chromium-src-build/mac/change_mach_o_flags.py

#!/usr/bin/python

# Copyright (c) 2011 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.

# Usage: change_mach_o_flags.py [--executable-heap] [--no-pie] <executable_path>
#
# Arranges for the executable at |executable_path| to have its data (heap)
# pages protected to prevent execution on Mac OS X 10.7 ("Lion"), and to have
# the PIE (position independent executable) bit set to enable ASLR (address
# space layout randomization). With --executable-heap or --no-pie, the
# respective bits are cleared instead of set, making the heap executable or
# disabling PIE/ASLR.
#
# This script is able to operate on thin (single-architecture) Mach-O files
# and fat (universal, multi-architecture) files. When operating on fat files,
# it will set or clear the bits for each architecture contained therein.
#
# NON-EXECUTABLE HEAP
#
# Traditionally in Mac OS X, 32-bit processes did not have data pages set to
# prohibit execution. Although user programs could call mprotect and
# mach_vm_protect to deny execution of code in data pages, the kernel would
# silently ignore such requests without updating the page tables, and the
# hardware would happily execute code on such pages. 64-bit processes were
# always given proper hardware protection of data pages. This behavior was
# controllable on a system-wide level via the vm.allow_data_exec sysctl, which
# is set by default to 1. The bit with value 1 (set by default) allows code
# execution on data pages for 32-bit processes, and the bit with value 2
# (clear by default) does the same for 64-bit processes.
#
# In Mac OS X 10.7, executables can "opt in" to having hardware protection
# against code execution on data pages applied. This is done by setting a new
# bit in the |flags| field of an executable's |mach_header|. When
# MH_NO_HEAP_EXECUTION is set, proper protections will be applied, regardless
# of the setting of vm.allow_data_exec. See xnu-1699.22.73/osfmk/vm/vm_map.c
# override_nx and xnu-1699.22.73/bsd/kern/mach_loader.c load_machfile.
#
# The Apple toolchain has been revised to set the MH_NO_HEAP_EXECUTION when
# producing executables, provided that -allow_heap_execute is not specified
# at link time. Only linkers shipping with Xcode 4.0 and later (ld64-123.2 and
# later) have this ability. See ld64-123.2.1/src/ld/Options.cpp
# Options::reconfigureDefaults() and
# ld64-123.2.1/src/ld/HeaderAndLoadCommands.hpp
# HeaderAndLoadCommandsAtom<A>::flags().
#
# This script sets the MH_NO_HEAP_EXECUTION bit on Mach-O executables. It is
# intended for use with executables produced by a linker that predates Apple's
# modifications to set this bit itself. It is also useful for setting this bit
# for non-i386 executables, including x86_64 executables. Apple's linker only
# sets it for 32-bit i386 executables, presumably under the assumption that
# the value of vm.allow_data_exec is set in stone. However, if someone were to
# change vm.allow_data_exec to 2 or 3, 64-bit x86_64 executables would run
# without hardware protection against code execution on data pages. This
# script can set the bit for x86_64 executables, guaranteeing that they run
# with appropriate protection even when vm.allow_data_exec has been tampered
# with.
#
# POSITION-INDEPENDENT EXECUTABLES/ADDRESS SPACE LAYOUT RANDOMIZATION
#
# This script sets or clears the MH_PIE bit in an executable's Mach-O header,
# enabling or disabling position independence on Mac OS X 10.5 and later.
# Processes running position-independent executables have varying levels of
# ASLR protection depending on the OS release. The main executable's load
# address, shared library load addresess, and the heap and stack base
# addresses may be randomized. Position-independent executables are produced
# by supplying the -pie flag to the linker (or defeated by supplying -no_pie).
# Executables linked with a deployment target of 10.7 or higher have PIE on
# by default.
#
# This script is never strictly needed during the build to enable PIE, as all
# linkers used are recent enough to support -pie. However, it's used to
# disable the PIE bit as needed on already-linked executables.


import optparse
import os
import struct
import sys


# <mach-o/fat.h>
FAT_MAGIC = 0xcafebabe
FAT_CIGAM = 0xbebafeca

# <mach-o/loader.h>
MH_MAGIC = 0xfeedface
MH_CIGAM = 0xcefaedfe
MH_MAGIC_64 = 0xfeedfacf
MH_CIGAM_64 = 0xcffaedfe
MH_EXECUTE = 0x2
MH_PIE = 0x00200000
MH_NO_HEAP_EXECUTION = 0x01000000


class MachOError(Exception):
  """A class for exceptions thrown by this module."""

  pass


def CheckedSeek(file, offset):
  """Seeks the file-like object at |file| to offset |offset| and raises a
  MachOError if anything funny happens."""

  file.seek(offset, os.SEEK_SET)
  new_offset = file.tell()
  if new_offset != offset:
    raise MachOError, \
          'seek: expected offset %d, observed %d' % (offset, new_offset)


def CheckedRead(file, count):
  """Reads |count| bytes from the file-like |file| object, raising a
  MachOError if any other number of bytes is read."""

  bytes = file.read(count)
  if len(bytes) != count:
    raise MachOError, \
          'read: expected length %d, observed %d' % (count, len(bytes))

  return bytes


def ReadUInt32(file, endian):
  """Reads an unsinged 32-bit integer from the file-like |file| object,
  treating it as having endianness specified by |endian| (per the |struct|
  module), and returns it as a number. Raises a MachOError if the proper
  length of data can't be read from |file|."""

