#!/usr/bin/env python # Copyright (c) 2012 The Chromium Authors. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. """Find symbols in a binary corresponding to given runtime virtual addresses. Note that source file names are treated as symbols in this script while they are actually not. """ import json import logging import os import sys from static_symbols import StaticSymbolsInFile _BASE_PATH = os.path.dirname(os.path.abspath(__file__)) _TOOLS_LINUX_PATH = os.path.join(_BASE_PATH, os.pardir, 'linux') sys.path.insert(0, _TOOLS_LINUX_PATH) from procfs import ProcMaps # pylint: disable=F0401 try: from collections import OrderedDict # pylint: disable=E0611 except ImportError: _SIMPLEJSON_PATH = os.path.join(_BASE_PATH, os.pardir, os.pardir, 'third_party') sys.path.insert(0, _SIMPLEJSON_PATH) from simplejson import OrderedDict FUNCTION_SYMBOLS = 0 SOURCEFILE_SYMBOLS = 1 TYPEINFO_SYMBOLS = 2 _MAPS_FILENAME = 'maps' _FILES_FILENAME = 'files.json' class RuntimeSymbolsInProcess(object): def __init__(self): self._maps = None self._static_symbols_in_filse = {} def find_procedure(self, runtime_address): for vma in self._maps.iter(ProcMaps.executable): if vma.begin <= runtime_address < vma.end: static_symbols = self._static_symbols_in_filse.get(vma.name) if static_symbols: return static_symbols.find_procedure_by_runtime_address( runtime_address, vma) else: return None return None def find_sourcefile(self, runtime_address): for vma in self._maps.iter(ProcMaps.executable): if vma.begin <= runtime_address < vma.end: static_symbols = self._static_symbols_in_filse.get(vma.name) if static_symbols: return static_symbols.find_sourcefile_by_runtime_address( runtime_address, vma) else: return None return None def find_typeinfo(self, runtime_address): for vma in self._maps.iter(ProcMaps.constants): if vma.begin <= runtime_address < vma.end: static_symbols = self._static_symbols_in_filse.get(vma.name) if static_symbols: return static_symbols.find_typeinfo_by_runtime_address( runtime_address, vma) else: return None return None @staticmethod def load(prepared_data_dir): symbols_in_process = RuntimeSymbolsInProcess() with open(os.path.join(prepared_data_dir, _MAPS_FILENAME), mode='r') as f: symbols_in_process._maps = ProcMaps.load_file(f) with open(os.path.join(prepared_data_dir, _FILES_FILENAME), mode='r') as f: files = json.load(f) # pylint: disable=W0212 for vma in symbols_in_process._maps.iter(ProcMaps.executable_and_constants): file_entry = files.get(vma.name) if not file_entry: continue static_symbols = StaticSymbolsInFile(vma.name) nm_entry = file_entry.get('nm') if nm_entry and nm_entry['format'] == 'bsd': with open(os.path.join(prepared_data_dir, nm_entry['file']), 'r') as f: static_symbols.load_nm_bsd(f, nm_entry['mangled']) readelf_entry = file_entry.get('readelf-e') if readelf_entry: with open(os.path.join(prepared_data_dir, readelf_entry['file']), 'r') as f: static_symbols.load_readelf_ew(f) decodedline_file_entry = file_entry.get('readelf-debug-decodedline-file') if decodedline_file_entry: with open(os.path.join(prepared_data_dir, decodedline_file_entry['file']), 'r') as f: static_symbols.load_readelf_debug_decodedline_file(f) symbols_in_process._static_symbols_in_filse[vma.name] = static_symbols return symbols_in_process def _find_runtime_function_symbols(symbols_in_process, addresses): result = OrderedDict() for address in addresses: if isinstance(address, basestring): address = int(address, 16) found = symbols_in_process.find_procedure(address) if found: result[address] = found.name else: result[address] = '0x%016x' % address return result def _find_runtime_sourcefile_symbols(symbols_in_process, addresses): result = OrderedDict() for address in addresses: if isinstance(address, basestring): address = int(address, 16) found = symbols_in_process.find_sourcefile(address) if found: result[address] = found else: result[address] = '' return result def _find_runtime_typeinfo_symbols(symbols_in_process, addresses): result = OrderedDict() for address in addresses: if isinstance(address, basestring): address = int(address, 16) if address == 0: result[address] = 'no typeinfo' else: found = symbols_in_process.find_typeinfo(address) if found: if found.startswith('typeinfo for '): result[address] = found[13:] else: result[address] = found else: result[address] = '0x%016x' % address return result _INTERNAL_FINDERS = { FUNCTION_SYMBOLS: _find_runtime_function_symbols, SOURCEFILE_SYMBOLS: _find_runtime_sourcefile_symbols, TYPEINFO_SYMBOLS: _find_runtime_typeinfo_symbols, } def find_runtime_symbols(symbol_type, symbols_in_process, addresses): return _INTERNAL_FINDERS[symbol_type](symbols_in_process, addresses) def main(): # FIX: Accept only .pre data if len(sys.argv) < 2: sys.stderr.write("""Usage: %s /path/to/prepared_data_dir/ < addresses.txt """ % sys.argv[0]) return 1 log = logging.getLogger('find_runtime_symbols') log.setLevel(logging.WARN) handler = logging.StreamHandler() handler.setLevel(logging.WARN) formatter = logging.Formatter('%(message)s') handler.setFormatter(formatter) log.addHandler(handler) prepared_data_dir = sys.argv[1] if not os.path.exists(prepared_data_dir): log.warn("Nothing found: %s" % prepared_data_dir) return 1 if not os.path.isdir(prepared_data_dir): log.warn("Not a directory: %s" % prepared_data_dir) return 1 symbols_in_process = RuntimeSymbolsInProcess.load(prepared_data_dir) symbols_dict = find_runtime_symbols(FUNCTION_SYMBOLS, symbols_in_process, sys.stdin) for address, symbol in symbols_dict.iteritems(): if symbol: print '%016x %s' % (address, symbol) else: print '%016x' % address return 0 if __name__ == '__main__': sys.exit(main())