src/third_party/mozjs-45/config/expandlibs_exec.py - cobalt - Git at Google

 # This Source Code Form is subject to the terms of the Mozilla Public
 # License, v. 2.0. If a copy of the MPL was not distributed with this
 # file, You can obtain one at http://mozilla.org/MPL/2.0/.

 '''expandlibs-exec.py applies expandlibs rules, and some more (see below) to
 a given command line, and executes that command line with the expanded
 arguments.

 With the --extract argument (useful for e.g. $(AR)), it extracts object files
 from static libraries (or use those listed in library descriptors directly).

 With the --uselist argument (useful for e.g. $(CC)), it replaces all object
 files with a list file. This can be used to avoid limitations in the length
 of a command line. The kind of list file format used depends on the
 EXPAND_LIBS_LIST_STYLE variable: 'list' for MSVC style lists (@file.list)
 or 'linkerscript' for GNU ld linker scripts.
 See https://bugzilla.mozilla.org/show_bug.cgi?id=584474#c59 for more details.

 With the --symbol-order argument, followed by a file name, it will add the
 relevant linker options to change the order in which the linker puts the
 symbols appear in the resulting binary. Only works for ELF targets.
 '''
 from __future__ import with_statement
 import sys
 import os
 from expandlibs import (
     ExpandArgs,
     relativize,
     isDynamicLib,
     isObject,
 )
 import expandlibs_config as conf
 from optparse import OptionParser
 import subprocess
 import tempfile
 import shutil
 import subprocess
 import re
 from mozbuild.makeutil import Makefile

 # The are the insert points for a GNU ld linker script, assuming a more
 # or less "standard" default linker script. This is not a dict because
 # order is important.
 SECTION_INSERT_BEFORE = [
   ('.text', '.fini'),
   ('.rodata', '.rodata1'),
   ('.data.rel.ro', '.dynamic'),
   ('.data', '.data1'),
 ]

 class ExpandArgsMore(ExpandArgs):
     ''' Meant to be used as 'with ExpandArgsMore(args) as ...: '''
     def __enter__(self):
         self.tmp = []
         return self

     def __exit__(self, type, value, tb):
         '''Automatically remove temporary files'''
         for tmp in self.tmp:
             if os.path.isdir(tmp):
                 shutil.rmtree(tmp, True)
             else:
                 os.remove(tmp)

     def extract(self):
         self[0:] = self._extract(self)

     def _extract(self, args):
         '''When a static library name is found, either extract its contents
         in a temporary directory or use the information found in the
         corresponding lib descriptor.
         '''
         ar_extract = conf.AR_EXTRACT.split()
         newlist = []

         def lookup(base, f):
             for root, dirs, files in os.walk(base):
                 if f in files:
                     return os.path.join(root, f)

         for arg in args:
             if os.path.splitext(arg)[1] == conf.LIB_SUFFIX:
                 if os.path.exists(arg + conf.LIBS_DESC_SUFFIX):
                     newlist += self._extract(self._expand_desc(arg))
                     continue
                 elif os.path.exists(arg) and (len(ar_extract) or conf.AR == 'lib'):
                     tmp = tempfile.mkdtemp(dir=os.curdir)
                     self.tmp.append(tmp)
                     if conf.AR == 'lib':
                         out = subprocess.check_output([conf.AR, '-NOLOGO', '-LIST', arg])
                         files = out.splitlines()
                         # If lib -list returns a list full of dlls, it's an
                         # import lib.
                         if all(isDynamicLib(f) for f in files):
                             newlist += [arg]
                             continue
                         for f in files:
                             subprocess.call([conf.AR, '-NOLOGO', '-EXTRACT:%s' % f, os.path.abspath(arg)], cwd=tmp)
                     else:
                         subprocess.call(ar_extract + [os.path.abspath(arg)], cwd=tmp)
                     objs = []
                     basedir = os.path.dirname(arg)
                     for root, dirs, files in os.walk(tmp):
                         for f in files:
                             if isObject(f):
                                 # If the file extracted from the library also
                                 # exists in the directory containing the
                                 # library, or one of its subdirectories, use
                                 # that instead.
                                 maybe_obj = lookup(os.path.join(basedir, os.path.relpath(root, tmp)), f)
                                 if maybe_obj:
                                     objs.append(relativize(maybe_obj))
                                 else:
                                     objs.append(relativize(os.path.join(root, f)))
                     newlist += sorted(objs)
                     continue
             newlist += [arg]
         return newlist

