#!/usr/bin/env python # # Licensed to the Apache Software Foundation (ASF) under one # or more contributor license agreements. See the NOTICE file # distributed with this work for additional information # regarding copyright ownership. The ASF licenses this file # to you 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 be used to make the output from apache::thrift::profile_print_info() more human-readable. It translates each executable file name and address into the corresponding source file name, line number, and function name. By default, it also demangles C++ symbol names. """ import optparse import os import re import subprocess import sys class AddressInfo(object): """ A class to store information about a particular address in an object file. """ def __init__(self, obj_file, address): self.objectFile = obj_file self.address = address self.sourceFile = None self.sourceLine = None self.function = None g_addrs_by_filename = {} def get_address(filename, address): """ Retrieve an AddressInfo object for the specified object file and address. Keeps a global list of AddressInfo objects. Two calls to get_address() with the same filename and address will always return the same AddressInfo object. """ global g_addrs_by_filename try: by_address = g_addrs_by_filename[filename] except KeyError: by_address = {} g_addrs_by_filename[filename] = by_address try: addr_info = by_address[address] except KeyError: addr_info = AddressInfo(filename, address) by_address[address] = addr_info return addr_info def translate_file_addresses(filename, addresses, options): """ Use addr2line to look up information for the specified addresses. All of the addresses must belong to the same object file. """ # Do nothing if we can't find the file if not os.path.isfile(filename): return args = ['addr2line'] if options.printFunctions: args.append('-f') args.extend(['-e', filename]) proc = subprocess.Popen(args, stdin=subprocess.PIPE, stdout=subprocess.PIPE) for address in addresses: assert address.objectFile == filename proc.stdin.write(address.address + '\n') if options.printFunctions: function = proc.stdout.readline() function = function.strip() if not function: raise Exception('unexpected EOF from addr2line') address.function = function file_and_line = proc.stdout.readline() file_and_line = file_and_line.strip() if not file_and_line: raise Exception('unexpected EOF from addr2line') idx = file_and_line.rfind(':') if idx < 0: msg = 'expected file and line number from addr2line; got %r' % \ (file_and_line,) msg += '\nfile=%r, address=%r' % (filename, address.address) raise Exception(msg) address.sourceFile = file_and_line[:idx] address.sourceLine = file_and_line[idx + 1:] (remaining_out, cmd_err) = proc.communicate() retcode = proc.wait() if retcode != 0: raise subprocess.CalledProcessError(retcode, args) def lookup_addresses(options): """ Look up source file information for all of the addresses currently stored in the global list of AddressInfo objects. """ global g_addrs_by_filename for (file, addresses) in g_addrs_by_filename.items(): translate_file_addresses(file, addresses.values(), options) class Entry(object): """ An entry in the thrift profile output. Contains a header line, and a backtrace. """ def __init__(self, header): self.header = header self.bt = [] def addFrame(self, filename, address): # If libc was able to determine the symbols names, the filename # argument will be of the form (+) # So, strip off anything after the last '(' idx = filename.rfind('(') if idx >= 0: filename = filename[:idx] addr = get_address(filename, address) self.bt.append(addr) def write(self, f, options): f.write(self.header) f.write('\n') n = 0 for address in self.bt: f.write(' #%-2d %s:%s\n' % (n, address.sourceFile, address.sourceLine)) n += 1 if options.printFunctions: if address.function: f.write(' %s\n' % (address.function,)) else: f.write(' ??\n') def process_file(in_file, out_file, options): """ Read thrift profile output from the specified input file, and print prettier information on the output file. """ # # A naive approach would be to read the input line by line, # and each time we come to a filename and address, pass it to addr2line # and print the resulting information. Unfortunately, addr2line can be # quite slow, especially with large executables. # # This approach is much faster. We read in all of the input, storing # the addresses in each file that need to be resolved. We then call # addr2line just once for each file. This is much faster than calling # addr2line once per address. # virt_call_regex = re.compile(r'^\s*T_VIRTUAL_CALL: (\d+) calls on (.*):$') gen_prot_regex = re.compile( r'^\s*T_GENERIC_PROTOCOL: (\d+) calls to (.*) with a (.*):$') bt_regex = re.compile(r'^\s*#(\d+)\s*(.*) \[(0x[0-9A-Za-z]+)\]$') # Parse all of the input, and store it as Entry objects entries = [] current_entry = None while True: line = in_file.readline() if not line: break if line == '\n' or line.startswith('Thrift virtual call info:'): continue virt_call_match = virt_call_regex.match(line) if virt_call_match: num_calls = int(virt_call_match.group(1)) type_name = virt_call_match.group(2) if options.cxxfilt: # Type names reported by typeid() are internal names. # By default, c++filt doesn't demangle internal type names. # (Some versions of c++filt have a "-t" option to enable this. # Other versions don't have this argument, but demangle type # names passed as an argument, but not on stdin.) # # If the output is being filtered through c++filt, prepend # "_Z" to the type name to make it look like an external name. type_name = '_Z' + type_name header = 'T_VIRTUAL_CALL: %d calls on "%s"' % \ (num_calls, type_name) if current_entry is not None: entries.append(current_entry) current_entry = Entry(header) continue gen_prot_match = gen_prot_regex.match(line) if gen_prot_match: num_calls = int(gen_prot_match.group(1)) type_name1 = gen_prot_match.group(2) type_name2 = gen_prot_match.group(3) if options.cxxfilt: type_name1 = '_Z' + type_name1 type_name2 = '_Z' + type_name2 header = 'T_GENERIC_PROTOCOL: %d calls to "%s" with a "%s"' % \ (num_calls, type_name1, type_name2) if current_entry is not None: entries.append(current_entry) current_entry = Entry(header) continue bt_match = bt_regex.match(line) if bt_match: if current_entry is None: raise Exception('found backtrace frame before entry header') frame_num = int(bt_match.group(1)) filename = bt_match.group(2) address = bt_match.group(3) current_entry.addFrame(filename, address) continue raise Exception('unexpected line in input: %r' % (line,)) # Add the last entry we were processing to the list if current_entry is not None: entries.append(current_entry) current_entry = None # Look up all of the addresses lookup_addresses(options) # Print out the entries, now that the information has been translated for entry in entries: entry.write(out_file, options) out_file.write('\n') def start_cppfilt(): (read_pipe, write_pipe) = os.pipe() # Fork. Run c++filt in the parent process, # and then continue normal processing in the child. pid = os.fork() if pid == 0: # child os.dup2(write_pipe, sys.stdout.fileno()) os.close(read_pipe) os.close(write_pipe) return else: # parent os.dup2(read_pipe, sys.stdin.fileno()) os.close(read_pipe) os.close(write_pipe) cmd = ['c++filt'] os.execvp(cmd[0], cmd) def main(argv): parser = optparse.OptionParser(usage='%prog [options] []') parser.add_option('--no-functions', help='Don\'t print function names', dest='printFunctions', action='store_false', default=True) parser.add_option('--no-demangle', help='Don\'t demangle C++ symbol names', dest='cxxfilt', action='store_false', default=True) (options, args) = parser.parse_args(argv[1:]) num_args = len(args) if num_args == 0: in_file = sys.stdin elif num_args == 1: in_file = open(argv[1], 'r') else: parser.print_usage(sys.stderr) print >> sys.stderr, 'trailing arguments: %s' % (' '.join(args[1:],)) return 1 if options.cxxfilt: start_cppfilt() process_file(in_file, sys.stdout, options) if __name__ == '__main__': rc = main(sys.argv) sys.exit(rc)