toolchain/mklibs/mklibs.py - buildroot - Git at Google

 #! /usr/bin/python

 # mklibs.py: An automated way to create a minimal /lib/ directory.
 #
 # Copyright 2001 by Falk Hueffner <falk@debian.org>
 #                 & Goswin Brederlow <goswin.brederlow@student.uni-tuebingen.de>
 #
 # mklibs.sh by Marcus Brinkmann <Marcus.Brinkmann@ruhr-uni-bochum.de>
 # used as template
 #
 #   This program is free software; you can redistribute it and/or modify
 #   it under the terms of the GNU General Public License as published by
 #   the Free Software Foundation; either version 2 of the License, or
 #   (at your option) any later version.
 #
 #   This program is distributed in the hope that it will be useful,
 #   but WITHOUT ANY WARRANTY; without even the implied warranty of
 #   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 #   GNU General Public License for more details.
 #
 #   You should have received a copy of the GNU General Public License
 #   along with this program; if not, write to the Free Software
 #   Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA

 # HOW IT WORKS
 #
 # - Gather all unresolved symbols and libraries needed by the programs
 #   and reduced libraries
 # - Gather all symbols provided by the already reduced libraries
 #   (none on the first pass)
 # - If all symbols are provided we are done
 # - go through all libraries and remember what symbols they provide
 # - go through all unresolved/needed symbols and mark them as used
 # - for each library:
 #   - find pic file (if not present copy and strip the so)
 #   - compile in only used symbols
 #   - strip
 # - back to the top

 # TODO
 # * complete argument parsing as given as comment in main

 import commands
 import string
 import re
 import sys
 import os
 import glob
 import getopt
 from stat import *

 DEBUG_NORMAL  = 1
 DEBUG_VERBOSE = 2
 DEBUG_SPAM    = 3

 debuglevel = DEBUG_NORMAL

 def debug(level, *msg):
     if debuglevel >= level:
         print string.join(msg)

 # A simple set class. It should be replaced with the standard sets.Set
 # type as soon as Python 2.3 is out.
 class Set:
     def __init__(self):
         self.__dict = {}

     def add(self, obj):
         self.__dict[obj] = 1

     def contains(self, obj):
         return self.__dict.has_key(obj)

     def merge(self, s):
         for e in s.elems():
             self.add(e)

     def elems(self):
         return self.__dict.keys()

     def size(self):
         return len(self.__dict)

     def __eq__(self, other):
         return self.__dict == other.__dict

     def __str__(self):
         return `self.__dict.keys()`

     def __repr__(self):
         return `self.__dict.keys()`

 # return a list of lines of output of the command
 def command(command, *args):
     debug(DEBUG_SPAM, "calling", command, string.join(args))
     (status, output) = commands.getstatusoutput(command + ' ' + string.join(args))
     if os.WEXITSTATUS(status) != 0:
         print "Command failed with status", os.WEXITSTATUS(status),  ":", \
                command, string.join(args)
 	print "With output:", output
         sys.exit(1)
     return string.split(output, '\n')

 # Filter a list according to a regexp containing a () group. Return
 # a Set.
 def regexpfilter(list, regexp, groupnr = 1):
     pattern = re.compile(regexp)
     result = Set()
     for x in list:
         match = pattern.match(x)
         if match:
             result.add(match.group(groupnr))

     return result

 # Return a Set of rpath strings for the passed object
 def rpath(obj):
     if not os.access(obj, os.F_OK):
         raise "Cannot find lib: " + obj
     output = command(target + "objdump", "--private-headers", obj)
     return map(lambda x: root + "/" + x, regexpfilter(output, ".*RPATH\s*(\S+)$").elems())

 # Return a Set of libraries the passed objects depend on.
 def library_depends(obj):
     if not os.access(obj, os.F_OK):
         raise "Cannot find lib: " + obj
     output = command(target + "objdump", "--private-headers", obj)
     return regexpfilter(output, ".*NEEDED\s*(\S+)$")

 # Return a list of libraries the passed objects depend on. The
 # libraries are in "-lfoo" format suitable for passing to gcc.
 def library_depends_gcc_libnames(obj):
     if not os.access(obj, os.F_OK):
         raise "Cannot find lib: " + obj
     output = command(target + "objdump", "--private-headers", obj)
     output = regexpfilter(output, ".*NEEDED\s*lib(\S+)\.so.*$")
     if not output.elems():
         return ""
     else:
         return "-l" + string.join(output.elems(), " -l")

 # Scan readelf output. Example:
 # Num:    Value          Size Type    Bind   Vis      Ndx Name
 #   1: 000000012002ab48   168 FUNC    GLOBAL DEFAULT  UND strchr@GLIBC_2.0 (2)
 symline_regexp = \
     re.compile("\s*\d+: .+\s+\d+\s+\w+\s+(\w+)+\s+\w+\s+(\w+)\s+([^\s@]+)")

 # Return undefined symbols in an object as a Set of tuples (name, weakness)
 def undefined_symbols(obj):
     if not os.access(obj, os.F_OK):
         raise "Cannot find lib" + obj

     result = Set()
     output = command(target + "readelf", "-s", "-W", obj)
     for line in output:
         match = symline_regexp.match(line)
         if match:
             bind, ndx, name = match.groups()
             if ndx == "UND":
                 result.add((name, bind == "WEAK"))
     return result

 # Return a Set of symbols provided by a library
 def provided_symbols(obj):
     if not os.access(obj, os.F_OK):
         raise "Cannot find lib" + obj

     result = Set()
     debug(DEBUG_SPAM, "provided_symbols result = ", `result`)
     output = command(target + "readelf", "-s", "-W", obj)
     for line in output:
         match = symline_regexp.match(line)
         if match:
             bind, ndx, name = match.groups()
             if bind != "LOCAL" and not ndx in ("UND", "ABS"):
                 debug(DEBUG_SPAM, "provided_symbols adding ", `name`)
                 result.add(name)
     return result

