test/unused-code-gc.py - manifest_repos/dbus - Git at Google

 #! /usr/bin/python

 import os
 import sys
 import string
 import re

 ## hash from symbol name to list of symbols with that name,
 ## where the list of symbols contains a list representing each symbol
 symbols = {}
 roots = {}

 def createBacklinks(name, syms):
     for s in syms:
         refs = s[2]
         for r in refs:
             ## for each ref, add ourselves as a referencer
             if symbols.has_key(r):
                 targets = symbols[r]
                 for t in targets:
                     if name not in t[5]:
                         t[5].append(name)

 def markSymbol(frm, name):
     if not symbols.has_key(name):
         print "%s referenced but was not in the objdump"
     syms = symbols[name]
     ## print ambiguous references unless they are internal noise like ".L129"
     if len(syms) > 1 and name[0] != '.':
         print "Reference to symbol '%s' from '%s' is ambiguous, marking all '%s'" % (name, frm, name)
         print syms
     for s in syms:
         if s[4]:
             pass ## already marked
         else:
             s[4] = 1
             refs = s[2]
             for r in refs:
                 markSymbol(s[0], r)

 def cmpFilename(a, b):
     v = cmp(a[1], b[1])
     if v == 0:
         v = cmp(a[0], b[0])
     return v

 def sizeAsString(bytes):
     if bytes < 1024:
         return "%d bytes" % bytes
     elif bytes < 1024*1024:
         return "%.2gK" % (bytes / 1024.0)
     else:
         return "%.2gM" % (bytes / 1024.0 / 1024.0)

 def printLost():
     list = []
     filename = None
     for (name, syms) in symbols.items():
         s = syms[0] ## we always mark all or none for now
         if not s[4] and name[0] != '.': ## skip .L129 type symbols
             filename = s[3]
             if not filename:
                 filename = "unknown file"
             list.append ((name, filename, s[5], s[7]))

     file_summaries = []
     total_unused = 0
     total_this_file = 0
     filename = None
     list.sort(cmpFilename)
     for l in list:
         next_filename = l[1]
         if next_filename != filename:
             if total_this_file > 0:
                 file_summaries.append ("  %s may be unused in %s" % (sizeAsString(total_this_file), filename))
             print "%s has these symbols not reachable from exported symbols:" % next_filename
             filename = next_filename
             total_this_file = 0
         print "    %s %s" % (l[0], sizeAsString(l[3]))
         total_unused = total_unused + l[3]
         total_this_file = total_this_file + l[3]
         for trace in l[2]:
             print "       referenced from %s" % trace

     for fs in file_summaries:
         print fs
     print "%s total may be unused" % sizeAsString(total_unused)

 def main():

     ## 0001aa44 <_dbus_message_get_network_data>:
     sym_re = re.compile ('([0-9a-f]+) <([^>]+)>:')
     ## 1aa49:       e8 00 00 00 00          call   1aa4e <_dbus_message_get_network_data+0xa>
     ref_re = re.compile (' <([^>]+)> *$')
     ## /home/hp/dbus-cvs/dbus/dbus/dbus-message.c:139
     file_re = re.compile ('^(\/[^:].*):[0-9]+$')
     ## _dbus_message_get_network_data+0xa
     funcname_re = re.compile ('([^+]+)\+[0-9a-fx]+')
     ## 00005410 T dbus_address_entries_free
     dynsym_re = re.compile ('T ([^ \n]+)$')

     filename = sys.argv[1]

     command = """
     objdump -D --demangle -l %s
     """ % filename

     command = string.strip (command)

     print "Running: %s" % command

     f = os.popen(command)

     ## first we find which functions reference which other functions
     current_sym = None
     lines = f.readlines()
     for l in lines:
         addr = None
         name = None
         target = None
         file = None

         match = sym_re.match(l)
         if match:
             addr = match.group(1)
             name = match.group(2)
         else:
             match = ref_re.search(l)
             if match:
                 target = match.group(1)
             else:
                 match = file_re.match(l)
                 if match:
                     file = match.group(1)

         if name:
             ## 0 symname, 1 address, 2 references, 3 filename, 4 reached, 5 referenced-by 6 backlinked 7 approx size
             item = [name, addr, [], None, 0, [], 0, 0]
             if symbols.has_key(name):
                 symbols[name].append(item)
             else:
                 symbols[name] = [item]

             if current_sym:
                 prev_addr = long(current_sym[1], 16)
                 our_addr = long(item[1], 16)
                 item[7] = our_addr - prev_addr
                 if item[7] < 0:
                     print "Computed negative size %d for %s" % (item[7], item[0])
                     item[7] = 0

             current_sym = item

         elif target and current_sym:
             match = funcname_re.match(target)
             if match:
                 ## dump the "+address"
                 target = match.group(1)
             if target == current_sym[0]:
                 pass ## skip self-references
             else:
                 current_sym[2].append (target)

         elif file and current_sym:
             if file.startswith('/usr/include'):
                 ## inlined libc thingy
                 pass
             elif current_sym[0].startswith('.debug'):
                 ## debug info
                 pass
             elif current_sym[3] and current_sym[3] != file:
                 raise Exception ("%s in both %s and %s" % (current_sym[0], current_sym[3], file))
             else:
                 current_sym[3] = file

