#!/usr/bin/env python # # Copyright (C) 2016 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. # """utils.py: export utility functions. """ from __future__ import print_function import logging import os import os.path import shutil import subprocess import sys import time def get_script_dir(): return os.path.dirname(os.path.realpath(__file__)) def is_windows(): return sys.platform == 'win32' or sys.platform == 'cygwin' def is_darwin(): return sys.platform == 'darwin' def get_platform(): if is_windows(): return 'windows' if is_darwin(): return 'darwin' return 'linux' def is_python3(): return sys.version_info >= (3, 0) def log_debug(msg): logging.debug(msg) def log_info(msg): logging.info(msg) def log_warning(msg): logging.warning(msg) def log_fatal(msg): raise Exception(msg) def log_exit(msg): sys.exit(msg) def disable_debug_log(): logging.getLogger().setLevel(logging.WARN) def str_to_bytes(str): if not is_python3(): return str # In python 3, str are wide strings whereas the C api expects 8 bit strings, # hence we have to convert. For now using utf-8 as the encoding. return str.encode('utf-8') def bytes_to_str(bytes): if not is_python3(): return bytes return bytes.decode('utf-8') def get_target_binary_path(arch, binary_name): if arch == 'aarch64': arch = 'arm64' arch_dir = os.path.join(get_script_dir(), "bin", "android", arch) if not os.path.isdir(arch_dir): log_fatal("can't find arch directory: %s" % arch_dir) binary_path = os.path.join(arch_dir, binary_name) if not os.path.isfile(binary_path): log_fatal("can't find binary: %s" % binary_path) return binary_path def get_host_binary_path(binary_name): dir = os.path.join(get_script_dir(), 'bin') if is_windows(): if binary_name.endswith('.so'): binary_name = binary_name[0:-3] + '.dll' elif '.' not in binary_name: binary_name += '.exe' dir = os.path.join(dir, 'windows') elif sys.platform == 'darwin': # OSX if binary_name.endswith('.so'): binary_name = binary_name[0:-3] + '.dylib' dir = os.path.join(dir, 'darwin') else: dir = os.path.join(dir, 'linux') dir = os.path.join(dir, 'x86_64' if sys.maxsize > 2 ** 32 else 'x86') binary_path = os.path.join(dir, binary_name) if not os.path.isfile(binary_path): log_fatal("can't find binary: %s" % binary_path) return binary_path def is_executable_available(executable, option='--help'): """ Run an executable to see if it exists. """ try: subproc = subprocess.Popen([executable, option], stdout=subprocess.PIPE, stderr=subprocess.PIPE) subproc.communicate() return subproc.returncode == 0 except: return False DEFAULT_NDK_PATH = { 'darwin': 'Library/Android/sdk/ndk-bundle', 'linux': 'Android/Sdk/ndk-bundle', 'windows': 'AppData/Local/Android/sdk/ndk-bundle', } EXPECTED_TOOLS = { 'adb': { 'is_binutils': False, 'test_option': 'version', 'path_in_ndk': '../platform-tools/adb', }, 'readelf': { 'is_binutils': True, 'accept_tool_without_arch': True, }, 'addr2line': { 'is_binutils': True, 'accept_tool_without_arch': True }, 'objdump': { 'is_binutils': True, }, } def _get_binutils_path_in_ndk(toolname, arch, platform): if not arch: arch = 'arm64' if arch == 'arm64': name = 'aarch64-linux-android-' + toolname path = 'toolchains/aarch64-linux-android-4.9/prebuilt/%s-x86_64/bin/%s' % (platform, name) elif arch == 'arm': name = 'arm-linux-androideabi-' + toolname path = 'toolchains/arm-linux-androideabi-4.9/prebuilt/%s-x86_64/bin/%s' % (platform, name) elif arch == 'x86_64': name = 'x86_64-linux-android-' + toolname path = 'toolchains/x86_64-4.9/prebuilt/%s-x86_64/bin/%s' % (platform, name) elif arch == 'x86': name = 'i686-linux-android-' + toolname path = 'toolchains/x86-4.9/prebuilt/%s-x86_64/bin/%s' % (platform, name) else: log_fatal('unexpected arch %s' % arch) return (name, path) def find_tool_path(toolname, ndk_path=None, arch=None): if toolname not in EXPECTED_TOOLS: return None tool_info = EXPECTED_TOOLS[toolname] is_binutils = tool_info['is_binutils'] test_option = tool_info.get('test_option', '--help') platform = get_platform() if is_binutils: toolname_with_arch, path_in_ndk = _get_binutils_path_in_ndk(toolname, arch, platform) else: toolname_with_arch = toolname path_in_ndk = tool_info['path_in_ndk'] path_in_ndk = path_in_ndk.replace('/', os.sep) # 1. Find tool in the given ndk path. if ndk_path: path = os.path.join(ndk_path, path_in_ndk) if is_executable_available(path, test_option): return path # 2. Find tool in the ndk directory containing simpleperf scripts. path = os.path.join('..', path_in_ndk) if is_executable_available(path, test_option): return