 # Return real target of a symlink
 def resolve_link(file):
     debug(DEBUG_SPAM, "resolving", file)
     while S_ISLNK(os.lstat(file)[ST_MODE]):
         new_file = os.readlink(file)
         if new_file[0] != "/":
             file = os.path.join(os.path.dirname(file), new_file)
         else:
             file = new_file
     debug(DEBUG_SPAM, "resolved to", file)
     return file

 # Find complete path of a library, by searching in lib_path
 def find_lib(lib):
     for path in lib_path:
         if os.access(path + "/" + lib, os.F_OK):
             return path + "/" + lib

     return ""

 # Find a PIC archive for the library
 def find_pic(lib):
     base_name = so_pattern.match(lib).group(1)
     for path in lib_path:
         for file in glob.glob(path + "/" + base_name + "_pic.a"):
             if os.access(file, os.F_OK):
                 return resolve_link(file)
     return ""

 # Find a PIC .map file for the library
 def find_pic_map(lib):
     base_name = so_pattern.match(lib).group(1)
     for path in lib_path:
         for file in glob.glob(path + "/" + base_name + "_pic.map"):
             if os.access(file, os.F_OK):
                 return resolve_link(file)
     return ""

 def extract_soname(so_file):
     soname_data = regexpfilter(command(target + "readelf", "--all", "-W", so_file),
                                ".*SONAME.*\[(.*)\].*")
     if soname_data.elems():
         return soname_data.elems()[0]

     return ""
 def usage(was_err):
     if was_err:
         outfd = sys.stderr
     else:
         outfd = sys.stdout
     print >> outfd, "Usage: mklibs [OPTION]... -d DEST FILE ..."
     print >> outfd, "Make a set of minimal libraries for FILE(s) in DEST."
     print >> outfd, ""
     print >> outfd, "  -d, --dest-dir DIRECTORY     create libraries in DIRECTORY"
     print >> outfd, "  -D, --no-default-lib         omit default libpath (", string.join(default_lib_path, " : "), ")"
     print >> outfd, "  -L DIRECTORY[:DIRECTORY]...  add DIRECTORY(s) to the library search path"
     print >> outfd, "      --ldlib LDLIB            use LDLIB for the dynamic linker"
     print >> outfd, "      --libc-extras-dir DIRECTORY  look for libc extra files in DIRECTORY"
     # Ugh... Adding the trailing '-' breaks common practice.
     #print >> outfd, "      --target TARGET          prepend TARGET- to the gcc and binutils calls"
     print >> outfd, "      --target TARGET          prepend TARGET to the gcc and binutils calls"
     print >> outfd, "      --root ROOT              search in ROOT for library rpaths"
     print >> outfd, "  -v, --verbose                explain what is being done"
     print >> outfd, "  -h, --help                   display this help and exit"
     sys.exit(was_err)

 def version(vers):
     print "mklibs: version ",vers
     print ""

 #################### main ####################
 ## Usage: ./mklibs.py [OPTION]... -d DEST FILE ...
 ## Make a set of minimal libraries for FILE ... in directory DEST.
 ##
 ## Options:
 ##   -L DIRECTORY               Add DIRECTORY to library search path.
 ##   -D, --no-default-lib       Do not use default lib directories of /lib:/usr/lib
 ##   -n, --dry-run              Don't actually run any commands; just print them.
 ##   -v, --verbose              Print additional progress information.
 ##   -V, --version              Print the version number and exit.
 ##   -h, --help                 Print this help and exit.
 ##   --ldlib                    Name of dynamic linker (overwrites environment variable ldlib)
 ##   --libc-extras-dir          Directory for libc extra files
 ##   --target                   Use as prefix for gcc or binutils calls
 ##
 ##   -d, --dest-dir DIRECTORY   Create libraries in DIRECTORY.
 ##
 ## Required arguments for long options are also mandatory for the short options.

 # Clean the environment
 vers="0.12 with uClibc fixes"
 os.environ['LC_ALL'] = "C"

 # Argument parsing
 opts = "L:DnvVhd:r:"
 longopts = ["no-default-lib", "dry-run", "verbose", "version", "help",
             "dest-dir=", "ldlib=", "libc-extras-dir=", "target=", "root="]

 # some global variables
 lib_rpath = []
 lib_path = []
 dest_path = "DEST"
 ldlib = "LDLIB"
 include_default_lib_path = "yes"
 default_lib_path = ["/lib/", "/usr/lib/", "/usr/X11R6/lib/"]
 libc_extras_dir = "/usr/lib/libc_pic"
 target = ""
 root = ""
 so_pattern = re.compile("((lib|ld).*)\.so(\..+)*")
 script_pattern = re.compile("^#!\s*/")

 try:
     optlist, proglist = getopt.getopt(sys.argv[1:], opts, longopts)
 except getopt.GetoptError, msg:
     print >> sys.stderr, msg
     usage(1)

 for opt, arg in optlist:
     if opt in ("-v", "--verbose"):
         if debuglevel < DEBUG_SPAM:
             debuglevel = debuglevel + 1
     elif opt == "-L":
         lib_path.extend(string.split(arg, ":"))
     elif opt in ("-d", "--dest-dir"):
         dest_path = arg
     elif opt in ("-D", "--no-default-lib"):
         include_default_lib_path = "no"
     elif opt == "--ldlib":
         ldlib = arg
     elif opt == "--libc-extras-dir":
         libc_extras_dir = arg
     elif opt == "--target":
         #target = arg + "-"
         target = arg
     elif opt in ("-r", "--root"):
         root = arg
     elif opt in ("--help", "-h"):
 	usage(0)
         sys.exit(0)
     elif opt in ("--version", "-V"):
         version(vers)
         sys.exit(0)
     else:
         print "WARNING: unknown option: " + opt + "\targ: " + arg

