tools/bisect_profile.py - platform/art - Git at Google

 #!/usr/bin/python3
 #
 # Copyright (C) 2021 The Android Open Source Project
 #
 # 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
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.

 #
 # Generates profiles from the set of all methods in a given set of dex/jars and
 # bisects to find minimal repro sets.
 #

 import shlex
 import argparse
 import pylibdexfile
 import math
 import subprocess
 from collections import namedtuple
 import sys
 import random
 import os

 ApkEntry = namedtuple("ApkEntry", ["file", "location"])


 def get_parser():
   parser = argparse.ArgumentParser(
       description="Bisect profile contents. We will wait while the user runs test"
   )

   class ApkAction(argparse.Action):

     def __init__(self, option_strings, dest, **kwargs):
       super(ApkAction, self).__init__(option_strings, dest, **kwargs)

     def __call__(self, parser, namespace, values, option_string=None):
       lst = getattr(namespace, self.dest)
       if lst is None:
         setattr(namespace, self.dest, [])
         lst = getattr(namespace, self.dest)
       if len(values) == 1:
         values = (values[0], values[0])
       assert len(values) == 2, values
       lst.append(ApkEntry(*values))

   apks = parser.add_argument_group(title="APK selection")
   apks.add_argument(
       "--apk",
       action=ApkAction,
       dest="apks",
       nargs=1,
       default=[],
       help="an apk/dex/jar to get methods from. Uses same path as location. " +
            "Use --apk-and-location if this isn't desired."
   )
   apks.add_argument(
       "--apk-and-location",
       action=ApkAction,
       nargs=2,
       dest="apks",
       help="an apk/dex/jar + location to get methods from."
   )
   profiles = parser.add_argument_group(
       title="Profile selection").add_mutually_exclusive_group()
   profiles.add_argument(
       "--input-text-profile", help="a text profile to use for bisect")
   profiles.add_argument("--input-profile", help="a profile to use for bisect")
   parser.add_argument(
       "--output-source", help="human readable file create the profile from")
   parser.add_argument("--test-exec", help="file to exec (without arguments) to test a" +
                                            " candidate. Test should exit 0 if the issue" +
                                            " is not present and non-zero if the issue is" +
                                            " present.")
   parser.add_argument("output_file", help="file we will write the profiles to")
   return parser


 def dump_files(meths, args, output):
   for m in meths:
     print("HS{}".format(m), file=output)
   output.flush()
   profman_args = [
       "profmand", "--reference-profile-file={}".format(args.output_file),
       "--create-profile-from={}".format(args.output_source)
   ]
   print(" ".join(map(shlex.quote, profman_args)))
   for apk in args.apks:
     profman_args += [
         "--apk={}".format(apk.file), "--dex-location={}".format(apk.location)
     ]
   profman = subprocess.run(profman_args)
   profman.check_returncode()


 def get_answer(args):
   if args.test_exec is None:
     while True:
       answer = input("Does the file at {} cause the issue (y/n):".format(
           args.output_file))
       if len(answer) >= 1 and answer[0].lower() == "y":
         return "y"
       elif len(answer) >= 1 and answer[0].lower() == "n":
         return "n"
       else:
         print("Please enter 'y' or 'n' only!")
   else:
     test_args = shlex.split(args.test_exec)
     print(" ".join(map(shlex.quote, test_args)))
     answer = subprocess.run(test_args)
     if answer.returncode == 0:
       return "n"
     else:
       return "y"

 def run_test(meths, args):
   with open(args.output_source, "wt") as output:
     dump_files(meths, args, output)
     print("Currently testing {} methods. ~{} rounds to go.".format(
         len(meths), 1 + math.floor(math.log2(len(meths)))))
   return get_answer(args)