path # 3. Find tool in the default ndk installation path. home = os.environ.get('HOMEPATH') if is_windows() else os.environ.get('HOME') if home: default_ndk_path = os.path.join(home, DEFAULT_NDK_PATH[platform].replace('/', os.sep)) path = os.path.join(default_ndk_path, path_in_ndk) if is_executable_available(path, test_option): return path # 4. Find tool in $PATH. if is_executable_available(toolname_with_arch, test_option): return toolname_with_arch # 5. Find tool without arch in $PATH. if is_binutils and tool_info.get('accept_tool_without_arch'): if is_executable_available(toolname, test_option): return toolname return None class AdbHelper(object): def __init__(self, enable_switch_to_root=True): adb_path = find_tool_path('adb') if not adb_path: log_exit("Can't find adb in PATH environment.") self.adb_path = adb_path self.enable_switch_to_root = enable_switch_to_root def run(self, adb_args): return self.run_and_return_output(adb_args)[0] def run_and_return_output(self, adb_args, stdout_file=None, log_output=True): adb_args = [self.adb_path] + adb_args log_debug('run adb cmd: %s' % adb_args) if stdout_file: with open(stdout_file, 'wb') as stdout_fh: returncode = subprocess.call(adb_args, stdout=stdout_fh) stdoutdata = '' else: subproc = subprocess.Popen(adb_args, stdout=subprocess.PIPE) (stdoutdata, _) = subproc.communicate() returncode = subproc.returncode result = (returncode == 0) if stdoutdata and adb_args[1] != 'push' and adb_args[1] != 'pull': stdoutdata = bytes_to_str(stdoutdata) if log_output: log_debug(stdoutdata) log_debug('run adb cmd: %s [result %s]' % (adb_args, result)) return (result, stdoutdata) def check_run(self, adb_args): self.check_run_and_return_output(adb_args) def check_run_and_return_output(self, adb_args, stdout_file=None, log_output=True): result, stdoutdata = self.run_and_return_output(adb_args, stdout_file, log_output) if not result: log_exit('run "adb %s" failed' % adb_args) return stdoutdata def _unroot(self): result, stdoutdata = self.run_and_return_output(['shell', 'whoami']) if not result: return if 'root' not in stdoutdata: return log_info('unroot adb') self.run(['unroot']) self.run(['wait-for-device']) time.sleep(1) def switch_to_root(self): if not self.enable_switch_to_root: self._unroot() return False result, stdoutdata = self.run_and_return_output(['shell', 'whoami']) if not result: return False if 'root' in stdoutdata: return True build_type = self.get_property('ro.build.type') if build_type == 'user': return False self.run(['root']) time.sleep(1) self.run(['wait-for-device']) result, stdoutdata = self.run_and_return_output(['shell', 'whoami']) return result and 'root' in stdoutdata def get_property(self, name): result, stdoutdata = self.run_and_return_output(['shell', 'getprop', name]) return stdoutdata if result else None def set_property(self, name, value): return self.run(['shell', 'setprop', name, value]) def get_device_arch(self): output = self.check_run_and_return_output(['shell', 'uname', '-m']) if 'aarch64' in output: return 'arm64' if 'arm' in output: return 'arm' if 'x86_64' in output: return 'x86_64' if '86' in output: return 'x86' log_fatal('unsupported architecture: %s' % output.strip()) def get_android_version(self): build_version = self.get_property('ro.build.version.release') android_version = 0 if build_version: if not build_version[0].isdigit(): c = build_version[0].upper() if c.isupper() and c >= 'L': android_version = ord(c) - ord('L') + 5 else: strs = build_version.split('.') if strs: android_version = int(strs[0]) return android_version def flatten_arg_list(arg_list): res = [] if arg_list: for items in arg_list: res += items return res def remove(dir_or_file): if os.path.isfile(dir_or_file): os.remove(dir_or_file) elif os.path.isdir(dir_or_file): shutil.rmtree(dir_or_file, ignore_errors=True) def open_report_in_browser(report_path): import webbrowser try: # Try to open the report with Chrome browser_key = '' for key, _ in webbrowser._browsers.items(): if 'chrome' in key: browser_key = key browser = webbrowser.get(browser_key) browser.open(report_path, new=0, autoraise=True) except: # webbrowser.get() doesn't work well on darwin/windows. webbrowser.open_new_tab(report_path) def find_real_dso_path(dso_path_in_record_file, binary_cache_path): """ Given the path of a shared library in perf.data, find its real path in the file system. """ if dso_path_in_record_file[0] != '/' or dso_path_in_record_file == '//anon': return None if