 if include_default_lib_path == "yes":
     lib_path.extend(default_lib_path)

 if ldlib == "LDLIB":
     ldlib = os.getenv("ldlib")

 objects = {}  # map from inode to filename
 for prog in proglist:
     inode = os.stat(prog)[ST_INO]
     if objects.has_key(inode):
         debug(DEBUG_SPAM, prog, "is a hardlink to", objects[inode])
     elif so_pattern.match(prog):
         debug(DEBUG_SPAM, prog, "is a library")
     elif script_pattern.match(open(prog).read(256)):
         debug(DEBUG_SPAM, prog, "is a script")
     else:
         objects[inode] = prog

 if not ldlib:
     pattern = re.compile(".*Requesting program interpreter:.*/([^\]/]+).*")
     for obj in objects.values():
         output = command(target + "readelf", "--program-headers", obj)
 	for x in output:
 	    match = pattern.match(x)
 	    if match:
 	        ldlib = match.group(1)
 	        break
 	if ldlib:
 	    break

 if not ldlib:
     sys.exit("E: Dynamic linker not found, aborting.")

 debug(DEBUG_NORMAL, "I: Using", ldlib, "as dynamic linker.")

 pattern = re.compile(".*ld-uClibc.*");
 if pattern.match(ldlib):
     uclibc = 1
 else:
     uclibc = 0

 # Check for rpaths
 for obj in objects.values():
     rpath_val = rpath(obj)
     if rpath_val:
         if root:
             if debuglevel >= DEBUG_VERBOSE:
                 print "Adding rpath " + string.join(rpath_val, ":") + " for " + obj
             lib_rpath.extend(rpath_val)
         else:
             print "warning: " + obj + " may need rpath, but --root not specified"

 lib_path.extend(lib_rpath)

 passnr = 1
 previous_pass_unresolved = Set()
 while 1:
     debug(DEBUG_NORMAL, "I: library reduction pass", `passnr`)
     if debuglevel >= DEBUG_VERBOSE:
         print "Objects:",
         for obj in objects.values():
             print obj[string.rfind(obj, '/') + 1:],
         print

     passnr = passnr + 1
     # Gather all already reduced libraries and treat them as objects as well
     small_libs = []
     for lib in regexpfilter(os.listdir(dest_path), "(.*-so-stripped)$").elems():
         obj = dest_path + "/" + lib
         small_libs.append(obj)
         inode = os.stat(obj)[ST_INO]
         if objects.has_key(inode):
             debug(DEBUG_SPAM, obj, "is hardlink to", objects[inode])
         else:
             objects[inode] = obj

     # DEBUG
     for obj in objects.values():
         small_libs.append(obj)
         debug(DEBUG_VERBOSE, "Object:", obj)

     # calculate what symbols and libraries are needed
     needed_symbols = Set()              # Set of (name, weakness-flag)
     libraries = Set()
     for obj in objects.values():
         needed_symbols.merge(undefined_symbols(obj))
         libraries.merge(library_depends(obj))

     # FIXME: on i386 this is undefined but not marked UND
     # I don't know how to detect those symbols but this seems
     # to be the only one and including it on alpha as well
     # doesn't hurt. I guess all archs can live with this.
     needed_symbols.add(("sys_siglist", 1))

     # calculate what symbols are present in small_libs
     present_symbols = Set()
     for lib in small_libs:
         present_symbols.merge(provided_symbols(lib))

     # are we finished?
     using_ctor_dtor = 0
     num_unresolved = 0
     present_symbols_elems = present_symbols.elems()
     unresolved = Set()
     for (symbol, is_weak) in needed_symbols.elems():
         if not symbol in present_symbols_elems:
             debug(DEBUG_SPAM, "Still need:", symbol, `is_weak`)
             unresolved.add((symbol, is_weak))
             num_unresolved = num_unresolved + 1

     debug (DEBUG_NORMAL, `needed_symbols.size()`, "symbols,",
            `num_unresolved`, "unresolved")

     if num_unresolved == 0:
         break

     if unresolved == previous_pass_unresolved:
         # No progress in last pass. Verify all remaining symbols are weak.
         for (symbol, is_weak) in unresolved.elems():
             if not is_weak:
                 raise "Unresolvable symbol " + symbol
         break

     previous_pass_unresolved = unresolved

     library_symbols = {}
     library_symbols_used = {}
     symbol_provider = {}

     # Calculate all symbols each library provides
     for library in libraries.elems():
         path = find_lib(library)
         if not path:
             sys.exit("Library not found: " + library + " in path: "
                      + string.join(lib_path, " : "))
         symbols = provided_symbols(path)
         library_symbols[library] = Set()
         library_symbols_used[library] = Set()
         for symbol in symbols.elems():
             if symbol_provider.has_key(symbol):
                 # in doubt, prefer symbols from libc
                 if re.match("^libc[\.-]", library):
                     library_symbols[library].add(symbol)
                     symbol_provider[symbol] = library
                 else:
                     debug(DEBUG_SPAM, "duplicate symbol", symbol, "in",
                           symbol_provider[symbol], "and", library)
             else:
                 library_symbols[library].add(symbol)
                 symbol_provider[symbol] = library

