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#!/usr/bin/env python
#===- lib/asan/scripts/asan_symbolize.py -----------------------------------===#
#
#                     The LLVM Compiler Infrastructure
#
# This file is distributed under the University of Illinois Open Source
# License. See LICENSE.TXT for details.
#
#===------------------------------------------------------------------------===#
import argparse
import bisect
import getopt
import os
import re
import subprocess
import sys

symbolizers = {}
DEBUG = False
demangle = False
binutils_prefix = None
sysroot_path = None
binary_name_filter = None
fix_filename_patterns = None
logfile = sys.stdin
allow_system_symbolizer = True

# FIXME: merge the code that calls fix_filename().
def fix_filename(file_name):
  if fix_filename_patterns:
    for path_to_cut in fix_filename_patterns:
      file_name = re.sub('.*' + path_to_cut, '', file_name)
  file_name = re.sub('.*asan_[a-z_]*.cc:[0-9]*', '_asan_rtl_', file_name)
  file_name = re.sub('.*crtstuff.c:0', '???:0', file_name)
  return file_name

def sysroot_path_filter(binary_name):
  return sysroot_path + binary_name

def guess_arch(addr):
  # Guess which arch we're running. 10 = len('0x') + 8 hex digits.
  if len(addr) > 10:
    return 'x86_64'
  else:
    return 'i386'

class Symbolizer(object):
  def __init__(self):
    pass

  def symbolize(self, addr, binary, offset):
    """Symbolize the given address (pair of binary and offset).

    Overriden in subclasses.
    Args:
        addr: virtual address of an instruction.
        binary: path to executable/shared object containing this instruction.
        offset: instruction offset in the @binary.
    Returns:
        list of strings (one string for each inlined frame) describing
        the code locations for this instruction (that is, function name, file
        name, line and column numbers).
    """
    return None


class LLVMSymbolizer(Symbolizer):
  def __init__(self, symbolizer_path, default_arch, system, dsym_hints=[]):
    super(LLVMSymbolizer, self).__init__()
    self.symbolizer_path = symbolizer_path
    self.default_arch = default_arch
    self.system = system
    self.dsym_hints = dsym_hints
    self.pipe = self.open_llvm_symbolizer()

  def open_llvm_symbolizer(self):
    cmd = [self.symbolizer_path,
           '--use-symbol-table=true',
           '--demangle=%s' % demangle,
           '--functions=linkage',
           '--inlining=true',
           '--default-arch=%s' % self.default_arch]
    if self.system == 'Darwin':
      for hint in self.dsym_hints:
        cmd.append('--dsym-hint=%s' % hint)
    if DEBUG:
      print ' '.join(cmd)
    try:
      result = subprocess.Popen(cmd, stdin=subprocess.PIPE,
                                stdout=subprocess.PIPE)
    except OSError:
      result = None
    return result

  def symbolize(self, addr, binary, offset):
    """Overrides Symbolizer.symbolize."""
    if not self.pipe:
      return None
    result = []
    try:
      symbolizer_input = '"%s" %s' % (binary, offset)
      if DEBUG:
        print symbolizer_input
      print >> self.pipe.stdin, symbolizer_input
      while True:
        function_name = self.pipe.stdout.readline().rstrip()
        if not function_name:
          break
        file_name = self.pipe.stdout.readline().rstrip()
        file_name = fix_filename(file_name)
        if (not function_name.startswith('??') or
            not file_name.startswith('??')):
          # Append only non-trivial frames.
          result.append('%s in %s %s' % (addr, function_name,
                                         file_name))
    except Exception:
      result = []
    if not result:
      result = None
    return result


def LLVMSymbolizerFactory(system, default_arch, dsym_hints=[]):
  symbolizer_path = os.getenv('LLVM_SYMBOLIZER_PATH')
  if not symbolizer_path:
    symbolizer_path = os.getenv('ASAN_SYMBOLIZER_PATH')
    if not symbolizer_path:
      # Assume llvm-symbolizer is in PATH.
      symbolizer_path = 'llvm-symbolizer'
  return LLVMSymbolizer(symbolizer_path, default_arch, system, dsym_hints)


class Addr2LineSymbolizer(Symbolizer):
  def __init__(self, binary):
    super(Addr2LineSymbolizer, self).__init__()
    self.binary = binary
    self.pipe = self.open_addr2line()
    self.output_terminator = -1

