
'-e', '--edges-only', action = 'store_true', default = False,
help = 'solve for edge coverage only, ignore hit counts'
)
group.add_argument(
'-w', '--workers', type = int, default = multiprocessing.cpu_count(),
metavar = 'n', help = 'The number of worker processes (default: cpu count)'
)
group.add_argument(
'--skip-dry-run', action = 'store_true', default = False,
help = 'Skip the dry-run step even if it failed'
)
parser.add_argument(
'target_cmdline', nargs = argparse.REMAINDER,
help = 'target command line'
)
return parser.parse_args()
def validate_args(args):
'''Validate command-line arguments'''
# Validate that the first argument is an executable
if not os.path.isfile(args.target_cmdline[0]):
logging.error(
'[!] The target command line\'s first argument needs to'
' be an existing executable file.'
)
return False
# If we are not seeing the '@@' marker somewhere and that we are not
# specifying an input file with -f, then it means something is wrong
if args.file_read is None and '@@' not in args.target_cmdline:
logging.error(
'[!] The target command line needs to include the "@@" marker'
' or -f to specify the input file.'
)
return False
# Another sanity check on the root of crash directory
if args.crash_dir and os.path.isdir(os.path.split(args.crash_dir)[0]) is False:
logging.error(
'[!] The output crash directory %r is not a directory', args.crash_dir
)
return False
# Another sanity check on the root of hang directory
if args.hang_dir and os.path.isdir(os.path.split(args.hang_dir)[0]) is False:
logging.error(
'[!] The output hangs directory %r is not a directory', args.hang_dir
)
return False
if os.path.isdir(args.working_dir) is False:
logging.error(
'[!] The working directory %r is not a directory', args.working_dir
)
return False
# Regardless of DRIO being used or not, we need afl-showmap.exe
afl_showmap_path = os.path.join(args.working_dir, 'afl-showmap.exe')
if not os.path.isfile(afl_showmap_path):
logging.error('[!] afl-showmap.exe needs to be in %s.', args.working_dir)
return False
# Make sure the output directory doesn't exist yet, or exists but is empty
if os.path.isabs(args.output):
output_dir_path = args.output
else:
output_dir_path = os.path.join(args.working_dir, args.output)
if args.dry_run is False:
if os.path.isdir(output_dir_path) and os.listdir(output_dir_path):
logging.error(
'[!] %s already exists, please remove it to avoid data loss.',
args.output
)
return False
if os.path.lexists(output_dir_path) and not os.path.isdir(output_dir_path):
logging.error(
'[!] File %s already exists, can\'t create a directory with the same name.',
args.output
)
return False
if not args.static_instr:
# Make sure we have all the arguments we need
if len(args.coverage_modules) == 0:
logging.error(
'[!] -coverage_module is a required option to use'
'the dynamic instrumentation'
)
return False
if None in [args.target_module, args.nargs]:
logging.error(
'[!] , -target_module and -nargs are required'
' options to use the dynamic instrumentation mode.'
)
return False
if args.target_method is None and args.target_offset is None:
logging.error(
'[!] -target_method or -target_offset is required to use the'
' dynamic instrumentation mode'
)
return False
# If we are using DRIO, one of the thing we need is the DRIO client
winafl_path = os.path.join(args.working_dir, 'winafl.dll')
if not os.path.isfile(winafl_path):
logging.error(
'[!] winafl.dll needs to be in %s.', args.working_dir
)
return False
if args.file_read is not None and '@@' not in args.file_read:
# When a particular input file is specified, first
# check if the file already exists, because we don't want to overwrite
# a potentially interesting test case.
if os.path.isabs(args.file_read):
file_read_path = args.file_read
else:
file_read_path = os.path.join(args.working_dir, args.file_read)
if os.path.isfile(file_read_path):
logging.error(
'[!] %s already exists, please remove it to avoid data loss.',
args.file_read
)
return False
for i in args.input:
if os.path.isabs(i):
dir_path = i
else:
dir_path = os.path.join(args.working_dir, i)
if not os.path.isdir(dir_path):
logging.error(
'[!] Specified input directory "%s" does not exist',
i
)
return False
return True
def target_dry_run(args, test_input):
logging.info('[*] Testing the target binary...')
f = AFLShowMapWorker(args)
results = list(map(f, (test_input, test_input)))
if results[0] != results[1]:
logging.error('[!] Dry-run failed, 2 executions resulted differently:')
logging.error(
' Tuples matching? %r',
results[0].tuples == results[1].tuples
)
logging.error(
' Return codes matching? %r',
results[0].returncode == results[1].returncode
)
if not args.skip_dry_run:
return False
logging.info('[+] OK, %d tuples recorded.', len(results[0].tuples))
return True
def run_all_inputs(args, inputs):
nprocesses = args.workers
if args.file_read is not None and '@@' not in args.file_read:
# If you are providing -f, but doesn't specify '@@' in the command line
# of the target, it might be a sign that you are doing something wrong.
if '@@' not in args.target_cmdline:
logging.warn(
"[ ] You specified the -f option without using '@@' in your "
"command line, this does not sound right."