 	# Fixup support for constructors and destructors
 	if symbol_provider.has_key("_init"):
 	    debug(DEBUG_VERBOSE, library, ": Library has a constructor!");
 	    using_ctor_dtor = 1
 	    library_symbols[library].add("_init")
 	    symbol_provider["_init"] = library
             library_symbols_used[library].add("_init")

 	if symbol_provider.has_key("_fini"):
 	    debug(DEBUG_VERBOSE, library, ": Library has a destructor!");
 	    using_ctor_dtor = 1
 	    library_symbols[library].add("_fini")
 	    symbol_provider["_fini"] = library
             library_symbols_used[library].add("_fini")

     # which symbols are actually used from each lib
     for (symbol, is_weak) in needed_symbols.elems():
         if not symbol_provider.has_key(symbol):
             if not is_weak:
                 if not uclibc or (symbol != "main"):
                     raise "No library provides non-weak " + symbol
         else:
             lib = symbol_provider[symbol]
             library_symbols_used[lib].add(symbol)

     # reduce libraries
     for library in libraries.elems():
         debug(DEBUG_VERBOSE, "reducing", library)
         debug(DEBUG_SPAM, "using: " + string.join(library_symbols_used[library].elems()))
         so_file = find_lib(library)
         if root and (re.compile("^" + root).search(so_file)):
             debug(DEBUG_VERBOSE, "no action required for " + so_file)
             continue
         so_file_name = os.path.basename(so_file)
         if not so_file:
             sys.exit("File not found:" + library)
         pic_file = find_pic(library)
         if not pic_file:
             # No pic file, so we have to use the .so file, no reduction
             debug(DEBUG_VERBOSE, "No pic file found for", so_file, "; copying")
             command(target + "objcopy", "--strip-unneeded -R .note -R .comment",
                     so_file, dest_path + "/" + so_file_name + "-so-stripped")
         else:
             # we have a pic file, recompile
             debug(DEBUG_SPAM, "extracting from:", pic_file, "so_file:", so_file)
             soname = extract_soname(so_file)
             if soname == "":
                 debug(DEBUG_VERBOSE, so_file, " has no soname, copying")
                 continue
             debug(DEBUG_SPAM, "soname:", soname)
             base_name = so_pattern.match(library).group(1)
             # libc needs its soinit.o and sofini.o as well as the pic
             if (base_name == "libc") and not uclibc:
                 # force dso_handle.os to be included, otherwise reduced libc
                 # may segfault in ptmalloc_init due to undefined weak reference
                 extra_flags = find_lib(ldlib) + " -u __dso_handle"
                 extra_pre_obj = libc_extras_dir + "/soinit.o"
                 extra_post_obj = libc_extras_dir + "/sofini.o"
             else:
                 extra_flags = ""
                 extra_pre_obj = ""
                 extra_post_obj = ""
             map_file = find_pic_map(library)
             if map_file:
                 extra_flags = extra_flags + " -Wl,--version-script=" + map_file
             if library_symbols_used[library].elems():
                 joined_symbols = "-u" + string.join(library_symbols_used[library].elems(), " -u")
             else:
                 joined_symbols = ""
 	    if using_ctor_dtor == 1:
                 extra_flags = extra_flags + " -shared"
             # compile in only used symbols
             command(target + "gcc",
                 "-nostdlib -nostartfiles -shared -Wl,-soname=" + soname,\
                 joined_symbols, \
                 "-o", dest_path + "/" + so_file_name + "-so", \
                 extra_pre_obj, \
                 pic_file, \
                 extra_post_obj, \
                 extra_flags, \
                 "-lgcc -L", dest_path, \
                 "-L" + string.join(lib_path, " -L"), \
                 library_depends_gcc_libnames(so_file))
             # strip result
             command(target + "objcopy", "--strip-unneeded -R .note -R .comment",
                       dest_path + "/" + so_file_name + "-so",
                       dest_path + "/" + so_file_name + "-so-stripped")
             ## DEBUG
             debug(DEBUG_VERBOSE, so_file, "\t", `os.stat(so_file)[ST_SIZE]`)
             debug(DEBUG_VERBOSE, dest_path + "/" + so_file_name + "-so", "\t",
                   `os.stat(dest_path + "/" + so_file_name + "-so")[ST_SIZE]`)
             debug(DEBUG_VERBOSE, dest_path + "/" + so_file_name + "-so-stripped",
                   "\t", `os.stat(dest_path + "/" + so_file_name + "-so-stripped")[ST_SIZE]`)

 # Finalising libs and cleaning up
 for lib in regexpfilter(os.listdir(dest_path), "(.*)-so-stripped$").elems():
     os.rename(dest_path + "/" + lib + "-so-stripped", dest_path + "/" + lib)
 for lib in regexpfilter(os.listdir(dest_path), "(.*-so)$").elems():
     os.remove(dest_path + "/" + lib)

 # Canonicalize library names.
 for lib in regexpfilter(os.listdir(dest_path), "(.*so[.\d]*)$").elems():
     this_lib_path = dest_path + "/" + lib
     if os.path.islink(this_lib_path):
         debug(DEBUG_VERBOSE, "Unlinking %s." % lib)
         os.remove(this_lib_path)
         continue
     soname = extract_soname(this_lib_path)
     if soname:
         debug(DEBUG_VERBOSE, "Moving %s to %s." % (lib, soname))
         os.rename(dest_path + "/" + lib, dest_path + "/" + soname)