     def makelist(self):
         '''Replaces object file names with a temporary list file, using a
         list format depending on the EXPAND_LIBS_LIST_STYLE variable
         '''
         objs = [o for o in self if isObject(o)]
         if not len(objs): return
         fd, tmp = tempfile.mkstemp(suffix=".list",dir=os.curdir)
         if conf.EXPAND_LIBS_LIST_STYLE == "linkerscript":
             content = ['INPUT("%s")\n' % obj for obj in objs]
             ref = tmp
         elif conf.EXPAND_LIBS_LIST_STYLE == "filelist":
             content = ["%s\n" % obj for obj in objs]
             ref = "-Wl,-filelist," + tmp
         elif conf.EXPAND_LIBS_LIST_STYLE == "list":
             content = ["%s\n" % obj for obj in objs]
             ref = "@" + tmp
         else:
             os.close(fd)
             os.remove(tmp)
             return
         self.tmp.append(tmp)
         f = os.fdopen(fd, "w")
         f.writelines(content)
         f.close()
         idx = self.index(objs[0])
         newlist = self[0:idx] + [ref] + [item for item in self[idx:] if item not in objs]
         self[0:] = newlist

     def _getFoldedSections(self):
         '''Returns a dict about folded sections.
         When section A and B are folded into section C, the dict contains:
         { 'A': 'C',
           'B': 'C',
           'C': ['A', 'B'] }'''
         if not conf.LD_PRINT_ICF_SECTIONS:
             return {}

         proc = subprocess.Popen(self + [conf.LD_PRINT_ICF_SECTIONS], stdout = subprocess.PIPE, stderr = subprocess.PIPE)
         (stdout, stderr) = proc.communicate()
         result = {}
         # gold's --print-icf-sections output looks like the following:
         # ld: ICF folding section '.section' in file 'file.o'into '.section' in file 'file.o'
         # In terms of words, chances are this will change in the future,
         # especially considering "into" is misplaced. Splitting on quotes
         # seems safer.
         for l in stderr.split('\n'):
             quoted = l.split("'")
             if len(quoted) > 5 and quoted[1] != quoted[5]:
                 result[quoted[1]] = [quoted[5]]
                 if quoted[5] in result:
                     result[quoted[5]].append(quoted[1])
                 else:
                     result[quoted[5]] = [quoted[1]]
         return result

     def _getOrderedSections(self, ordered_symbols):
         '''Given an ordered list of symbols, returns the corresponding list
         of sections following the order.'''
         if not conf.EXPAND_LIBS_ORDER_STYLE in ['linkerscript', 'section-ordering-file']:
             raise Exception('EXPAND_LIBS_ORDER_STYLE "%s" is not supported' % conf.EXPAND_LIBS_ORDER_STYLE)
         finder = SectionFinder([arg for arg in self if isObject(arg) or os.path.splitext(arg)[1] == conf.LIB_SUFFIX])
         folded = self._getFoldedSections()
         sections = set()
         ordered_sections = []
         for symbol in ordered_symbols:
             symbol_sections = finder.getSections(symbol)
             all_symbol_sections = []
             for section in symbol_sections:
                 if section in folded:
                     if isinstance(folded[section], str):
                         section = folded[section]
                     all_symbol_sections.append(section)
                     all_symbol_sections.extend(folded[section])
                 else:
                     all_symbol_sections.append(section)
             for section in all_symbol_sections:
                 if not section in sections:
                     ordered_sections.append(section)
                     sections.add(section)
         return ordered_sections