     ## now we need to find the roots (exported symbols)
     command = "nm -D %s" % filename
     print "Running: %s" % command
     f = os.popen(command)
     lines = f.readlines ()
     for l in lines:
         match = dynsym_re.search(l)
         if match:
             name = match.group(1)
             if roots.has_key(name):
                 raise Exception("symbol %s exported twice?" % name)
             else:
                 roots[name] = 1

     print "%d symbols exported from this object" % len(roots)

     ## these functions are used only indirectly, so we don't
     ## notice they are used. Manually add them as roots...
     vtable_roots = ['unix_finalize',
                     'unix_handle_watch',
                     'unix_disconnect',
                     'unix_connection_set',
                     'unix_do_iteration',
                     'unix_live_messages_changed',
                     'unix_get_unix_fd',
                     'handle_client_data_cookie_sha1_mech',
                     'handle_client_data_external_mech',
                     'handle_server_data_cookie_sha1_mech',
                     'handle_server_data_external_mech',
                     'handle_client_initial_response_cookie_sha1_mech',
                     'handle_client_initial_response_external_mech',
                     'handle_client_shutdown_cookie_sha1_mech',
                     'handle_client_shutdown_external_mech',
                     'handle_server_shutdown_cookie_sha1_mech',
                     'handle_server_shutdown_external_mech'
                     ]

     for vr in vtable_roots:
         if roots.has_key(vr):
             raise Exception("%s is already a root" % vr)
         roots[vr] = 1

     for k in roots.keys():
         markSymbol("root", k)

     for (k, v) in symbols.items():
         createBacklinks(k, v)

     print """

 The symbols mentioned below don't appear to be reachable starting from
 the dynamic exports of the library. However, this program is pretty
 dumb; a limitation that creates false positives is that it can only
 trace 'reachable' through hardcoded function calls, if a function is
 called only through a vtable, it won't be marked reachable (and
 neither will its children in the call graph).

 Also, the sizes mentioned are more or less completely bogus.

 """

     print "The following are hardcoded in as vtable roots: %s" % vtable_roots

     printLost()

 if __name__ == "__main__":
     main()
	#! /usr/bin/python

	import os
	import sys
	import string
	import re

	## hash from symbol name to list of symbols with that name,
	## where the list of symbols contains a list representing each symbol
	symbols = {}
	roots = {}

	def createBacklinks(name, syms):
	for s in syms:
	refs = s[2]
	for r in refs:
	## for each ref, add ourselves as a referencer
	if symbols.has_key(r):
	targets = symbols[r]
	for t in targets:
	if name not in t[5]:
	t[5].append(name)

	def markSymbol(frm, name):
	if not symbols.has_key(name):
	print "%s referenced but was not in the objdump"
	syms = symbols[name]
	## print ambiguous references unless they are internal noise like ".L129"
	if len(syms) > 1 and name[0] != '.':
	print "Reference to symbol '%s' from '%s' is ambiguous, marking all '%s'" % (name, frm, name)
	print syms
	for s in syms:
	if s[4]:
	pass ## already marked
	else:
	s[4] = 1
	refs = s[2]
	for r in refs:
	markSymbol(s[0], r)

	def cmpFilename(a, b):
	v = cmp(a[1], b[1])
	if v == 0:
	v = cmp(a[0], b[0])
	return v

	def sizeAsString(bytes):
	if bytes < 1024:
	return "%d bytes" % bytes
	elif bytes < 1024*1024:
	return "%.2gK" % (bytes / 1024.0)
	else:
	return "%.2gM" % (bytes / 1024.0 / 1024.0)

	def printLost():
	list = []
	filename = None
	for (name, syms) in symbols.items():
	s = syms[0] ## we always mark all or none for now
	if not s[4] and name[0] != '.': ## skip .L129 type symbols
	filename = s[3]
	if not filename:
	filename = "unknown file"
	list.append ((name, filename, s[5], s[7]))

	file_summaries = []
	total_unused = 0
	total_this_file = 0
	filename = None
	list.sort(cmpFilename)
	for l in list:
	next_filename = l[1]
	if next_filename != filename:
	if total_this_file > 0:
	file_summaries.append (" %s may be unused in %s" % (sizeAsString(total_this_file), filename))
	print "%s has these symbols not reachable from exported symbols:" % next_filename
	filename = next_filename
	total_this_file = 0
	print " %s %s" % (l[0], sizeAsString(l[3]))
	total_unused = total_unused + l[3]
	total_this_file = total_this_file + l[3]
	for trace in l[2]:
	print " referenced from %s" % trace

	for fs in file_summaries:
	print fs
	print "%s total may be unused" % sizeAsString(total_unused)

	def main():