 # Make sure the dynamic linker is present and is executable
 ld_file = find_lib(ldlib)
 ld_file_name = os.path.basename(ld_file)

 if not os.access(dest_path + "/" + ld_file_name, os.F_OK):
     debug(DEBUG_NORMAL, "I: stripping and copying dynamic linker.")
     command(target + "objcopy", "--strip-unneeded -R .note -R .comment",
             ld_file, dest_path + "/" + ld_file_name)

 os.chmod(dest_path + "/" + ld_file_name, 0755)
	#! /usr/bin/python

	# mklibs.py: An automated way to create a minimal /lib/ directory.
	#
	# Copyright 2001 by Falk Hueffner <falk@debian.org>
	# & Goswin Brederlow <goswin.brederlow@student.uni-tuebingen.de>
	#
	# mklibs.sh by Marcus Brinkmann <Marcus.Brinkmann@ruhr-uni-bochum.de>
	# used as template
	#
	# This program is free software; you can redistribute it and/or modify
	# it under the terms of the GNU General Public License as published by
	# the Free Software Foundation; either version 2 of the License, or
	# (at your option) any later version.
	#
	# This program is distributed in the hope that it will be useful,
	# but WITHOUT ANY WARRANTY; without even the implied warranty of
	# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	# GNU General Public License for more details.
	#
	# You should have received a copy of the GNU General Public License
	# along with this program; if not, write to the Free Software
	# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA

	# HOW IT WORKS
	#
	# - Gather all unresolved symbols and libraries needed by the programs
	# and reduced libraries
	# - Gather all symbols provided by the already reduced libraries
	# (none on the first pass)
	# - If all symbols are provided we are done
	# - go through all libraries and remember what symbols they provide
	# - go through all unresolved/needed symbols and mark them as used
	# - for each library:
	# - find pic file (if not present copy and strip the so)
	# - compile in only used symbols
	# - strip
	# - back to the top

	# TODO
	# * complete argument parsing as given as comment in main

	import commands
	import string
	import re
	import sys
	import os
	import glob
	import getopt
	from stat import *

	DEBUG_NORMAL = 1
	DEBUG_VERBOSE = 2
	DEBUG_SPAM = 3

	debuglevel = DEBUG_NORMAL

	def debug(level, *msg):
	if debuglevel >= level:
	print string.join(msg)

	# A simple set class. It should be replaced with the standard sets.Set
	# type as soon as Python 2.3 is out.
	class Set:
	def __init__(self):
	self.__dict = {}

	def add(self, obj):
	self.__dict[obj] = 1

	def contains(self, obj):
	return self.__dict.has_key(obj)

	def merge(self, s):
	for e in s.elems():
	self.add(e)

	def elems(self):
	return self.__dict.keys()

	def size(self):
	return len(self.__dict)

	def __eq__(self, other):
	return self.__dict == other.__dict

	def __str__(self):
	return `self.__dict.keys()`

	def __repr__(self):
	return `self.__dict.keys()`

	# return a list of lines of output of the command
	def command(command, *args):
	debug(DEBUG_SPAM, "calling", command, string.join(args))
	(status, output) = commands.getstatusoutput(command + ' ' + string.join(args))
	if os.WEXITSTATUS(status) != 0:
	print "Command failed with status", os.WEXITSTATUS(status), ":", \
	command, string.join(args)
	print "With output:", output
	sys.exit(1)
	return string.split(output, '\n')

	# Filter a list according to a regexp containing a () group. Return
	# a Set.
	def regexpfilter(list, regexp, groupnr = 1):
	pattern = re.compile(regexp)
	result = Set()
	for x in list:
	match = pattern.match(x)
	if match:
	result.add(match.group(groupnr))

	return result

	# Return a Set of rpath strings for the passed object
	def rpath(obj):
	if not os.access(obj, os.F_OK):
	raise "Cannot find lib: " + obj
	output = command(target + "objdump", "--private-headers", obj)
	return map(lambda x: root + "/" + x, regexpfilter(output, ".RPATH\s(\S+)$").elems())

	# Return a Set of libraries the passed objects depend on.
	def library_depends(obj):
	if not os.access(obj, os.F_OK):
	raise "Cannot find lib: " + obj
	output = command(target + "objdump", "--private-headers", obj)
	return regexpfilter(output, ".NEEDED\s(\S+)$")

	# Return a list of libraries the passed objects depend on. The
	# libraries are in "-lfoo" format suitable for passing to gcc.
	def library_depends_gcc_libnames(obj):
	if not os.access(obj, os.F_OK):
	raise "Cannot find lib: " + obj
	output = command(target + "objdump", "--private-headers", obj)
	output = regexpfilter(output, ".NEEDED\slib(\S+)\.so.*$")
	if not output.elems():
	return ""
	else:
	return "-l" + string.join(output.elems(), " -l")

	# Scan readelf output. Example:
	# Num: Value Size Type Bind Vis Ndx Name
	# 1: 000000012002ab48 168 FUNC GLOBAL DEFAULT UND strchr@GLIBC_2.0 (2)
	symline_regexp = \
	re.compile("\s*\d+: .+\s+\d+\s+\w+\s+(\w+)+\s+\w+\s+(\w+)\s+([^\s@]+)")

	# Return undefined symbols in an object as a Set of tuples (name, weakness)
	def undefined_symbols(obj):
	if not os.access(obj, os.F_OK):
	raise "Cannot find lib" + obj

	result = Set()
	output = command(target + "readelf", "-s", "-W", obj)
	for line in output:
	match = symline_regexp.match(line)
	if match:
	bind, ndx, name = match.groups()
	if ndx == "UND":
	result.add((name, bind == "WEAK"))
	return result