     def orderSymbols(self, order):
         '''Given a file containing a list of symbols, adds the appropriate
         argument to make the linker put the symbols in that order.'''
         with open(order) as file:
             sections = self._getOrderedSections([l.strip() for l in file.readlines() if l.strip()])
         split_sections = {}
         linked_sections = [s[0] for s in SECTION_INSERT_BEFORE]
         for s in sections:
             for linked_section in linked_sections:
                 if s.startswith(linked_section):
                     if linked_section in split_sections:
                         split_sections[linked_section].append(s)
                     else:
                         split_sections[linked_section] = [s]
                     break
         content = []
         # Order is important
         linked_sections = [s for s in linked_sections if s in split_sections]

         if conf.EXPAND_LIBS_ORDER_STYLE == 'section-ordering-file':
             option = '-Wl,--section-ordering-file,%s'
             content = sections
             for linked_section in linked_sections:
                 content.extend(split_sections[linked_section])
                 content.append('%s.*' % linked_section)
                 content.append(linked_section)

         elif conf.EXPAND_LIBS_ORDER_STYLE == 'linkerscript':
             option = '-Wl,-T,%s'
             section_insert_before = dict(SECTION_INSERT_BEFORE)
             for linked_section in linked_sections:
                 content.append('SECTIONS {')
                 content.append('  %s : {' % linked_section)
                 content.extend('    *(%s)' % s for s in split_sections[linked_section])
                 content.append('  }')
                 content.append('}')
                 content.append('INSERT BEFORE %s' % section_insert_before[linked_section])
         else:
             raise Exception('EXPAND_LIBS_ORDER_STYLE "%s" is not supported' % conf.EXPAND_LIBS_ORDER_STYLE)

         fd, tmp = tempfile.mkstemp(dir=os.curdir)
         f = os.fdopen(fd, "w")
         f.write('\n'.join(content)+'\n')
         f.close()
         self.tmp.append(tmp)
         self.append(option % tmp)

 class SectionFinder(object):
     '''Instances of this class allow to map symbol names to sections in
     object files.'''

     def __init__(self, objs):
         '''Creates an instance, given a list of object files.'''
         if not conf.EXPAND_LIBS_ORDER_STYLE in ['linkerscript', 'section-ordering-file']:
             raise Exception('EXPAND_LIBS_ORDER_STYLE "%s" is not supported' % conf.EXPAND_LIBS_ORDER_STYLE)
         self.mapping = {}
         for obj in objs:
             if not isObject(obj) and os.path.splitext(obj)[1] != conf.LIB_SUFFIX:
                 raise Exception('%s is not an object nor a static library' % obj)
             for symbol, section in SectionFinder._getSymbols(obj):
                 sym = SectionFinder._normalize(symbol)
                 if sym in self.mapping:
                     if not section in self.mapping[sym]:
                         self.mapping[sym].append(section)
                 else:
                     self.mapping[sym] = [section]

     def getSections(self, symbol):
         '''Given a symbol, returns a list of sections containing it or the
         corresponding thunks. When the given symbol is a thunk, returns the
         list of sections containing its corresponding normal symbol and the
         other thunks for that symbol.'''
         sym = SectionFinder._normalize(symbol)
         if sym in self.mapping:
             return self.mapping[sym]
         return []

     @staticmethod
     def _normalize(symbol):
         '''For normal symbols, return the given symbol. For thunks, return
         the corresponding normal symbol.'''
         if re.match('^_ZThn[0-9]+_', symbol):
             return re.sub('^_ZThn[0-9]+_', '_Z', symbol)
         return symbol

     @staticmethod
     def _getSymbols(obj):
         '''Returns a list of (symbol, section) contained in the given object
         file.'''
         proc = subprocess.Popen(['objdump', '-t', obj], stdout = subprocess.PIPE, stderr = subprocess.PIPE)
         (stdout, stderr) = proc.communicate()
         syms = []
         for line in stdout.splitlines():
             # Each line has the following format:
             # <addr> [lgu!][w ][C ][W ][Ii ][dD ][FfO ] <section>\t<length> <symbol>
             tmp = line.split(' ',1)
             # This gives us ["<addr>", "[lgu!][w ][C ][W ][Ii ][dD ][FfO ] <section>\t<length> <symbol>"]
             # We only need to consider cases where "<section>\t<length> <symbol>" is present,
             # and where the [FfO] flag is either F (function) or O (object).
             if len(tmp) > 1 and len(tmp[1]) > 6 and tmp[1][6] in ['O', 'F']:
                 tmp = tmp[1][8:].split()
                 # That gives us ["<section>","<length>", "<symbol>"]
                 syms.append((tmp[-1], tmp[0]))
         return syms