  def open_addr2line(self):
    addr2line_tool = 'addr2line'
    if binutils_prefix:
      addr2line_tool = binutils_prefix + addr2line_tool
    cmd = [addr2line_tool, '-fi']
    if demangle:
      cmd += ['--demangle']
    cmd += ['-e', self.binary]
    if DEBUG:
      print ' '.join(cmd)
    return subprocess.Popen(cmd,
                            stdin=subprocess.PIPE, stdout=subprocess.PIPE)

  def symbolize(self, addr, binary, offset):
    """Overrides Symbolizer.symbolize."""
    if self.binary != binary:
      return None
    lines = []
    try:
      print >> self.pipe.stdin, offset
      print >> self.pipe.stdin, self.output_terminator
      is_first_frame = True
      while True:
        function_name = self.pipe.stdout.readline().rstrip()
        file_name = self.pipe.stdout.readline().rstrip()
        if is_first_frame:
          is_first_frame = False
        elif function_name in ['', '??']:
          assert file_name == function_name
          break
        lines.append((function_name, file_name));
    except Exception:
      lines.append(('??', '??:0'))
    return ['%s in %s %s' % (addr, function, fix_filename(file)) for (function, file) in lines]

class UnbufferedLineConverter(object):
  """
  Wrap a child process that responds to each line of input with one line of
  output.  Uses pty to trick the child into providing unbuffered output.
  """
  def __init__(self, args, close_stderr=False):
    # Local imports so that the script can start on Windows.
    import pty
    import termios
    pid, fd = pty.fork()
    if pid == 0:
      # We're the child. Transfer control to command.
      if close_stderr:
        dev_null = os.open('/dev/null', 0)
        os.dup2(dev_null, 2)
      os.execvp(args[0], args)
    else:
      # Disable echoing.
      attr = termios.tcgetattr(fd)
      attr[3] = attr[3] & ~termios.ECHO
      termios.tcsetattr(fd, termios.TCSANOW, attr)
      # Set up a file()-like interface to the child process
      self.r = os.fdopen(fd, "r", 1)
      self.w = os.fdopen(os.dup(fd), "w", 1)

  def convert(self, line):
    self.w.write(line + "\n")
    return self.readline()

  def readline(self):
    return self.r.readline().rstrip()


class DarwinSymbolizer(Symbolizer):
  def __init__(self, addr, binary):
    super(DarwinSymbolizer, self).__init__()
    self.binary = binary
    self.arch = guess_arch(addr)
    self.open_atos()

  def open_atos(self):
    if DEBUG:
      print 'atos -o %s -arch %s' % (self.binary, self.arch)
    cmdline = ['atos', '-o', self.binary, '-arch', self.arch]
    self.atos = UnbufferedLineConverter(cmdline, close_stderr=True)

  def symbolize(self, addr, binary, offset):
    """Overrides Symbolizer.symbolize."""
    if self.binary != binary:
      return None
    atos_line = self.atos.convert('0x%x' % int(offset, 16))
    while "got symbolicator for" in atos_line:
      atos_line = self.atos.readline()
    # A well-formed atos response looks like this:
    #   foo(type1, type2) (in object.name) (filename.cc:80)
    match = re.match('^(.*) \(in (.*)\) \((.*:\d*)\)$', atos_line)
    if DEBUG:
      print 'atos_line: ', atos_line
    if match:
      function_name = match.group(1)
      function_name = re.sub('\(.*?\)', '', function_name)
      file_name = fix_filename(match.group(3))
      return ['%s in %s %s' % (addr, function_name, file_name)]
    else:
      return ['%s in %s' % (addr, atos_line)]


# Chain several symbolizers so that if one symbolizer fails, we fall back
# to the next symbolizer in chain.
class ChainSymbolizer(Symbolizer):
  def __init__(self, symbolizer_list):
    super(ChainSymbolizer, self).__init__()
    self.symbolizer_list = symbolizer_list

  def symbolize(self, addr, binary, offset):
    """Overrides Symbolizer.symbolize."""
    for symbolizer in self.symbolizer_list:
      if symbolizer:
        result = symbolizer.symbolize(addr, binary, offset)
        if result:
          return result
    return None

  def append_symbolizer(self, symbolizer):
    self.symbolizer_list.append(symbolizer)


def BreakpadSymbolizerFactory(binary):
  suffix = os.getenv('BREAKPAD_SUFFIX')
  if suffix:
    filename = binary + suffix
    if os.access(filename, os.F_OK):
      return BreakpadSymbolizer(filename)
  return None