	# Return a Set of symbols provided by a library
	def provided_symbols(obj):
	if not os.access(obj, os.F_OK):
	raise "Cannot find lib" + obj

	result = Set()
	debug(DEBUG_SPAM, "provided_symbols result = ", `result`)
	output = command(target + "readelf", "-s", "-W", obj)
	for line in output:
	match = symline_regexp.match(line)
	if match:
	bind, ndx, name = match.groups()
	if bind != "LOCAL" and not ndx in ("UND", "ABS"):
	debug(DEBUG_SPAM, "provided_symbols adding ", `name`)
	result.add(name)
	return result

	# Return real target of a symlink
	def resolve_link(file):
	debug(DEBUG_SPAM, "resolving", file)
	while S_ISLNK(os.lstat(file)[ST_MODE]):
	new_file = os.readlink(file)
	if new_file[0] != "/":
	file = os.path.join(os.path.dirname(file), new_file)
	else:
	file = new_file
	debug(DEBUG_SPAM, "resolved to", file)
	return file

	# Find complete path of a library, by searching in lib_path
	def find_lib(lib):
	for path in lib_path:
	if os.access(path + "/" + lib, os.F_OK):
	return path + "/" + lib

	return ""

	# Find a PIC archive for the library
	def find_pic(lib):
	base_name = so_pattern.match(lib).group(1)
	for path in lib_path:
	for file in glob.glob(path + "/" + base_name + "_pic.a"):
	if os.access(file, os.F_OK):
	return resolve_link(file)
	return ""

	# Find a PIC .map file for the library
	def find_pic_map(lib):
	base_name = so_pattern.match(lib).group(1)
	for path in lib_path:
	for file in glob.glob(path + "/" + base_name + "_pic.map"):
	if os.access(file, os.F_OK):
	return resolve_link(file)
	return ""

	def extract_soname(so_file):
	soname_data = regexpfilter(command(target + "readelf", "--all", "-W", so_file),
	".SONAME.\[(.)\].")
	if soname_data.elems():
	return soname_data.elems()[0]

	return ""
	def usage(was_err):
	if was_err:
	outfd = sys.stderr
	else:
	outfd = sys.stdout
	print >> outfd, "Usage: mklibs [OPTION]... -d DEST FILE ..."
	print >> outfd, "Make a set of minimal libraries for FILE(s) in DEST."
	print >> outfd, ""
	print >> outfd, " -d, --dest-dir DIRECTORY create libraries in DIRECTORY"
	print >> outfd, " -D, --no-default-lib omit default libpath (", string.join(default_lib_path, " : "), ")"
	print >> outfd, " -L DIRECTORY[:DIRECTORY]... add DIRECTORY(s) to the library search path"
	print >> outfd, " --ldlib LDLIB use LDLIB for the dynamic linker"
	print >> outfd, " --libc-extras-dir DIRECTORY look for libc extra files in DIRECTORY"
	# Ugh... Adding the trailing '-' breaks common practice.
	#print >> outfd, " --target TARGET prepend TARGET- to the gcc and binutils calls"
	print >> outfd, " --target TARGET prepend TARGET to the gcc and binutils calls"
	print >> outfd, " --root ROOT search in ROOT for library rpaths"
	print >> outfd, " -v, --verbose explain what is being done"
	print >> outfd, " -h, --help display this help and exit"
	sys.exit(was_err)

	def version(vers):
	print "mklibs: version ",vers
	print ""

	#################### main ####################
	## Usage: ./mklibs.py [OPTION]... -d DEST FILE ...
	## Make a set of minimal libraries for FILE ... in directory DEST.
	##
	## Options:
	## -L DIRECTORY Add DIRECTORY to library search path.
	## -D, --no-default-lib Do not use default lib directories of /lib:/usr/lib
	## -n, --dry-run Don't actually run any commands; just print them.
	## -v, --verbose Print additional progress information.
	## -V, --version Print the version number and exit.
	## -h, --help Print this help and exit.
	## --ldlib Name of dynamic linker (overwrites environment variable ldlib)
	## --libc-extras-dir Directory for libc extra files
	## --target Use as prefix for gcc or binutils calls
	##
	## -d, --dest-dir DIRECTORY Create libraries in DIRECTORY.
	##
	## Required arguments for long options are also mandatory for the short options.

	# Clean the environment
	vers="0.12 with uClibc fixes"
	os.environ['LC_ALL'] = "C"

	# Argument parsing
	opts = "L:DnvVhd:r:"
	longopts = ["no-default-lib", "dry-run", "verbose", "version", "help",
	"dest-dir=", "ldlib=", "libc-extras-dir=", "target=", "root="]

	# some global variables
	lib_rpath = []
	lib_path = []
	dest_path = "DEST"
	ldlib = "LDLIB"
	include_default_lib_path = "yes"
	default_lib_path = ["/lib/", "/usr/lib/", "/usr/X11R6/lib/"]
	libc_extras_dir = "/usr/lib/libc_pic"
	target = ""
	root = ""
	so_pattern = re.compile("((lib\|ld).)\.so(\..+)")
	script_pattern = re.compile("^#!\s*/")

	try:
	optlist, proglist = getopt.getopt(sys.argv[1:], opts, longopts)
	except getopt.GetoptError, msg:
	print >> sys.stderr, msg
	usage(1)

	for opt, arg in optlist:
	if opt in ("-v", "--verbose"):
	if debuglevel < DEBUG_SPAM:
	debuglevel = debuglevel + 1
	elif opt == "-L":
	lib_path.extend(string.split(arg, ":"))
	elif opt in ("-d", "--dest-dir"):
	dest_path = arg
	elif opt in ("-D", "--no-default-lib"):
	include_default_lib_path = "no"
	elif opt == "--ldlib":
	ldlib = arg
	elif opt == "--libc-extras-dir":
	libc_extras_dir = arg
	elif opt == "--target":
	#target = arg + "-"
	target = arg
	elif opt in ("-r", "--root"):
	root = arg
	elif opt in ("--help", "-h"):
	usage(0)
	sys.exit(0)
	elif opt in ("--version", "-V"):
	version(vers)
	sys.exit(0)
	else:
	print "WARNING: unknown option: " + opt + "\targ: " + arg