 def print_command(out, args):
     print >>out, "Executing: " + " ".join(args)
     for tmp in [f for f in args.tmp if os.path.isfile(f)]:
         print >>out, tmp + ":"
         with open(tmp) as file:
             print >>out, "".join(["    " + l for l in file.readlines()])
     out.flush()

 def main(args, proc_callback=None):
     parser = OptionParser()
     parser.add_option("--extract", action="store_true", dest="extract",
         help="when a library has no descriptor file, extract it first, when possible")
     parser.add_option("--uselist", action="store_true", dest="uselist",
         help="use a list file for objects when executing a command")
     parser.add_option("--verbose", action="store_true", dest="verbose",
         help="display executed command and temporary files content")
     parser.add_option("--symbol-order", dest="symbol_order", metavar="FILE",
         help="use the given list of symbols to order symbols in the resulting binary when using with a linker")

     (options, args) = parser.parse_args(args)

     with ExpandArgsMore(args) as args:
         if options.extract:
             args.extract()
         if options.symbol_order:
             args.orderSymbols(options.symbol_order)
         if options.uselist:
             args.makelist()

         if options.verbose:
             print_command(sys.stderr, args)
         try:
             proc = subprocess.Popen(args, stdout = subprocess.PIPE, stderr = subprocess.STDOUT)
             if proc_callback:
                 proc_callback(proc)
         except Exception, e:
             print >>sys.stderr, 'error: Launching', args, ':', e
             raise e
         (stdout, stderr) = proc.communicate()
         if proc.returncode and not options.verbose:
             print_command(sys.stderr, args)
         sys.stderr.write(stdout)
         sys.stderr.flush()
         if proc.returncode:
             return proc.returncode
         return 0

 if __name__ == '__main__':
     exit(main(sys.argv[1:]))
	# This Source Code Form is subject to the terms of the Mozilla Public
	# License, v. 2.0. If a copy of the MPL was not distributed with this
	# file, You can obtain one at http://mozilla.org/MPL/2.0/.

	'''expandlibs-exec.py applies expandlibs rules, and some more (see below) to
	a given command line, and executes that command line with the expanded
	arguments.

	With the --extract argument (useful for e.g. $(AR)), it extracts object files
	from static libraries (or use those listed in library descriptors directly).

	With the --uselist argument (useful for e.g. $(CC)), it replaces all object
	files with a list file. This can be used to avoid limitations in the length
	of a command line. The kind of list file format used depends on the
	EXPAND_LIBS_LIST_STYLE variable: 'list' for MSVC style lists (@file.list)
	or 'linkerscript' for GNU ld linker scripts.
	See https://bugzilla.mozilla.org/show_bug.cgi?id=584474#c59 for more details.

	With the --symbol-order argument, followed by a file name, it will add the
	relevant linker options to change the order in which the linker puts the
	symbols appear in the resulting binary. Only works for ELF targets.
	'''
	from __future__ import with_statement
	import sys
	import os
	from expandlibs import (
	ExpandArgs,
	relativize,
	isDynamicLib,
	isObject,
	)
	import expandlibs_config as conf
	from optparse import OptionParser
	import subprocess
	import tempfile
	import shutil
	import subprocess
	import re
	from mozbuild.makeutil import Makefile

