#!/usr/bin/env python3 # Copyright 2019 The Chromium Authors # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. """Utilities for optimistically parsing dex files. This file is not meant to provide a generic tool for analyzing dex files. A DexFile class that exposes access to several memory items in the dex format is provided, but it does not include error handling or validation. """ import argparse import collections import errno import os import re import struct import sys import zipfile # https://source.android.com/devices/tech/dalvik/dex-format#header-item _DEX_HEADER_FMT = ( ('magic', '8s'), ('checksum', 'I'), ('signature', '20s'), ('file_size', 'I'), ('header_size', 'I'), ('endian_tag', 'I'), ('link_size', 'I'), ('link_off', 'I'), ('map_off', 'I'), ('string_ids_size', 'I'), ('string_ids_off', 'I'), ('type_ids_size', 'I'), ('type_ids_off', 'I'), ('proto_ids_size', 'I'), ('proto_ids_off', 'I'), ('field_ids_size', 'I'), ('field_ids_off', 'I'), ('method_ids_size', 'I'), ('method_ids_off', 'I'), ('class_defs_size', 'I'), ('class_defs_off', 'I'), ('data_size', 'I'), ('data_off', 'I'), ) DexHeader = collections.namedtuple('DexHeader', ','.join(t[0] for t in _DEX_HEADER_FMT)) # Simple memory items. _TypeIdItem = collections.namedtuple('TypeIdItem', 'descriptor_idx') _ProtoIdItem = collections.namedtuple( 'ProtoIdItem', 'shorty_idx,return_type_idx,parameters_off') _MethodIdItem = collections.namedtuple('MethodIdItem', 'type_idx,proto_idx,name_idx') _TypeItem = collections.namedtuple('TypeItem', 'type_idx') _StringDataItem = collections.namedtuple('StringItem', 'utf16_size,data') _ClassDefItem = collections.namedtuple( 'ClassDefItem', 'class_idx,access_flags,superclass_idx,interfaces_off,source_file_idx,' 'annotations_off,class_data_off,static_values_off') class _MemoryItemList: """Base class for repeated memory items.""" def __init__(self, reader, offset, size, factory, alignment=None, first_item_offset=None): """Creates the item list using the specific item factory. Args: reader: _DexReader used for decoding the memory item. offset: Offset from start of the file to the item list, serving as the key for some item types. size: Number of memory items in the list. factory: Function to extract each memory item from a _DexReader. alignment: Optional integer specifying the alignment for the memory section represented by this list. first_item_offset: Optional, specifies a different offset to use for extracting memory items (default is to use offset). """ self.offset = offset self.size = size reader.Seek(first_item_offset or offset) self._items = [factory(reader) for _ in range(size)] if alignment: reader.AlignUpTo(alignment) def __iter__(self): return iter(self._items) def __getitem__(self, key): return self._items[key] def __len__(self): return len(self._items) def __repr__(self): item_type_part = '' if self.size != 0: item_type = type(self._items[0]) item_type_part = ', item type={}'.format(item_type.__name__) return '{}(offset={:#x}, size={}{})'.format( type(self).__name__, self.offset, self.size, item_type_part) class _TypeIdItemList(_MemoryItemList): def __init__(self, reader, offset, size): factory = lambda x: _TypeIdItem(x.ReadUInt()) super().__init__(reader, offset, size, factory) class _ProtoIdItemList(_MemoryItemList): def __init__(self, reader, offset, size): factory = lambda x: _ProtoIdItem(x.ReadUInt(), x.ReadUInt(), x.ReadUInt()) super().__init__(reader, offset, size, factory) class _MethodIdItemList(_MemoryItemList): def __init__(self, reader, offset, size): factory = ( lambda x: _MethodIdItem(x.ReadUShort(), x.ReadUShort(), x.ReadUInt())) super().__init__(reader, offset, size, factory) class _StringItemList(_MemoryItemList): def __init__(self, reader, offset, size): reader.Seek(offset) string_item_offsets = iter([reader.ReadUInt() for _ in range(size)]) def factory(x): data_offset = next(string_item_offsets) string = x.ReadString(data_offset) return _StringDataItem(len(string), string) super().__init__(reader, offset, size, factory) class _TypeListItem(_MemoryItemList): def __init__(self, reader): offset = reader.Tell() size = reader.ReadUInt() factory = lambda x: _TypeItem(x.ReadUShort()) # This is necessary because we need to extract the size of the type list # (in other cases the list size is provided in the header). first_item_offset = reader.Tell() super().__init__(reader, offset, size, factory, alignment=4, first_item_offset=first_item_offset) class _TypeListItemList(_MemoryItemList): def __init__(self, reader, offset, size): super().__init__(reader, offset, size, _TypeListItem) class _ClassDefItemList(_MemoryItemList): def __init__(self, reader, offset, size): reader.Seek(offset) def factory(x): return _ClassDefItem(*(x.ReadUInt() for _ in range(len(_ClassDefItem._fields)))) super().__init__(reader, offset, size, factory) class _DexMapItem: def __init__(self, reader): self.type = reader.ReadUShort() reader.ReadUShort() self.size = reader.ReadUInt() self.offset = reader.ReadUInt() def __repr__(self): return '_DexMapItem(type={}, size={}, offset={:#x})'.format( self.type, self.size, self.offset) class _DexMapList: # Full list of type codes: # https://source.android.com/devices/tech/dalvik/dex-format#type-codes TYPE_TYPE_LIST = 0x1001 def __init__(self, reader, offset): self._map = {} reader.Seek(offset) self._size = reader.ReadUInt() for _ in range(self._size): item = _DexMapItem(reader) self._map[item.type] = item def __getitem__(self, key): return self._map[key] def __contains__(self, key): return key in self._map def __repr__(self): return '_DexMapList(size={}, items={})'.format(self._size, self._map) class _DexReader: def __init__(self, data): self._data = data self._pos = 0 def Seek(self, offset): self._pos = offset def Tell(self): return self._pos def ReadUByte(self): return self._ReadData('