	## 0001aa44 <_dbus_message_get_network_data>:
	sym_re = re.compile ('([0-9a-f]+) <([^>]+)>:')
	## 1aa49: e8 00 00 00 00 call 1aa4e <_dbus_message_get_network_data+0xa>
	ref_re = re.compile (' <([^>]+)> *$')
	## /home/hp/dbus-cvs/dbus/dbus/dbus-message.c:139
	file_re = re.compile ('^(\/[^:].*):[0-9]+$')
	## _dbus_message_get_network_data+0xa
	funcname_re = re.compile ('([^+]+)\+[0-9a-fx]+')
	## 00005410 T dbus_address_entries_free
	dynsym_re = re.compile ('T ([^ \n]+)$')

	filename = sys.argv[1]

	command = """
	objdump -D --demangle -l %s
	""" % filename

	command = string.strip (command)

	print "Running: %s" % command

	f = os.popen(command)

	## first we find which functions reference which other functions
	current_sym = None
	lines = f.readlines()
	for l in lines:
	addr = None
	name = None
	target = None
	file = None

	match = sym_re.match(l)
	if match:
	addr = match.group(1)
	name = match.group(2)
	else:
	match = ref_re.search(l)
	if match:
	target = match.group(1)
	else:
	match = file_re.match(l)
	if match:
	file = match.group(1)

	if name:
	## 0 symname, 1 address, 2 references, 3 filename, 4 reached, 5 referenced-by 6 backlinked 7 approx size
	item = [name, addr, [], None, 0, [], 0, 0]
	if symbols.has_key(name):
	symbols[name].append(item)
	else:
	symbols[name] = [item]

	if current_sym:
	prev_addr = long(current_sym[1], 16)
	our_addr = long(item[1], 16)
	item[7] = our_addr - prev_addr
	if item[7] < 0:
	print "Computed negative size %d for %s" % (item[7], item[0])
	item[7] = 0

	current_sym = item

	elif target and current_sym:
	match = funcname_re.match(target)
	if match:
	## dump the "+address"
	target = match.group(1)
	if target == current_sym[0]:
	pass ## skip self-references
	else:
	current_sym[2].append (target)

	elif file and current_sym:
	if file.startswith('/usr/include'):
	## inlined libc thingy
	pass
	elif current_sym[0].startswith('.debug'):
	## debug info
	pass
	elif current_sym[3] and current_sym[3] != file:
	raise Exception ("%s in both %s and %s" % (current_sym[0], current_sym[3], file))
	else:
	current_sym[3] = file

	## now we need to find the roots (exported symbols)
	command = "nm -D %s" % filename
	print "Running: %s" % command
	f = os.popen(command)
	lines = f.readlines ()
	for l in lines:
	match = dynsym_re.search(l)
	if match:
	name = match.group(1)
	if roots.has_key(name):
	raise Exception("symbol %s exported twice?" % name)
	else:
	roots[name] = 1

	print "%d symbols exported from this object" % len(roots)

	## these functions are used only indirectly, so we don't
	## notice they are used. Manually add them as roots...
	vtable_roots = ['unix_finalize',
	'unix_handle_watch',
	'unix_disconnect',
	'unix_connection_set',
	'unix_do_iteration',
	'unix_live_messages_changed',
	'unix_get_unix_fd',
	'handle_client_data_cookie_sha1_mech',
	'handle_client_data_external_mech',
	'handle_server_data_cookie_sha1_mech',
	'handle_server_data_external_mech',
	'handle_client_initial_response_cookie_sha1_mech',
	'handle_client_initial_response_external_mech',
	'handle_client_shutdown_cookie_sha1_mech',
	'handle_client_shutdown_external_mech',
	'handle_server_shutdown_cookie_sha1_mech',
	'handle_server_shutdown_external_mech'
	]

	for vr in vtable_roots:
	if roots.has_key(vr):
	raise Exception("%s is already a root" % vr)
	roots[vr] = 1

	for k in roots.keys():
	markSymbol("root", k)

	for (k, v) in symbols.items():
	createBacklinks(k, v)

	print """

	The symbols mentioned below don't appear to be reachable starting from
	the dynamic exports of the library. However, this program is pretty
	dumb; a limitation that creates false positives is that it can only
	trace 'reachable' through hardcoded function calls, if a function is
	called only through a vtable, it won't be marked reachable (and
	neither will its children in the call graph).

	Also, the sizes mentioned are more or less completely bogus.

	"""

	print "The following are hardcoded in as vtable roots: %s" % vtable_roots

	printLost()

	if __name__ == "__main__":
	main()