  bytes = CheckedRead(file, 4)

  (uint32,) = struct.unpack(endian + 'I', bytes)
  return uint32


def ReadMachHeader(file, endian):
  """Reads an entire |mach_header| structure (<mach-o/loader.h>) from the
  file-like |file| object, treating it as having endianness specified by
  |endian| (per the |struct| module), and returns a 7-tuple of its members
  as numbers. Raises a MachOError if the proper length of data can't be read
  from |file|."""

  bytes = CheckedRead(file, 28)

  magic, cputype, cpusubtype, filetype, ncmds, sizeofcmds, flags = \
      struct.unpack(endian + '7I', bytes)
  return magic, cputype, cpusubtype, filetype, ncmds, sizeofcmds, flags


def ReadFatArch(file):
  """Reads an entire |fat_arch| structure (<mach-o/fat.h>) from the file-like
  |file| object, treating it as having endianness specified by |endian|
  (per the |struct| module), and returns a 5-tuple of its members as numbers.
  Raises a MachOError if the proper length of data can't be read from
  |file|."""

  bytes = CheckedRead(file, 20)

  cputype, cpusubtype, offset, size, align = struct.unpack('>5I', bytes)
  return cputype, cpusubtype, offset, size, align


def WriteUInt32(file, uint32, endian):
  """Writes |uint32| as an unsinged 32-bit integer to the file-like |file|
  object, treating it as having endianness specified by |endian| (per the
  |struct| module)."""

  bytes = struct.pack(endian + 'I', uint32)
  assert len(bytes) == 4

  file.write(bytes)


def HandleMachOFile(file, options, offset=0):
  """Seeks the file-like |file| object to |offset|, reads its |mach_header|,
  and rewrites the header's |flags| field if appropriate. The header's
  endianness is detected. Both 32-bit and 64-bit Mach-O headers are supported
  (mach_header and mach_header_64). Raises MachOError if used on a header that
  does not have a known magic number or is not of type MH_EXECUTE. The
  MH_PIE and MH_NO_HEAP_EXECUTION bits are set or cleared in the |flags| field
  according to |options| and written to |file| if any changes need to be made.
  If already set or clear as specified by |options|, nothing is written."""

  CheckedSeek(file, offset)
  magic = ReadUInt32(file, '<')
  if magic == MH_MAGIC or magic == MH_MAGIC_64:
    endian = '<'
  elif magic == MH_CIGAM or magic == MH_CIGAM_64:
    endian = '>'
  else:
    raise MachOError, \
          'Mach-O file at offset %d has illusion of magic' % offset

  CheckedSeek(file, offset)
  magic, cputype, cpusubtype, filetype, ncmds, sizeofcmds, flags = \
      ReadMachHeader(file, endian)
  assert magic == MH_MAGIC or magic == MH_MAGIC_64
  if filetype != MH_EXECUTE:
    raise MachOError, \
          'Mach-O file at offset %d is type 0x%x, expected MH_EXECUTE' % \
              (offset, filetype)

  original_flags = flags

  if options.no_heap_execution:
    flags |= MH_NO_HEAP_EXECUTION
  else:
    flags &= ~MH_NO_HEAP_EXECUTION

  if options.pie:
    flags |= MH_PIE
  else:
    flags &= ~MH_PIE

  if flags != original_flags:
    CheckedSeek(file, offset + 24)
    WriteUInt32(file, flags, endian)


def HandleFatFile(file, options, fat_offset=0):
  """Seeks the file-like |file| object to |offset| and loops over its
  |fat_header| entries, calling HandleMachOFile for each."""

  CheckedSeek(file, fat_offset)
  magic = ReadUInt32(file, '>')
  assert magic == FAT_MAGIC

  nfat_arch = ReadUInt32(file, '>')

  for index in xrange(0, nfat_arch):
    cputype, cpusubtype, offset, size, align = ReadFatArch(file)
    assert size >= 28

    # HandleMachOFile will seek around. Come back here after calling it, in
    # case it sought.
    fat_arch_offset = file.tell()
    HandleMachOFile(file, options, offset)
    CheckedSeek(file, fat_arch_offset)


def main(me, args):
  parser = optparse.OptionParser('%prog [options] <executable_path>')
  parser.add_option('--executable-heap', action='store_false',
                    dest='no_heap_execution', default=True,
                    help='Clear the MH_NO_HEAP_EXECUTION bit')
  parser.add_option('--no-pie', action='store_false',
                    dest='pie', default=True,
                    help='Clear the MH_PIE bit')
  (options, loose_args) = parser.parse_args(args)
  if len(loose_args) != 1:
    parser.print_usage()
    return 1

  executable_path = loose_args[0]
  executable_file = open(executable_path, 'rb+')

  magic = ReadUInt32(executable_file, '<')
  if magic == FAT_CIGAM:
    # Check FAT_CIGAM and not FAT_MAGIC because the read was little-endian.
    HandleFatFile(executable_file, options)
  elif magic == MH_MAGIC or magic == MH_CIGAM or \
      magic == MH_MAGIC_64 or magic == MH_CIGAM_64:
    HandleMachOFile(executable_file, options)
  else:
    raise MachOError, '%s is not a Mach-O or fat file' % executable_file

  executable_file.close()

  return 0

if __name__ == '__main__':
  sys.exit(main(sys.argv[0], sys.argv[1:]))