	# The are the insert points for a GNU ld linker script, assuming a more
	# or less "standard" default linker script. This is not a dict because
	# order is important.
	SECTION_INSERT_BEFORE = [
	('.text', '.fini'),
	('.rodata', '.rodata1'),
	('.data.rel.ro', '.dynamic'),
	('.data', '.data1'),
	]

	class ExpandArgsMore(ExpandArgs):
	''' Meant to be used as 'with ExpandArgsMore(args) as ...: '''
	def __enter__(self):
	self.tmp = []
	return self

	def __exit__(self, type, value, tb):
	'''Automatically remove temporary files'''
	for tmp in self.tmp:
	if os.path.isdir(tmp):
	shutil.rmtree(tmp, True)
	else:
	os.remove(tmp)

	def extract(self):
	self[0:] = self._extract(self)

	def _extract(self, args):
	'''When a static library name is found, either extract its contents
	in a temporary directory or use the information found in the
	corresponding lib descriptor.
	'''
	ar_extract = conf.AR_EXTRACT.split()
	newlist = []

	def lookup(base, f):
	for root, dirs, files in os.walk(base):
	if f in files:
	return os.path.join(root, f)

	for arg in args:
	if os.path.splitext(arg)[1] == conf.LIB_SUFFIX:
	if os.path.exists(arg + conf.LIBS_DESC_SUFFIX):
	newlist += self._extract(self._expand_desc(arg))
	continue
	elif os.path.exists(arg) and (len(ar_extract) or conf.AR == 'lib'):
	tmp = tempfile.mkdtemp(dir=os.curdir)
	self.tmp.append(tmp)
	if conf.AR == 'lib':
	out = subprocess.check_output([conf.AR, '-NOLOGO', '-LIST', arg])
	files = out.splitlines()
	# If lib -list returns a list full of dlls, it's an
	# import lib.
	if all(isDynamicLib(f) for f in files):
	newlist += [arg]
	continue
	for f in files:
	subprocess.call([conf.AR, '-NOLOGO', '-EXTRACT:%s' % f, os.path.abspath(arg)], cwd=tmp)
	else:
	subprocess.call(ar_extract + [os.path.abspath(arg)], cwd=tmp)
	objs = []
	basedir = os.path.dirname(arg)
	for root, dirs, files in os.walk(tmp):
	for f in files:
	if isObject(f):
	# If the file extracted from the library also
	# exists in the directory containing the
	# library, or one of its subdirectories, use
	# that instead.
	maybe_obj = lookup(os.path.join(basedir, os.path.relpath(root, tmp)), f)
	if maybe_obj:
	objs.append(relativize(maybe_obj))
	else:
	objs.append(relativize(os.path.join(root, f)))
	newlist += sorted(objs)
	continue
	newlist += [arg]
	return newlist

	def makelist(self):
	'''Replaces object file names with a temporary list file, using a
	list format depending on the EXPAND_LIBS_LIST_STYLE variable
	'''
	objs = [o for o in self if isObject(o)]
	if not len(objs): return
	fd, tmp = tempfile.mkstemp(suffix=".list",dir=os.curdir)
	if conf.EXPAND_LIBS_LIST_STYLE == "linkerscript":
	content = ['INPUT("%s")\n' % obj for obj in objs]
	ref = tmp
	elif conf.EXPAND_LIBS_LIST_STYLE == "filelist":
	content = ["%s\n" % obj for obj in objs]
	ref = "-Wl,-filelist," + tmp
	elif conf.EXPAND_LIBS_LIST_STYLE == "list":
	content = ["%s\n" % obj for obj in objs]
	ref = "@" + tmp
	else:
	os.close(fd)
	os.remove(tmp)
	return
	self.tmp.append(tmp)
	f = os.fdopen(fd, "w")
	f.writelines(content)
	f.close()
	idx = self.index(objs[0])
	newlist = self[0:idx] + [ref] + [item for item in self[idx:] if item not in objs]
	self[0:] = newlist

	def _getFoldedSections(self):
	'''Returns a dict about folded sections.
	When section A and B are folded into section C, the dict contains:
	{ 'A': 'C',
	'B': 'C',
	'C': ['A', 'B'] }'''
	if not conf.LD_PRINT_ICF_SECTIONS:
	return {}