 def main():
   parser = get_parser()
   args = parser.parse_args()
   if args.output_source is None:
     fdnum = os.memfd_create("tempfile_profile")
     args.output_source = "/proc/{}/fd/{}".format(os.getpid(), fdnum)
   all_dexs = list()
   for f in args.apks:
     try:
       all_dexs.append(pylibdexfile.FileDexFile(f.file, f.location))
     except Exception as e1:
       try:
         all_dexs += pylibdexfile.OpenJar(f.file)
       except Exception as e2:
         parser.error("Failed to open file: {}. errors were {} and {}".format(
             f.file, e1, e2))
   if args.input_profile is not None:
     profman_args = [
         "profmand", "--dump-classes-and-methods",
         "--profile-file={}".format(args.input_profile)
     ]
     for apk in args.apks:
       profman_args.append("--apk={}".format(apk.file))
     print(" ".join(map(shlex.quote, profman_args)))
     res = subprocess.run(
         profman_args, capture_output=True, universal_newlines=True)
     res.check_returncode()
     meth_list = list(filter(lambda a: a != "", res.stdout.split()))
   elif args.input_text_profile is not None:
     with open(args.input_text_profile, "rt") as inp:
       meth_list = list(filter(lambda a: a != "", inp.readlines()))
   else:
     all_methods = set()
     for d in all_dexs:
       for m in d.methods:
         all_methods.add(m.descriptor)
     meth_list = list(all_methods)
   print("Found {} methods. Will take ~{} iterations".format(
       len(meth_list), 1 + math.floor(math.log2(len(meth_list)))))
   print(
       "type 'yes' if the behavior you are looking for is present (i.e. the compiled code crashes " +
       "or something)"
   )
   print("Performing single check with all methods")
   result = run_test(meth_list, args)
   if result[0].lower() != "y":
     cont = input(
         "The behavior you were looking for did not occur when run against all methods. Continue " +
         "(yes/no)? "
     )
     if cont[0].lower() != "y":
       print("Aborting!")
       sys.exit(1)
   needs_dump = False
   while len(meth_list) > 1:
     test_methods = list(meth_list[0:len(meth_list) // 2])
     result = run_test(test_methods, args)
     if result[0].lower() == "y":
       meth_list = test_methods
       needs_dump = False
     else:
       meth_list = meth_list[len(meth_list) // 2:]
       needs_dump = True
   if needs_dump:
     with open(args.output_source, "wt") as output:
       dump_files(meth_list, args, output)
   print("Found result!")
   print("{}".format(meth_list[0]))
   print("Leaving profile at {} and text profile at {}".format(
       args.output_file, args.output_source))


 if __name__ == "__main__":
   main()
	#!/usr/bin/python3
	#
	# Copyright (C) 2021 The Android Open Source Project
	#
	# 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
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	#
	# Generates profiles from the set of all methods in a given set of dex/jars and
	# bisects to find minimal repro sets.
	#

	import shlex
	import argparse
	import pylibdexfile
	import math
	import subprocess
	from collections import namedtuple
	import sys
	import random
	import os

	ApkEntry = namedtuple("ApkEntry", ["file", "location"])


	def get_parser():
	parser = argparse.ArgumentParser(
	description="Bisect profile contents. We will wait while the user runs test"
	)

	class ApkAction(argparse.Action):

	def __init__(self, option_strings, dest, **kwargs):
	super(ApkAction, self).__init__(option_strings, dest, **kwargs)

	def __call__(self, parser, namespace, values, option_string=None):
	lst = getattr(namespace, self.dest)
	if lst is None:
	setattr(namespace, self.dest, [])
	lst = getattr(namespace, self.dest)
	if len(values) == 1:
	values = (values[0], values[0])
	assert len(values) == 2, values
	lst.append(ApkEntry(*values))

	apks = parser.add_argument_group(title="APK selection")
	apks.add_argument(
	"--apk",
	action=ApkAction,
	dest="apks",
	nargs=1,
	default=[],
	help="an apk/dex/jar to get methods from. Uses same path as location. " +
	"Use --apk-and-location if this isn't desired."
	)
	apks.add_argument(
	"--apk-and-location",
	action=ApkAction,
	nargs=2,
	dest="apks",
	help="an apk/dex/jar + location to get methods from."
	)
	profiles = parser.add_argument_group(
	title="Profile selection").add_mutually_exclusive_group()
	profiles.add_argument(
	"--input-text-profile", help="a text profile to use for bisect")
	profiles.add_argument("--input-profile", help="a profile to use for bisect")
	parser.add_argument(
	"--output-source", help="human readable file create the profile from")
	parser.add_argument("--test-exec", help="file to exec (without arguments) to test a" +
	" candidate. Test should exit 0 if the issue" +
	" is not present and non-zero if the issue is" +
	" present.")
	parser.add_argument("output_file", help="file we will write the profiles to")
	return parser