def SystemSymbolizerFactory(system, addr, binary):
  if system == 'Darwin':
    return DarwinSymbolizer(addr, binary)
  elif system == 'Linux':
    return Addr2LineSymbolizer(binary)


class BreakpadSymbolizer(Symbolizer):
  def __init__(self, filename):
    super(BreakpadSymbolizer, self).__init__()
    self.filename = filename
    lines = file(filename).readlines()
    self.files = []
    self.symbols = {}
    self.address_list = []
    self.addresses = {}
    # MODULE mac x86_64 A7001116478B33F18FF9BEDE9F615F190 t
    fragments = lines[0].rstrip().split()
    self.arch = fragments[2]
    self.debug_id = fragments[3]
    self.binary = ' '.join(fragments[4:])
    self.parse_lines(lines[1:])

  def parse_lines(self, lines):
    cur_function_addr = ''
    for line in lines:
      fragments = line.split()
      if fragments[0] == 'FILE':
        assert int(fragments[1]) == len(self.files)
        self.files.append(' '.join(fragments[2:]))
      elif fragments[0] == 'PUBLIC':
        self.symbols[int(fragments[1], 16)] = ' '.join(fragments[3:])
      elif fragments[0] in ['CFI', 'STACK']:
        pass
      elif fragments[0] == 'FUNC':
        cur_function_addr = int(fragments[1], 16)
        if not cur_function_addr in self.symbols.keys():
          self.symbols[cur_function_addr] = ' '.join(fragments[4:])
      else:
        # Line starting with an address.
        addr = int(fragments[0], 16)
        self.address_list.append(addr)
        # Tuple of symbol address, size, line, file number.
        self.addresses[addr] = (cur_function_addr,
                                int(fragments[1], 16),
                                int(fragments[2]),
                                int(fragments[3]))
    self.address_list.sort()

  def get_sym_file_line(self, addr):
    key = None
    if addr in self.addresses.keys():
      key = addr
    else:
      index = bisect.bisect_left(self.address_list, addr)
      if index == 0:
        return None
      else:
        key = self.address_list[index - 1]
    sym_id, size, line_no, file_no = self.addresses[key]
    symbol = self.symbols[sym_id]
    filename = self.files[file_no]
    if addr < key + size:
      return symbol, filename, line_no
    else:
      return None

  def symbolize(self, addr, binary, offset):
    if self.binary != binary:
      return None
    res = self.get_sym_file_line(int(offset, 16))
    if res:
      function_name, file_name, line_no = res
      result = ['%s in %s %s:%d' % (
          addr, function_name, file_name, line_no)]
      print result
      return result
    else:
      return None


class SymbolizationLoop(object):
  def __init__(self, binary_name_filter=None, dsym_hint_producer=None):
    if sys.platform == 'win32':
      # ASan on Windows uses dbghelp.dll to symbolize in-process, which works
      # even in sandboxed processes.  Nothing needs to be done here.
      self.process_line = self.process_line_echo
    else:
      # Used by clients who may want to supply a different binary name.
      # E.g. in Chrome several binaries may share a single .dSYM.
      self.binary_name_filter = binary_name_filter
      self.dsym_hint_producer = dsym_hint_producer
      self.system = os.uname()[0]
      if self.system not in ['Linux', 'Darwin', 'FreeBSD']:
        raise Exception('Unknown system')
      self.llvm_symbolizers = {}
      self.last_llvm_symbolizer = None
      self.dsym_hints = set([])
      self.frame_no = 0
      self.process_line = self.process_line_posix

