aosp12/art/tools/pylibdexfile.py

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2023-01-09 17:11:35 +08:00
#!/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.
#
# This script can get info out of dexfiles using libdexfile.so external API
#
from abc import ABC
from ctypes import *
import os.path
import functools
import zipfile
libdexfile = CDLL(
os.path.expandvars("$ANDROID_HOST_OUT/lib64/libdexfiled.so"))
ExtDexFile = c_void_p
class ExtMethodInfo(Structure):
"""Output format for MethodInfo"""
_fields_ = [("sizeof_struct", c_size_t),
("addr", c_int32),
("size", c_int32),
("name", POINTER(c_char)),
("name_size", c_size_t)]
AllMethodsCallback = CFUNCTYPE(c_int, c_void_p, POINTER(ExtMethodInfo))
libdexfile.ExtDexFileOpenFromMemory.argtypes = [
c_void_p,
POINTER(c_size_t),
c_char_p,
POINTER(ExtDexFile)
]
libdexfile.ExtDexFileOpenFromMemory.restype = c_int
libdexfile.ExtDexFileGetAllMethodInfos.argtypes = [
ExtDexFile, c_int, AllMethodsCallback, c_void_p
]
class DexClass(object):
"""Accessor for DexClass Data"""
def __init__(self, name):
self.name = name.strip()
self.arrays = name.count("[")
self.base_name = self.name if self.arrays == 0 else self.name[:-(
self.arrays * 2)]
def __repr__(self):
return self.name
@functools.cached_property
def descriptor(self):
"""The name as a descriptor"""
if self.base_name == "int":
return "[" * self.arrays + "I"
elif self.base_name == "short":
return "[" * self.arrays + "S"
elif self.base_name == "long":
return "[" * self.arrays + "J"
elif self.base_name == "char":
return "[" * self.arrays + "C"
elif self.base_name == "boolean":
return "[" * self.arrays + "Z"
elif self.base_name == "byte":
return "[" * self.arrays + "B"
elif self.base_name == "float":
return "[" * self.arrays + "F"
elif self.base_name == "double":
return "[" * self.arrays + "D"
elif self.base_name == "void":
return "[" * self.arrays + "V"
else:
return "[" * self.arrays + "L{};".format("/".join(
self.base_name.split(".")))
class Method(object):
"""Method info wrapper"""
def __init__(self, mi):
self.offset = mi.addr
self.len = mi.size
self.name = string_at(mi.name, mi.name_size).decode("utf-8")
def __repr__(self):
return "(" + self.name + ")"
@functools.cached_property
def descriptor(self):
"""name as a descriptor"""
ret = DexClass(self.name.split(" ")[0])
non_ret = self.name[len(ret.name) + 1:]
arg_str = non_ret[non_ret.find("(") + 1:-1]
args = [] if arg_str == "" else map(
lambda a: DexClass(a.strip()).descriptor, arg_str.split(","))
class_and_meth = non_ret[0:non_ret.find("(")]
class_only = DexClass(class_and_meth[0:class_and_meth.rfind(".")])
meth = class_and_meth[class_and_meth.rfind(".") + 1:]
return "{cls}->{meth}({args}){ret}".format(
cls=class_only.descriptor,
meth=meth,
args="".join(args),
ret=ret.descriptor)
@functools.cached_property
def name_only(self):
"""name without the return-type or arguments in java format"""
ret = DexClass(self.name.split(" ")[0])
non_ret = self.name[len(ret.name) + 1:]
class_and_meth = non_ret[0:non_ret.find("(")]
return class_and_meth
@functools.cached_property
def klass(self):
"""declaring DexClass."""
ret = DexClass(self.name.split(" ")[0])
non_ret = self.name[len(ret.name) + 1:]
class_and_meth = non_ret[0:non_ret.find("(")]
return DexClass(class_and_meth[0:class_and_meth.rfind(".")])
class BaseDexFile(ABC):
"""DexFile base class"""
def __init__(self):
self.ext_dex_file_ = None
return
@functools.cached_property
def methods(self):
"""Methods in the dex-file"""
meths = []
@AllMethodsCallback
def my_cb(_, info):
"""Callback visitor for method infos"""
meths.append(Method(info[0]))
return 0
libdexfile.ExtDexFileGetAllMethodInfos(self.ext_dex_file_,
c_int(1), my_cb, c_void_p())
return meths
class MemDexFile(BaseDexFile):
"""DexFile using memory"""
def __init__(self, dat, loc):
assert type(dat) == bytes
super().__init__()
# Don't want GC to screw us over.
self.mem_ref = (c_byte * len(dat)).from_buffer_copy(dat)
res_fle_ptr = pointer(c_void_p())
res = libdexfile.ExtDexFileOpenFromMemory(
self.mem_ref, byref(c_size_t(len(dat))),
create_string_buffer(bytes(loc, "utf-8")), res_fle_ptr)
if res != 0:
raise Exception("Failed to open file: {}. Error {}.".format(loc, res))
self.ext_dex_file_ = res_fle_ptr.contents
class FileDexFile(MemDexFile):
"""DexFile using a file"""
def __init__(self, file, loc):
if type(file) == str:
self.file = open(file, "rb")
self.loc = file
else:
self.file = file
self.loc = "file_obj"
super().__init__(self.file.read(), self.loc)
def OpenJar(fle):
"""Opens all classes[0-9]*.dex files in a zip archive"""
res = []
with zipfile.ZipFile(fle) as zf:
for f in zf.namelist():
if f.endswith(".dex") and f.startswith("classes"):
res.append(
MemDexFile(zf.read(f), "classes" if type(fle) != str else fle))
return res