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#===----------------------------------------------------------------------===##
#
# The LLVM Compiler Infrastructure
#
# This file is dual licensed under the MIT and the University of Illinois Open
# Source Licenses. See LICENSE.TXT for details.
#
#===----------------------------------------------------------------------===##
import ast
import distutils.spawn
import sys
import re
import libcxx.util
def read_syms_from_list(slist):
"""
Read a list of symbols from a list of strings.
Each string is one symbol.
"""
return [ast.literal_eval(l) for l in slist]
def read_syms_from_file(filename):
"""
Read a list of symbols in from a file.
"""
with open(filename, 'r') as f:
data = f.read()
return read_syms_from_list(data.splitlines())
def read_blacklist(filename):
with open(filename, 'r') as f:
data = f.read()
lines = [l.strip() for l in data.splitlines() if l.strip()]
lines = [l for l in lines if not l.startswith('#')]
return lines
def write_syms(sym_list, out=None, names_only=False):
"""
Write a list of symbols to the file named by out.
"""
out_str = ''
out_list = sym_list
out_list.sort(key=lambda x: x['name'])
if names_only:
out_list = [sym['name'] for sym in sym_list]
for sym in out_list:
out_str += '%s\n' % sym
if out is None:
sys.stdout.write(out_str)
else:
with open(out, 'w') as f:
f.write(out_str)
_cppfilt_exe = distutils.spawn.find_executable('c++filt')
def demangle_symbol(symbol):
if _cppfilt_exe is None:
return symbol
out, _, exit_code = libcxx.util.executeCommandVerbose(
[_cppfilt_exe], input=symbol)
if exit_code != 0:
return symbol
return out
def is_elf(filename):
with open(filename, 'rb') as f:
magic_bytes = f.read(4)
return magic_bytes == b'\x7fELF'
def is_mach_o(filename):
with open(filename, 'rb') as f:
magic_bytes = f.read(4)
return magic_bytes in [
'\xfe\xed\xfa\xce', # MH_MAGIC
'\xce\xfa\xed\xfe', # MH_CIGAM
'\xfe\xed\xfa\xcf', # MH_MAGIC_64
'\xcf\xfa\xed\xfe', # MH_CIGAM_64
'\xca\xfe\xba\xbe', # FAT_MAGIC
'\xbe\xba\xfe\xca' # FAT_CIGAM
]
def is_library_file(filename):
if sys.platform == 'darwin':
return is_mach_o(filename)
else:
return is_elf(filename)
def extract_or_load(filename):
import libcxx.sym_check.extract
if is_library_file(filename):
return libcxx.sym_check.extract.extract_symbols(filename)
return read_syms_from_file(filename)
def adjust_mangled_name(name):
if not name.startswith('__Z'):
return name
return name[1:]
new_delete_std_symbols = [
'_Znam',
'_Znwm',
'_ZdaPv',
'_ZdaPvm',
'_ZdlPv',
'_ZdlPvm'
]
cxxabi_symbols = [
'___dynamic_cast',
'___gxx_personality_v0',
'_ZTIDi',
'_ZTIDn',
'_ZTIDs',
'_ZTIPDi',
'_ZTIPDn',
'_ZTIPDs',
'_ZTIPKDi',
'_ZTIPKDn',
'_ZTIPKDs',
'_ZTIPKa',
'_ZTIPKb',
'_ZTIPKc',
'_ZTIPKd',
'_ZTIPKe',
'_ZTIPKf',
'_ZTIPKh',
'_ZTIPKi',
'_ZTIPKj',
'_ZTIPKl',
'_ZTIPKm',
'_ZTIPKs',
'_ZTIPKt',
'_ZTIPKv',
'_ZTIPKw',
'_ZTIPKx',
'_ZTIPKy',
'_ZTIPa',
'_ZTIPb',
'_ZTIPc',
'_ZTIPd',
'_ZTIPe',
'_ZTIPf',
'_ZTIPh',
'_ZTIPi',
'_ZTIPj',
'_ZTIPl',
'_ZTIPm',
'_ZTIPs',
'_ZTIPt',
'_ZTIPv',
'_ZTIPw',
'_ZTIPx',
'_ZTIPy',
'_ZTIa',
'_ZTIb',
'_ZTIc',
'_ZTId',
'_ZTIe',
'_ZTIf',
'_ZTIh',
'_ZTIi',
'_ZTIj',
'_ZTIl',
'_ZTIm',
'_ZTIs',
'_ZTIt',
'_ZTIv',
'_ZTIw',
'_ZTIx',
'_ZTIy',
'_ZTSDi',
'_ZTSDn',
'_ZTSDs',
'_ZTSPDi',
'_ZTSPDn',
'_ZTSPDs',
'_ZTSPKDi',
'_ZTSPKDn',
'_ZTSPKDs',
'_ZTSPKa',
'_ZTSPKb',
'_ZTSPKc',
'_ZTSPKd',
'_ZTSPKe',
'_ZTSPKf',
'_ZTSPKh',
'_ZTSPKi',
'_ZTSPKj',
'_ZTSPKl',
'_ZTSPKm',
'_ZTSPKs',
'_ZTSPKt',
'_ZTSPKv',
'_ZTSPKw',
'_ZTSPKx',
'_ZTSPKy',
'_ZTSPa',
'_ZTSPb',
'_ZTSPc',
'_ZTSPd',
'_ZTSPe',
'_ZTSPf',
'_ZTSPh',
'_ZTSPi',
'_ZTSPj',
'_ZTSPl',
'_ZTSPm',
'_ZTSPs',
'_ZTSPt',
'_ZTSPv',
'_ZTSPw',
'_ZTSPx',
'_ZTSPy',
'_ZTSa',
'_ZTSb',
'_ZTSc',
'_ZTSd',
'_ZTSe',
'_ZTSf',
'_ZTSh',
'_ZTSi',
'_ZTSj',
'_ZTSl',
'_ZTSm',
'_ZTSs',
'_ZTSt',
'_ZTSv',
'_ZTSw',
'_ZTSx',
'_ZTSy'
]
def is_stdlib_symbol_name(name):
name = adjust_mangled_name(name)
if re.search("@GLIBC|@GCC", name):
return False
if re.search('(St[0-9])|(__cxa)|(__cxxabi)', name):
return True
if name in new_delete_std_symbols:
return True
if name in cxxabi_symbols:
return True
if name.startswith('_Z'):
return True
return False
def filter_stdlib_symbols(syms):
stdlib_symbols = []
other_symbols = []
for s in syms:
canon_name = adjust_mangled_name(s['name'])
if not is_stdlib_symbol_name(canon_name):
assert not s['is_defined'] and "found defined non-std symbol"
other_symbols += [s]
else:
stdlib_symbols += [s]
return stdlib_symbols, other_symbols