)
logging.info('[+] Worker pool size: 1 (because no "@@" in the -f option)..')
# Keep in mind that if you want the input files to be named and placed
# by your liking by specifying -f path/foo.ext we have to set the pool
# size to 1 in order to make it work.
nprocesses = 1
# Record stats about the original input set.
# The aggregated size of every input files.
totalsize = 0
# The size of the input set.
inputs_len = len(inputs)
logging.info(
'[+] Found %d test cases across: %s.',
inputs_len, ', '.join(args.input)
)
logging.info('[*] Instantiating %d worker processes.', nprocesses)
p = multiprocessing.Pool(processes = nprocesses)
# This tracks every unique tuples and their popularities
uniq_tuples = collections.Counter()
# This will associate a tuple with the currently fittest file exercising
# this particular tuple.
candidates = {}
# This tracks every files that triggered a hang.
hang_files = []
# This tracks every files that triggered a crash.
crash_files = []
# This tracks every files that generated an empty set of tuples.
# You might get those if the dynamically instrumented target module doesn't
# get hit because the testcase is so malformed that it won't pass a
# function called before for example; hence will return an empty tuple set.
empty_tuple_files = []
# The default return code is no crash.
wanted_returncode = 0
if args.crash_only:
logging.info('[+] Crash only mode enabled.')
wanted_returncode = 2
# Counter tracking how many files we have been through already.
i = 1
for result in p.imap_unordered(
AFLShowMapWorker(args),
inputs
):
print('\rProcessing file %d/%d...' % (i, inputs_len), end=' ')
i += 1
# If the set of tuples is empty, something weird happened
if len(result.tuples) == 0:
logging.debug(
'[x] The input file %s generated an empty set of tuples,'
' skipping it (ret = %d).',
result.path, result.returncode
)
empty_tuple_files.append(result.path)
continue
if result.returncode != wanted_returncode:
if result.returncode == 1:
hang_files.append(result.path)
# If the mode crash only is enabled, we track the non-crashing
# test cases in the same tuple.
if (result.returncode == 2 and args.crash_only is False) or \
(result.returncode == 0 and args.crash_only):
crash_files.append(result.path)
if args.crash_only is False:
logging.debug(
'[x] The input file %s triggered a %s, skipping it.',
result.path,
'hang' if result.returncode == 1 else 'crash'
)
else:
logging.debug(
'[x] The input file %s triggered a %s, skipping it.',
result.path,
'hang' if result.returncode == 1 else 'non crash'
)
continue
totalsize += result.filesize
# Generate the list of unique tuples while processing the results,
# also keep track of their popularities.
uniq_tuples.update(result.tuples.keys())
# Keep an updated dictionary mapping a tuple to the fittest file
# of all the paths.
for tuple_id, tuple_hitcount in result.tuples.items():
fileinfo = {
'size' : result.filesize,
'path' : result.path,
'tuples' : result.tuples,
'hitcount' : tuple_hitcount
}
if tuple_id in candidates:
candidate = candidates[tuple_id]
# If the candidate has a higher hitcount, we keep it.
if tuple_hitcount > candidate['hitcount']:
candidates[tuple_id] = fileinfo
elif tuple_hitcount == candidate['hitcount']:
# If the candidate has the same hitcount, but a
# smaller size, we keep it.
if result.filesize < candidate['size']:
candidates[tuple_id] = fileinfo
elif result.filesize == candidate['size']:
# If the candidate has the same hitcount and
# size, but exercise a bigger number of tuples,
# we keep it.
if len(result.tuples) > len(candidate['tuples']):
candidate[tuple_id] = fileinfo
else:
candidates[tuple_id] = fileinfo
p.close()
len_crash_files, len_hang_files, len_empty_tuple_files = map(
len, (crash_files, hang_files, empty_tuple_files)
)
effective_len = len(inputs) - (
len_crash_files + len_hang_files + len_empty_tuple_files
)
print()
logging.info(
'[+] Found %d unique tuples across %d files',
len(uniq_tuples), effective_len
)
if len_hang_files > 0:
logging.info(' - %d files triggered a hang', len_hang_files)
for hang_file in hang_files:
logging.debug(' - %s generated a hang', hang_file)
if len_crash_files > 0:
logging.info(
' - %d files %s a crash',
len_crash_files,
'did not trigger' if args.crash_only else 'triggered'
)
for crash_file in crash_files:
logging.debug(' - %s generated a crash', crash_file)
if len_empty_tuple_files > 0:
logging.info(
' - %d files resulted in an empty tuple set',
len_empty_tuple_files
)
for empty_tuple_file in empty_tuple_files:
logging.debug(' - %s generated an empty tuple', empty_tuple_file)
return uniq_tuples, candidates, effective_len, totalsize, crash_files, hang_files
def find_best_candidates(uniq_tuples, candidates):