  def symbolize_address(self, addr, binary, offset):
    # On non-Darwin (i.e. on platforms without .dSYM debug info) always use
    # a single symbolizer binary.
    # On Darwin, if the dsym hint producer is present:
    #  1. check whether we've seen this binary already; if so,
    #     use |llvm_symbolizers[binary]|, which has already loaded the debug
    #     info for this binary (might not be the case for
    #     |last_llvm_symbolizer|);
    #  2. otherwise check if we've seen all the hints for this binary already;
    #     if so, reuse |last_llvm_symbolizer| which has the full set of hints;
    #  3. otherwise create a new symbolizer and pass all currently known
    #     .dSYM hints to it.
    if not binary in self.llvm_symbolizers:
      use_new_symbolizer = True
      if self.system == 'Darwin' and self.dsym_hint_producer:
        dsym_hints_for_binary = set(self.dsym_hint_producer(binary))
        use_new_symbolizer = bool(dsym_hints_for_binary - self.dsym_hints)
        self.dsym_hints |= dsym_hints_for_binary
      if self.last_llvm_symbolizer and not use_new_symbolizer:
          self.llvm_symbolizers[binary] = self.last_llvm_symbolizer
      else:
        self.last_llvm_symbolizer = LLVMSymbolizerFactory(
            self.system, guess_arch(addr), self.dsym_hints)
        self.llvm_symbolizers[binary] = self.last_llvm_symbolizer
    # Use the chain of symbolizers:
    # Breakpad symbolizer -> LLVM symbolizer -> addr2line/atos
    # (fall back to next symbolizer if the previous one fails).
    if not binary in symbolizers:
      symbolizers[binary] = ChainSymbolizer(
          [BreakpadSymbolizerFactory(binary), self.llvm_symbolizers[binary]])
    result = symbolizers[binary].symbolize(addr, binary, offset)
    if result is None:
      if not allow_system_symbolizer:
        raise Exception('Failed to launch or use llvm-symbolizer.')
      # Initialize system symbolizer only if other symbolizers failed.
      symbolizers[binary].append_symbolizer(
          SystemSymbolizerFactory(self.system, addr, binary))
      result = symbolizers[binary].symbolize(addr, binary, offset)
    # The system symbolizer must produce some result.
    assert result
    return result

  def get_symbolized_lines(self, symbolized_lines):
    if not symbolized_lines:
      return [self.current_line]
    else:
      result = []
      for symbolized_frame in symbolized_lines:
        result.append('    #%s %s' % (str(self.frame_no), symbolized_frame.rstrip()))
        self.frame_no += 1
      return result

  def process_logfile(self):
    self.frame_no = 0
    for line in logfile:
      processed = self.process_line(line)
      print '\n'.join(processed)

  def process_line_echo(self, line):
    return [line.rstrip()]

  def process_line_posix(self, line):
    self.current_line = line.rstrip()
    #0 0x7f6e35cf2e45  (/blah/foo.so+0x11fe45)
    stack_trace_line_format = (
        '^( *#([0-9]+) *)(0x[0-9a-f]+) *\((.*)\+(0x[0-9a-f]+)\)')
    match = re.match(stack_trace_line_format, line)
    if not match:
      return [self.current_line]
    if DEBUG:
      print line
    _, frameno_str, addr, binary, offset = match.groups()
    if frameno_str == '0':
      # Assume that frame #0 is the first frame of new stack trace.
      self.frame_no = 0
    original_binary = binary
    if self.binary_name_filter:
      binary = self.binary_name_filter(binary)
    symbolized_line = self.symbolize_address(addr, binary, offset)
    if not symbolized_line:
      if original_binary != binary:
        symbolized_line = self.symbolize_address(addr, binary, offset)
    return self.get_symbolized_lines(symbolized_line)


if __name__ == '__main__':
  parser = argparse.ArgumentParser(
      formatter_class=argparse.RawDescriptionHelpFormatter,
      description='ASan symbolization script',
      epilog='Example of use:\n'
             'asan_symbolize.py -c "$HOME/opt/cross/bin/arm-linux-gnueabi-" '
             '-s "$HOME/SymbolFiles" < asan.log')
  parser.add_argument('path_to_cut', nargs='*',
                      help='pattern to be cut from the result file path ')
  parser.add_argument('-d','--demangle', action='store_true',
                      help='demangle function names')
  parser.add_argument('-s', metavar='SYSROOT',
                      help='set path to sysroot for sanitized binaries')
  parser.add_argument('-c', metavar='CROSS_COMPILE',
                      help='set prefix for binutils')
  parser.add_argument('-l','--logfile', default=sys.stdin,
                      type=argparse.FileType('r'),
                      help='set log file name to parse, default is stdin')
  args = parser.parse_args()
  if args.path_to_cut:
    fix_filename_patterns = args.path_to_cut
  if args.demangle:
    demangle = True
  if args.s:
    binary_name_filter = sysroot_path_filter
    sysroot_path = args.s
  if args.c:
    binutils_prefix = args.c
  if args.logfile:
    logfile = args.logfile
  else:
    logfile = sys.stdin
  loop = SymbolizationLoop(binary_name_filter)
  loop.process_logfile()