	if include_default_lib_path == "yes":
	lib_path.extend(default_lib_path)

	if ldlib == "LDLIB":
	ldlib = os.getenv("ldlib")

	objects = {} # map from inode to filename
	for prog in proglist:
	inode = os.stat(prog)[ST_INO]
	if objects.has_key(inode):
	debug(DEBUG_SPAM, prog, "is a hardlink to", objects[inode])
	elif so_pattern.match(prog):
	debug(DEBUG_SPAM, prog, "is a library")
	elif script_pattern.match(open(prog).read(256)):
	debug(DEBUG_SPAM, prog, "is a script")
	else:
	objects[inode] = prog

	if not ldlib:
	pattern = re.compile(".Requesting program interpreter:./([^\]/]+).*")
	for obj in objects.values():
	output = command(target + "readelf", "--program-headers", obj)
	for x in output:
	match = pattern.match(x)
	if match:
	ldlib = match.group(1)
	break
	if ldlib:
	break

	if not ldlib:
	sys.exit("E: Dynamic linker not found, aborting.")

	debug(DEBUG_NORMAL, "I: Using", ldlib, "as dynamic linker.")

	pattern = re.compile(".ld-uClibc.");
	if pattern.match(ldlib):
	uclibc = 1
	else:
	uclibc = 0

	# Check for rpaths
	for obj in objects.values():
	rpath_val = rpath(obj)
	if rpath_val:
	if root:
	if debuglevel >= DEBUG_VERBOSE:
	print "Adding rpath " + string.join(rpath_val, ":") + " for " + obj
	lib_rpath.extend(rpath_val)
	else:
	print "warning: " + obj + " may need rpath, but --root not specified"

	lib_path.extend(lib_rpath)

	passnr = 1
	previous_pass_unresolved = Set()
	while 1:
	debug(DEBUG_NORMAL, "I: library reduction pass", `passnr`)
	if debuglevel >= DEBUG_VERBOSE:
	print "Objects:",
	for obj in objects.values():
	print obj[string.rfind(obj, '/') + 1:],
	print

	passnr = passnr + 1
	# Gather all already reduced libraries and treat them as objects as well
	small_libs = []
	for lib in regexpfilter(os.listdir(dest_path), "(.*-so-stripped)$").elems():
	obj = dest_path + "/" + lib
	small_libs.append(obj)
	inode = os.stat(obj)[ST_INO]
	if objects.has_key(inode):
	debug(DEBUG_SPAM, obj, "is hardlink to", objects[inode])
	else:
	objects[inode] = obj

	# DEBUG
	for obj in objects.values():
	small_libs.append(obj)
	debug(DEBUG_VERBOSE, "Object:", obj)

	# calculate what symbols and libraries are needed
	needed_symbols = Set() # Set of (name, weakness-flag)
	libraries = Set()
	for obj in objects.values():
	needed_symbols.merge(undefined_symbols(obj))
	libraries.merge(library_depends(obj))

	# FIXME: on i386 this is undefined but not marked UND
	# I don't know how to detect those symbols but this seems
	# to be the only one and including it on alpha as well
	# doesn't hurt. I guess all archs can live with this.
	needed_symbols.add(("sys_siglist", 1))

	# calculate what symbols are present in small_libs
	present_symbols = Set()
	for lib in small_libs:
	present_symbols.merge(provided_symbols(lib))

	# are we finished?
	using_ctor_dtor = 0
	num_unresolved = 0
	present_symbols_elems = present_symbols.elems()
	unresolved = Set()
	for (symbol, is_weak) in needed_symbols.elems():
	if not symbol in present_symbols_elems:
	debug(DEBUG_SPAM, "Still need:", symbol, `is_weak`)
	unresolved.add((symbol, is_weak))
	num_unresolved = num_unresolved + 1

	debug (DEBUG_NORMAL, `needed_symbols.size()`, "symbols,",
	`num_unresolved`, "unresolved")

	if num_unresolved == 0:
	break

	if unresolved == previous_pass_unresolved:
	# No progress in last pass. Verify all remaining symbols are weak.
	for (symbol, is_weak) in unresolved.elems():
	if not is_weak:
	raise "Unresolvable symbol " + symbol
	break

	previous_pass_unresolved = unresolved

	library_symbols = {}
	library_symbols_used = {}
	symbol_provider = {}

	# Calculate all symbols each library provides
	for library in libraries.elems():
	path = find_lib(library)
	if not path:
	sys.exit("Library not found: " + library + " in path: "
	+ string.join(lib_path, " : "))
	symbols = provided_symbols(path)
	library_symbols[library] = Set()
	library_symbols_used[library] = Set()
	for symbol in symbols.elems():
	if symbol_provider.has_key(symbol):
	# in doubt, prefer symbols from libc
	if re.match("^libc[\.-]", library):
	library_symbols[library].add(symbol)
	symbol_provider[symbol] = library
	else:
	debug(DEBUG_SPAM, "duplicate symbol", symbol, "in",
	symbol_provider[symbol], "and", library)
	else:
	library_symbols[library].add(symbol)
	symbol_provider[symbol] = library