# Using the same strategy as in afl-cmin, quoting lcamtuf:
# '''
# The "best" part is understood simply as the smallest input that
# includes a particular tuple in its trace. Empirical evidence
# suggests that this produces smaller datasets than more involved
# algorithms that could be still pulled off in a shell script.
# '''
minset = []
minsetsize = 0
remaining_tuples = list(uniq_tuples)
len_uniq_tuples = len(uniq_tuples)
for tuple_ in uniq_tuples:
if tuple_ not in remaining_tuples:
# It means we already deleted this tuple, as it was exercised
# as part of another test case.
continue
# Pick the current best file candidate for this tuple.
candidate = candidates[tuple_]
# Remove the other tuples also exercised by the candidate
# from the remaining_tuples list.
for tuple_exercised in candidate['tuples']:
# Remove the tuples exercised if we have not
# removed them already from the
# remaining_tuples list.
if tuple_exercised in remaining_tuples:
remaining_tuples.remove(tuple_exercised)
# Keep track of the final minset and its size.
minset.append(candidate['path'])
minsetsize += candidate['size']
# We are now done with this tuple, we can get rid of it.
del candidates[tuple_]
print('\rProcessing tuple %d/%d...' % (
len_uniq_tuples - len(remaining_tuples),
len_uniq_tuples
), end=' ')
# If we don't have any more tuples left, we are done.
if len(remaining_tuples) == 0:
break
return minset, minsetsize
def do_unique_copy(filepaths, dest_dir):
try:
os.makedirs(dest_dir)
except Exception:
if not os.path.isdir(dest_dir):
raise
num_digits = len(str(len(filepaths)-1))
for i, fpath in enumerate(filepaths):
filename = os.path.basename(fpath)
dest_path = os.path.join(dest_dir, 'id_' + str(i).zfill(num_digits) + "_" + filename)
shutil.copy(fpath, dest_path)
def main(argc, argv):
print('corpus minimization tool for WinAFL by <[email protected]>')
print('Based on WinAFL by <[email protected]>')
print('Based on AFL by <[email protected]>')
logging.basicConfig(
filename = 'winafl-cmin.log',
level = logging.DEBUG,
format = '%(asctime)s [%(levelname)-5.5s] [%(funcName)s] %(message)s'
)
args = setup_argparse()
cli_handler = logging.StreamHandler(sys.stdout)
cli_handler.setLevel(args.verbose)
logging.getLogger().addHandler(cli_handler)
# Interestingly enough, if the user uses '.. -- target.exe -option foo ..'
# argparse will add '--' in the target_cmdline option, so we need to
# strip it off manually here.
if args.target_cmdline[0] == '--':
del args.target_cmdline[0]
logging.debug(
'[+] winafl-cmin launched with the following arguments: %s',
' '.join(sys.argv)
)
if not validate_args(args):
return 1
os.chdir(args.working_dir)
logging.info('[+] CWD changed to %s.', args.working_dir)
if args.static_instr is True:
logging.info('[+] Dynamorio-less mode is enabled.')
# Go get all the input files we want to have a look at
logging.debug(
'Inspecting the following directories: %s',
', '.join(args.input)
)
inputs = []
for path in args.input:
for root, dirs, files in os.walk(path):
for file_ in files:
inputs.append(os.path.join(root, file_))
if not inputs:
logging.error(' Input directories do not contain any files!')
return 1
# Do a dry run with the first file in the set
if not target_dry_run(args, inputs[0]):
return 1
t0 = time.time()
uniq_tuples, candidates, effective_len, totalsize, crash_files, hang_files = run_all_inputs(args, inputs)
logging.info('[*] Finding best candidates for each tuple...')
minset, minsetsize = find_best_candidates(uniq_tuples, candidates)
print()
logging.info('[+] Original set was composed of %d files', len(inputs))
logging.info(
'[+] Effective set was composed of %d files (total size %.2f MB).',
effective_len, (totalsize / 1024.) / 1024.
)
logging.info(
'[+] Narrowed down to %d files (total size %.2f MB).',
len(minset), (minsetsize / 1024.) / 1024.
)
if args.dry_run is False:
logging.info(
'[*] Saving the minset in %s...', os.path.abspath(args.output)
)
do_unique_copy(minset, args.output)
if args.crash_dir and crash_files:
logging.info(
'[+] Saving %d crashing files to %s',
len(crash_files), args.crash_dir
)
do_unique_copy(crash_files, args.crash_dir)
if args.hang_dir and hang_files:
logging.info(
'[+] Saving %d hanging files to %s',
len(hang_files), args.hang_dir
)
do_unique_copy(hang_files, args.hang_dir)
logging.info('[+] Time elapsed: %d seconds', time.time() - t0)
return 0
if __name__ == '__main__':
sys.exit(main(len(sys.argv), sys.argv))