	def dump_files(meths, args, output):
	for m in meths:
	print("HS{}".format(m), file=output)
	output.flush()
	profman_args = [
	"profmand", "--reference-profile-file={}".format(args.output_file),
	"--create-profile-from={}".format(args.output_source)
	]
	print(" ".join(map(shlex.quote, profman_args)))
	for apk in args.apks:
	profman_args += [
	"--apk={}".format(apk.file), "--dex-location={}".format(apk.location)
	]
	profman = subprocess.run(profman_args)
	profman.check_returncode()


	def get_answer(args):
	if args.test_exec is None:
	while True:
	answer = input("Does the file at {} cause the issue (y/n):".format(
	args.output_file))
	if len(answer) >= 1 and answer[0].lower() == "y":
	return "y"
	elif len(answer) >= 1 and answer[0].lower() == "n":
	return "n"
	else:
	print("Please enter 'y' or 'n' only!")
	else:
	test_args = shlex.split(args.test_exec)
	print(" ".join(map(shlex.quote, test_args)))
	answer = subprocess.run(test_args)
	if answer.returncode == 0:
	return "n"
	else:
	return "y"

	def run_test(meths, args):
	with open(args.output_source, "wt") as output:
	dump_files(meths, args, output)
	print("Currently testing {} methods. ~{} rounds to go.".format(
	len(meths), 1 + math.floor(math.log2(len(meths)))))
	return get_answer(args)

	def main():
	parser = get_parser()
	args = parser.parse_args()
	if args.output_source is None:
	fdnum = os.memfd_create("tempfile_profile")
	args.output_source = "/proc/{}/fd/{}".format(os.getpid(), fdnum)
	all_dexs = list()
	for f in args.apks:
	try:
	all_dexs.append(pylibdexfile.FileDexFile(f.file, f.location))
	except Exception as e1:
	try:
	all_dexs += pylibdexfile.OpenJar(f.file)
	except Exception as e2:
	parser.error("Failed to open file: {}. errors were {} and {}".format(
	f.file, e1, e2))
	if args.input_profile is not None:
	profman_args = [
	"profmand", "--dump-classes-and-methods",
	"--profile-file={}".format(args.input_profile)
	]
	for apk in args.apks:
	profman_args.append("--apk={}".format(apk.file))
	print(" ".join(map(shlex.quote, profman_args)))
	res = subprocess.run(
	profman_args, capture_output=True, universal_newlines=True)
	res.check_returncode()
	meth_list = list(filter(lambda a: a != "", res.stdout.split()))
	elif args.input_text_profile is not None:
	with open(args.input_text_profile, "rt") as inp:
	meth_list = list(filter(lambda a: a != "", inp.readlines()))
	else:
	all_methods = set()
	for d in all_dexs:
	for m in d.methods:
	all_methods.add(m.descriptor)
	meth_list = list(all_methods)
	print("Found {} methods. Will take ~{} iterations".format(
	len(meth_list), 1 + math.floor(math.log2(len(meth_list)))))
	print(
	"type 'yes' if the behavior you are looking for is present (i.e. the compiled code crashes " +
	"or something)"
	)
	print("Performing single check with all methods")
	result = run_test(meth_list, args)
	if result[0].lower() != "y":
	cont = input(
	"The behavior you were looking for did not occur when run against all methods. Continue " +
	"(yes/no)? "
	)
	if cont[0].lower() != "y":
	print("Aborting!")
	sys.exit(1)
	needs_dump = False
	while len(meth_list) > 1:
	test_methods = list(meth_list[0:len(meth_list) // 2])
	result = run_test(test_methods, args)
	if result[0].lower() == "y":
	meth_list = test_methods
	needs_dump = False
	else:
	meth_list = meth_list[len(meth_list) // 2:]
	needs_dump = True
	if needs_dump:
	with open(args.output_source, "wt") as output:
	dump_files(meth_list, args, output)
	print("Found result!")
	print("{}".format(meth_list[0]))
	print("Leaving profile at {} and text profile at {}".format(
	args.output_file, args.output_source))


	if __name__ == "__main__":
	main()