	# Fixup support for constructors and destructors
	if symbol_provider.has_key("_init"):
	debug(DEBUG_VERBOSE, library, ": Library has a constructor!");
	using_ctor_dtor = 1
	library_symbols[library].add("_init")
	symbol_provider["_init"] = library
	library_symbols_used[library].add("_init")

	if symbol_provider.has_key("_fini"):
	debug(DEBUG_VERBOSE, library, ": Library has a destructor!");
	using_ctor_dtor = 1
	library_symbols[library].add("_fini")
	symbol_provider["_fini"] = library
	library_symbols_used[library].add("_fini")

	# which symbols are actually used from each lib
	for (symbol, is_weak) in needed_symbols.elems():
	if not symbol_provider.has_key(symbol):
	if not is_weak:
	if not uclibc or (symbol != "main"):
	raise "No library provides non-weak " + symbol
	else:
	lib = symbol_provider[symbol]
	library_symbols_used[lib].add(symbol)

	# reduce libraries
	for library in libraries.elems():
	debug(DEBUG_VERBOSE, "reducing", library)
	debug(DEBUG_SPAM, "using: " + string.join(library_symbols_used[library].elems()))
	so_file = find_lib(library)
	if root and (re.compile("^" + root).search(so_file)):
	debug(DEBUG_VERBOSE, "no action required for " + so_file)
	continue
	so_file_name = os.path.basename(so_file)
	if not so_file:
	sys.exit("File not found:" + library)
	pic_file = find_pic(library)
	if not pic_file:
	# No pic file, so we have to use the .so file, no reduction
	debug(DEBUG_VERBOSE, "No pic file found for", so_file, "; copying")
	command(target + "objcopy", "--strip-unneeded -R .note -R .comment",
	so_file, dest_path + "/" + so_file_name + "-so-stripped")
	else:
	# we have a pic file, recompile
	debug(DEBUG_SPAM, "extracting from:", pic_file, "so_file:", so_file)
	soname = extract_soname(so_file)
	if soname == "":
	debug(DEBUG_VERBOSE, so_file, " has no soname, copying")
	continue
	debug(DEBUG_SPAM, "soname:", soname)
	base_name = so_pattern.match(library).group(1)
	# libc needs its soinit.o and sofini.o as well as the pic
	if (base_name == "libc") and not uclibc:
	# force dso_handle.os to be included, otherwise reduced libc
	# may segfault in ptmalloc_init due to undefined weak reference
	extra_flags = find_lib(ldlib) + " -u __dso_handle"
	extra_pre_obj = libc_extras_dir + "/soinit.o"
	extra_post_obj = libc_extras_dir + "/sofini.o"
	else:
	extra_flags = ""
	extra_pre_obj = ""
	extra_post_obj = ""
	map_file = find_pic_map(library)
	if map_file:
	extra_flags = extra_flags + " -Wl,--version-script=" + map_file
	if library_symbols_used[library].elems():
	joined_symbols = "-u" + string.join(library_symbols_used[library].elems(), " -u")
	else:
	joined_symbols = ""
	if using_ctor_dtor == 1:
	extra_flags = extra_flags + " -shared"
	# compile in only used symbols
	command(target + "gcc",
	"-nostdlib -nostartfiles -shared -Wl,-soname=" + soname,\
	joined_symbols, \
	"-o", dest_path + "/" + so_file_name + "-so", \
	extra_pre_obj, \
	pic_file, \
	extra_post_obj, \
	extra_flags, \
	"-lgcc -L", dest_path, \
	"-L" + string.join(lib_path, " -L"), \
	library_depends_gcc_libnames(so_file))
	# strip result
	command(target + "objcopy", "--strip-unneeded -R .note -R .comment",
	dest_path + "/" + so_file_name + "-so",
	dest_path + "/" + so_file_name + "-so-stripped")
	## DEBUG
	debug(DEBUG_VERBOSE, so_file, "\t", `os.stat(so_file)[ST_SIZE]`)
	debug(DEBUG_VERBOSE, dest_path + "/" + so_file_name + "-so", "\t",
	`os.stat(dest_path + "/" + so_file_name + "-so")[ST_SIZE]`)
	debug(DEBUG_VERBOSE, dest_path + "/" + so_file_name + "-so-stripped",
	"\t", `os.stat(dest_path + "/" + so_file_name + "-so-stripped")[ST_SIZE]`)

	# Finalising libs and cleaning up
	for lib in regexpfilter(os.listdir(dest_path), "(.*)-so-stripped$").elems():
	os.rename(dest_path + "/" + lib + "-so-stripped", dest_path + "/" + lib)
	for lib in regexpfilter(os.listdir(dest_path), "(.*-so)$").elems():
	os.remove(dest_path + "/" + lib)

	# Canonicalize library names.
	for lib in regexpfilter(os.listdir(dest_path), "(.so[.\d])$").elems():
	this_lib_path = dest_path + "/" + lib
	if os.path.islink(this_lib_path):
	debug(DEBUG_VERBOSE, "Unlinking %s." % lib)
	os.remove(this_lib_path)
	continue
	soname = extract_soname(this_lib_path)
	if soname:
	debug(DEBUG_VERBOSE, "Moving %s to %s." % (lib, soname))
	os.rename(dest_path + "/" + lib, dest_path + "/" + soname)

	# Make sure the dynamic linker is present and is executable
	ld_file = find_lib(ldlib)
	ld_file_name = os.path.basename(ld_file)

	if not os.access(dest_path + "/" + ld_file_name, os.F_OK):
	debug(DEBUG_NORMAL, "I: stripping and copying dynamic linker.")
	command(target + "objcopy", "--strip-unneeded -R .note -R .comment",
	ld_file, dest_path + "/" + ld_file_name)

	os.chmod(dest_path + "/" + ld_file_name, 0755)