binary_cache_path: tmp_path = os.path.join(binary_cache_path, dso_path_in_record_file[1:]) if os.path.isfile(tmp_path): return tmp_path if os.path.isfile(dso_path_in_record_file): return dso_path_in_record_file return None def get_arch_of_dso_path(readelf_path, dso_path): try: output = subprocess.check_output([readelf_path, '-h', dso_path]) if output.find('AArch64') != -1: return 'arm64' if output.find('ARM') != -1: return 'arm' if output.find('X86-64') != -1: return 'x86_64' if output.find('80386') != -1: return 'x86' except subprocess.CalledProcessError: pass return 'unknown' class Addr2Nearestline(object): """ Use addr2line to convert (dso_path, func_addr, addr) to (source_file, line) pairs. For instructions generated by C++ compilers without a matching statement in source code (like stack corruption check, switch optimization, etc.), addr2line can't generate line information. However, we want to assign the instruction to the nearest line before the instruction (just like objdump -dl). So we use below strategy: Instead of finding the exact line of the instruction in an address, we find the nearest line to the instruction in an address. If an address doesn't have a line info, we find the line info of address - 1. If still no line info, then use address - 2, address - 3, etc. The implementation steps are as below: 1. Collect all (dso_path, func_addr, addr) requests before converting. This saves the times to call addr2line. 2. Convert addrs to (source_file, line) pairs for each dso_path as below: 2.1 Check if the dso_path has .debug_line. If not, omit its conversion. 2.2 Get arch of the dso_path, and decide the addr_step for it. addr_step is the step we change addr each time. For example, since instructions of arm64 are all 4 bytes long, addr_step for arm64 can be 4. 2.3 Use addr2line to find line info for each addr in the dso_path. 2.4 For each addr without line info, use addr2line to find line info for range(addr - addr_step, addr - addr_step * 4 - 1, -addr_step). 2.5 For each addr without line info, use addr2line to find line info for range(addr - addr_step * 5, addr - addr_step * 128 - 1, -addr_step). (128 is a guess number. A nested switch statement in system/core/demangle/Demangler.cpp has >300 bytes without line info in arm64.) """ class Dso(object): """ Info of a dynamic shared library. addrs: a map from address to Addr object in this dso. """ def __init__(self): self.addrs = {} def get_addr_source(self, addr): return self.addrs[addr].source_lines class Addr(object): """ Info of an addr request. func_addr: start_addr of the function containing addr. source_lines: a list of [file_id, line_number] for addr. source_lines[:-1] are all for inlined functions. """ def __init__(self, func_addr): self.func_addr = func_addr self.source_lines = None def __init__(self, ndk_path, binary_cache_path): self.addr2line_path = find_tool_path('addr2line', ndk_path) if not self.addr2line_path: log_exit("Can't find addr2line. Please set ndk path by --ndk-path option.") self.readelf_path = find_tool_path('readelf', ndk_path) if not self.readelf_path: log_exit("Can't find readelf. Please set ndk path by --ndk-path option.") self.dso_map = {} # map from dso_path to Dso. self.binary_cache_path = binary_cache_path # Saving file names for each addr takes a lot of memory. So we store file ids in Addr, # and provide data structures connecting file id and file name here. self.file_name_to_id = {} self.file_id_to_name = [] def add_addr(self, dso_path, func_addr, addr): dso = self.dso_map.get(dso_path) if dso is None: dso = self.dso_map[dso_path] = self.Dso() if addr not in dso.addrs: dso.addrs[addr] = self.Addr(func_addr) def convert_addrs_to_lines(self): for dso_path in self.dso_map: self._convert_addrs_in_one_dso(dso_path, self.dso_map[dso_path]) def _convert_addrs_in_one_dso(self, dso_path, dso): real_path = find_real_dso_path(dso_path, self.binary_cache_path) if not real_path: if dso_path not in ['//anon', 'unknown', '[kernel.kallsyms]']: log_debug("Can't find dso %s" % dso_path) return if not self._check_debug_line_section(real_path): log_debug("file %s doesn't contain .debug_line section." % real_path) return addr_step = self._get_addr_step(real_path) self._collect_line_info(dso, real_path, [0]) self._collect_line_info(dso, real_path, range(-addr_step, -addr_step * 4 - 1, -addr_step)) self._collect_line_info(dso, real_path, range(-addr_step * 5, -addr_step * 128 - 1, -addr_step)) def _check_debug_line_section(self, real_path): try: output = subprocess.check_output([self.readelf_path, '-S', real_path]) return output.find('.debug_line') != -1 except subprocess.CalledProcessError: return False def _get_addr_step(self, real_path): arch = get_arch_of_dso_path(self.readelf_path, real_path) if arch == 'arm64': return 4 if arch == 'arm': return 2 return 1 def _collect_line_info(self, dso, real_path, addr_shifts): """ Use addr2line to get line info in a dso, with given addr shifts. """ # 1. Collect addrs to send to addr2line. addr_set = set() for addr in dso.addrs: addr_obj = dso.addrs[addr] if addr_obj.source_lines: # already has source line, no need to search. continue for shift in addr_shifts: # The addr after shift shouldn't change to another function. shifted_addr = max(addr + shift, addr_obj.func_addr) addr_set.add(shifted_addr) if shifted_addr == addr_obj.func_addr: break if not addr_set: return addr_request = '\n'.join(['%x' % addr for addr in sorted(addr_set)]) # 2. Use addr2line to collect line info. try: subproc = subprocess.Popen([self.addr2line_path, '-ai', '-e', real_path], stdin=subprocess.PIPE, stdout=subprocess.PIPE) (stdoutdata, _) = subproc.communicate(str_to_bytes(addr_request)) stdoutdata = bytes_to_str(stdoutdata) except: return addr_map = {} cur_line_list = None for line in stdoutdata.strip().split('\n'): if line[:2] == '0x': # a new address cur_line_list = addr_map[int(line, 16)] = [] else: # a file:line. if cur_line_list is None: continue # Handle lines like "C:\Users\...\file:32". items = line.rsplit(':', 1) if len(items) != 2: continue if '?' in line: # if ? in line, it doesn't have a valid line info. # An addr can have a list of (file, line), when the addr belongs to an inlined # function. Sometimes only part of the list has ? mark. In this case, we think # the line info is valid if the first line doesn't have ? mark. if not cur_line_list: cur_line_list = None continue (file_path, line_number) = items line_number = line_number.split()[0] # Remove comments after line number try: line_number = int(line_number) except ValueError: continue file_id = self._get_file_id(file_path) cur_line_list.append((file_id, line_number)) # 3. Fill line info in dso.addrs. for addr in dso.addrs: addr_obj = dso.addrs[addr] if addr_obj.source_lines: continue for shift in addr_shifts: shifted_addr = max(addr + shift, addr_obj.func_addr) lines = addr_map.get(shifted_addr) if lines: addr_obj.source_lines = lines break if shifted_addr == addr_obj.func_addr: break def _get_file_id(self, file_path): file_id = self.file_name_to_id.get(file_path) if file_id is None: file_id = self.file_name_to_id[file_path] = len(self.file_id_to_name) self.file_id_to_name.append(file_path) return file_id def get_file_path(self, file_id): return self.file_id_to_name[file_id] def get_dso(self, dso_path): return self.dso_map.get(dso_path) class Objdump(object): """ A wrapper of objdump to disassemble code. """ def __init__(self, ndk_path, binary_cache_path): self.ndk_path = ndk_path self.binary_cache_path = binary_cache_path self.readelf_path = find_tool_path('readelf', ndk_path) if not self.readelf_path: log_exit("Can't find readelf. Please set ndk path by --ndk-path option.") self.objdump_paths = {} def disassemble_code(self, dso_path, start_addr, addr_len): """ Disassemble [start_addr, start_addr + addr_len] of dso_path. Return a list of pair (disassemble_code_line, addr). """ # 1. Find real path. real_path = find_real_dso_path(dso_path, self.binary_cache_path) if real_path is None: return None # 2. Get path of objdump. arch = get_arch_of_dso_path(self.readelf_path, real_path) objdump_path = self.objdump_paths.get(arch) if not objdump_path: objdump_path = find_tool_path('objdump', self.ndk_path, arch) if not objdump_path: log_exit("Can't find objdump. Please set ndk path by --ndk-path option.") self.objdump_paths[arch] = objdump_path # 3. Run objdump. args = [objdump_path, '-dlC', '--no-show-raw-insn', '--start-address=0x%x' % start_addr, '--stop-address=0x%x' % (start_addr + addr_len), real_path] try: subproc = subprocess.Popen(args, stdin=subprocess.PIPE, stdout=subprocess.PIPE) (stdoutdata, _) = subproc.communicate() stdoutdata = bytes_to_str(stdoutdata) except: return None if not stdoutdata: return None result = [] for line in stdoutdata.split('\n'): line = line.rstrip() # Remove '\r' on Windows. items = line.split(':', 1) try: addr = int(items[0], 16) except ValueError: addr = 0 result.append((line, addr)) return result logging.getLogger().setLevel(logging.DEBUG)