	proc = subprocess.Popen(self + [conf.LD_PRINT_ICF_SECTIONS], stdout = subprocess.PIPE, stderr = subprocess.PIPE)
	(stdout, stderr) = proc.communicate()
	result = {}
	# gold's --print-icf-sections output looks like the following:
	# ld: ICF folding section '.section' in file 'file.o'into '.section' in file 'file.o'
	# In terms of words, chances are this will change in the future,
	# especially considering "into" is misplaced. Splitting on quotes
	# seems safer.
	for l in stderr.split('\n'):
	quoted = l.split("'")
	if len(quoted) > 5 and quoted[1] != quoted[5]:
	result[quoted[1]] = [quoted[5]]
	if quoted[5] in result:
	result[quoted[5]].append(quoted[1])
	else:
	result[quoted[5]] = [quoted[1]]
	return result

	def _getOrderedSections(self, ordered_symbols):
	'''Given an ordered list of symbols, returns the corresponding list
	of sections following the order.'''
	if not conf.EXPAND_LIBS_ORDER_STYLE in ['linkerscript', 'section-ordering-file']:
	raise Exception('EXPAND_LIBS_ORDER_STYLE "%s" is not supported' % conf.EXPAND_LIBS_ORDER_STYLE)
	finder = SectionFinder([arg for arg in self if isObject(arg) or os.path.splitext(arg)[1] == conf.LIB_SUFFIX])
	folded = self._getFoldedSections()
	sections = set()
	ordered_sections = []
	for symbol in ordered_symbols:
	symbol_sections = finder.getSections(symbol)
	all_symbol_sections = []
	for section in symbol_sections:
	if section in folded:
	if isinstance(folded[section], str):
	section = folded[section]
	all_symbol_sections.append(section)
	all_symbol_sections.extend(folded[section])
	else:
	all_symbol_sections.append(section)
	for section in all_symbol_sections:
	if not section in sections:
	ordered_sections.append(section)
	sections.add(section)
	return ordered_sections

	def orderSymbols(self, order):
	'''Given a file containing a list of symbols, adds the appropriate
	argument to make the linker put the symbols in that order.'''
	with open(order) as file:
	sections = self._getOrderedSections([l.strip() for l in file.readlines() if l.strip()])
	split_sections = {}
	linked_sections = [s[0] for s in SECTION_INSERT_BEFORE]
	for s in sections:
	for linked_section in linked_sections:
	if s.startswith(linked_section):
	if linked_section in split_sections:
	split_sections[linked_section].append(s)
	else:
	split_sections[linked_section] = [s]
	break
	content = []
	# Order is important
	linked_sections = [s for s in linked_sections if s in split_sections]

	if conf.EXPAND_LIBS_ORDER_STYLE == 'section-ordering-file':
	option = '-Wl,--section-ordering-file,%s'
	content = sections
	for linked_section in linked_sections:
	content.extend(split_sections[linked_section])
	content.append('%s.*' % linked_section)
	content.append(linked_section)

	elif conf.EXPAND_LIBS_ORDER_STYLE == 'linkerscript':
	option = '-Wl,-T,%s'
	section_insert_before = dict(SECTION_INSERT_BEFORE)
	for linked_section in linked_sections:
	content.append('SECTIONS {')
	content.append(' %s : {' % linked_section)
	content.extend(' *(%s)' % s for s in split_sections[linked_section])
	content.append(' }')
	content.append('}')
	content.append('INSERT BEFORE %s' % section_insert_before[linked_section])
	else:
	raise Exception('EXPAND_LIBS_ORDER_STYLE "%s" is not supported' % conf.EXPAND_LIBS_ORDER_STYLE)

	fd, tmp = tempfile.mkstemp(dir=os.curdir)
	f = os.fdopen(fd, "w")
	f.write('\n'.join(content)+'\n')
	f.close()
	self.tmp.append(tmp)
	self.append(option % tmp)

	class SectionFinder(object):
	'''Instances of this class allow to map symbol names to sections in
	object files.'''

	def __init__(self, objs):
	'''Creates an instance, given a list of object files.'''
	if not conf.EXPAND_LIBS_ORDER_STYLE in ['linkerscript', 'section-ordering-file']:
	raise Exception('EXPAND_LIBS_ORDER_STYLE "%s" is not supported' % conf.EXPAND_LIBS_ORDER_STYLE)
	self.mapping = {}
	for obj in objs:
	if not isObject(obj) and os.path.splitext(obj)[1] != conf.LIB_SUFFIX:
	raise Exception('%s is not an object nor a static library' % obj)
	for symbol, section in SectionFinder._getSymbols(obj):
	sym = SectionFinder._normalize(symbol)
	if sym in self.mapping:
	if not section in self.mapping[sym]:
	self.mapping[sym].append(section)
	else:
	self.mapping[sym] = [section]

	def getSections(self, symbol):
	'''Given a symbol, returns a list of sections containing it or the
	corresponding thunks. When the given symbol is a thunk, returns the
	list of sections containing its corresponding normal symbol and the
	other thunks for that symbol.'''
	sym = SectionFinder._normalize(symbol)
	if sym in self.mapping:
	return self.mapping[sym]
	return []

	@staticmethod
	def _normalize(symbol):
	'''For normal symbols, return the given symbol. For thunks, return
	the corresponding normal symbol.'''
	if re.match('^_ZThn[0-9]+_', symbol):
	return re.sub('^_ZThn[0-9]+_', '_Z', symbol)
	return symbol

	@staticmethod
	def _getSymbols(obj):
	'''Returns a list of (symbol, section) contained in the given object
	file.'''
	proc = subprocess.Popen(['objdump', '-t', obj], stdout = subprocess.PIPE, stderr = subprocess.PIPE)
	(stdout, stderr) = proc.communicate()
	syms = []
	for line in stdout.splitlines():
	# Each line has the following format:
	# <addr> [lgu!][w ][C ][W ][Ii ][dD ][FfO ] <section>\t<length> <symbol>
	tmp = line.split(' ',1)
	# This gives us ["<addr>", "[lgu!][w ][C ][W ][Ii ][dD ][FfO ] <section>\t<length> <symbol>"]
	# We only need to consider cases where "<section>\t<length> <symbol>" is present,
	# and where the [FfO] flag is either F (function) or O (object).
	if len(tmp) > 1 and len(tmp[1]) > 6 and tmp[1][6] in ['O', 'F']:
	tmp = tmp[1][8:].split()
	# That gives us ["<section>","<length>", "<symbol>"]
	syms.append((tmp[-1], tmp[0]))
	return syms

	def print_command(out, args):
	print >>out, "Executing: " + " ".join(args)
	for tmp in [f for f in args.tmp if os.path.isfile(f)]:
	print >>out, tmp + ":"
	with open(tmp) as file:
	print >>out, "".join([" " + l for l in file.readlines()])
	out.flush()

	def main(args, proc_callback=None):
	parser = OptionParser()
	parser.add_option("--extract", action="store_true", dest="extract",
	help="when a library has no descriptor file, extract it first, when possible")
	parser.add_option("--uselist", action="store_true", dest="uselist",
	help="use a list file for objects when executing a command")
	parser.add_option("--verbose", action="store_true", dest="verbose",
	help="display executed command and temporary files content")
	parser.add_option("--symbol-order", dest="symbol_order", metavar="FILE",
	help="use the given list of symbols to order symbols in the resulting binary when using with a linker")

	(options, args) = parser.parse_args(args)

	with ExpandArgsMore(args) as args:
	if options.extract:
	args.extract()
	if options.symbol_order:
	args.orderSymbols(options.symbol_order)
	if options.uselist:
	args.makelist()

	if options.verbose:
	print_command(sys.stderr, args)
	try:
	proc = subprocess.Popen(args, stdout = subprocess.PIPE, stderr = subprocess.STDOUT)
	if proc_callback:
	proc_callback(proc)
	except Exception, e:
	print >>sys.stderr, 'error: Launching', args, ':', e
	raise e
	(stdout, stderr) = proc.communicate()
	if proc.returncode and not options.verbose:
	print_command(sys.stderr, args)
	sys.stderr.write(stdout)
	sys.stderr.flush()
	if proc.returncode:
	return proc.returncode
	return 0

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