# Copyright 2013-2016 The Meson development team
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
# http://www.apache.org/licenses/LICENSE-2.0
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
# This script extracts the symbols of a given shared library
# into a file. If the symbols have not changed, the file is not
# touched. This information is used to skip link steps if the
# ABI has not changed.
# This file is basically a reimplementation of
# http://cgit.freedesktop.org/libreoffice/core/commit/?id=3213cd54b76bc80a6f0516aac75a48ff3b2ad67c
import typing as T
import os, sys
from .. import mesonlib
from .. import mlog
from ..mesonlib import Popen_safe
import argparse
parser = argparse.ArgumentParser()
parser.add_argument('--cross-host', default=None, dest='cross_host',
help='cross compilation host platform')
parser.add_argument('args', nargs='+')
TOOL_WARNING_FILE = None
RELINKING_WARNING = 'Relinking will always happen on source changes.'
def dummy_syms(outfilename: str):
"""Just touch it so relinking happens always."""
with open(outfilename, 'w'):
pass
def write_if_changed(text: str, outfilename: str):
try:
with open(outfilename, 'r') as f:
oldtext = f.read()
if text == oldtext:
return
except FileNotFoundError:
pass
with open(outfilename, 'w') as f:
f.write(text)
def print_tool_warning(tool: list, msg: str, stderr: str = None):
global TOOL_WARNING_FILE
if os.path.exists(TOOL_WARNING_FILE):
return
if len(tool) == 1:
tool = tool[0]
m = '{!r} {}. {}'.format(tool, msg, RELINKING_WARNING)
if stderr:
m += '\n' + stderr
mlog.warning(m)
# Write it out so we don't warn again
with open(TOOL_WARNING_FILE, 'w'):
pass
def get_tool(name: str) -> T.List[str]:
evar = name.upper()
if evar in os.environ:
import shlex
return shlex.split(os.environ[evar])
return [name]
def call_tool(name: str, args: T.List[str], **kwargs) -> str:
tool = get_tool(name)
try:
p, output, e = Popen_safe(tool + args, **kwargs)
except FileNotFoundError:
print_tool_warning(tool, 'not found')
return None
if p.returncode != 0:
print_tool_warning(tool, 'does not work', e)
return None
return output
def call_tool_nowarn(tool: T.List[str], **kwargs) -> T.Tuple[str, str]:
try:
p, output, e = Popen_safe(tool, **kwargs)
except FileNotFoundError:
return None, '{!r} not found\n'.format(tool[0])
if p.returncode != 0:
return None, e
return output, None
def gnu_syms(libfilename: str, outfilename: str):
# Get the name of the library
output = call_tool('readelf', ['-d', libfilename])
if not output:
dummy_syms(outfilename)
return
result = [x for x in output.split('\n') if 'SONAME' in x]
assert(len(result) <= 1)
# Get a list of all symbols exported
output = call_tool('nm', ['--dynamic', '--extern-only', '--defined-only',
'--format=posix', libfilename])
if not output:
dummy_syms(outfilename)
return
for line in output.split('\n'):
if not line:
continue
line_split = line.split()
entry = line_split[0:2]
# Store the size of symbols pointing to data objects so we relink
# when those change, which is needed because of copy relocations
# https://github.com/mesonbuild/meson/pull/7132#issuecomment-628353702
if line_split[1].upper() in ('B', 'G', 'D') and len(line_split) >= 4:
entry += [line_split[3]]
result += [' '.join(entry)]
write_if_changed('\n'.join(result) + '\n', outfilename)
def solaris_syms(libfilename: str, outfilename: str):
# gnu_syms() works with GNU nm & readelf, not Solaris nm & elfdump
origpath = os.environ['PATH']
try:
os.environ['PATH'] = '/usr/gnu/bin:' + origpath
gnu_syms(libfilename, outfilename)
finally:
os.environ['PATH'] = origpath
def osx_syms(libfilename: str, outfilename: str):
# Get the name of the library
output = call_tool('otool', ['-l', libfilename])
if not output:
dummy_syms(outfilename)
return
arr = output.split('\n')
for (i, val) in enumerate(arr):
if 'LC_ID_DYLIB' in val:
match = i
break
result = [arr[match + 2], arr[match + 5]] # Libreoffice stores all 5 lines but the others seem irrelevant.
# Get a list of all symbols exported
output = call_tool('nm', ['--extern-only', '--defined-only',
'--format=posix', libfilename])
if not output:
dummy_syms(outfilename)
return
result += [' '.join(x.split()[0:2]) for x in output.split('\n')]
write_if_changed('\n'.join(result) + '\n', outfilename)
def openbsd_syms(libfilename: str, outfilename: str):
# Get the name of the library
output = call_tool('readelf', ['-d', libfilename])
if not output:
dummy_syms(outfilename)
return
result = [x for x in output.split('\n') if 'SONAME' in x]
assert(len(result) <= 1)
# Get a list of all symbols exported
output = call_tool('nm', ['-D', '-P', '-g', libfilename])
if not output:
dummy_syms(outfilename)
return
# U = undefined (cope with the lack of --defined-only option)
result += [' '.join(x.split()[0:2]) for x in output.split('\n') if x and not x.endswith('U ')]
write_if_changed('\n'.join(result) + '\n', outfilename)
def cygwin_syms(impfilename: str, outfilename: str):
# Get the name of the library
output = call_tool('dlltool', ['-I', impfilename])
if not output:
dummy_syms(outfilename)
return
result = [output]
# Get the list of all symbols exported
output = call_tool('nm', ['--extern-only', '--defined-only',
'--format=posix', impfilename])
if not output:
dummy_syms(outfilename)
return
for line in output.split('\n'):
if ' T ' not in line:
continue
result.append(line.split(maxsplit=1)[0])
write_if_changed('\n'.join(result) + '\n', outfilename)
def _get_implib_dllname(impfilename: str) -> T.Tuple[T.List[str], str]:
all_stderr = ''
# First try lib.exe, which is provided by MSVC. Then llvm-lib.exe, by LLVM
# for clang-cl.
#
# We cannot call get_tool on `lib` because it will look at the `LIB` env
# var which is the list of library paths MSVC will search for import
# libraries while linking.
for lib in (['lib'], get_tool('llvm-lib')):
output, e = call_tool_nowarn(lib + ['-list', impfilename])
if output:
# The output is a list of DLLs that each symbol exported by the import
# library is available in. We only build import libraries that point to
# a single DLL, so we can pick any of these. Pick the last one for
# simplicity. Also skip the last line, which is empty.
return output.split('\n')[-2:-1], None
all_stderr += e
# Next, try dlltool.exe which is provided by MinGW
output, e = call_tool_nowarn(get_tool('dlltool') + ['-I', impfilename])
if output:
return [output], None
all_stderr += e
return ([], all_stderr)
def _get_implib_exports(impfilename: str) -> T.Tuple[T.List[str], str]:
all_stderr = ''
# Force dumpbin.exe to use en-US so we can parse its output
env = os.environ.copy()
env['VSLANG'] = '1033'
output, e = call_tool_nowarn(get_tool('dumpbin') + ['-exports', impfilename], env=env)
if output:
lines = output.split('\n')
start = lines.index('File Type: LIBRARY')
end = lines.index(' Summary')
return lines[start:end], None
all_stderr += e
# Next, try llvm-nm.exe provided by LLVM, then nm.exe provided by MinGW
for nm in ('llvm-nm', 'nm'):
output, e = call_tool_nowarn(get_tool(nm) + ['--extern-only', '--defined-only',
'--format=posix', impfilename])
if output:
result = []
for line in output.split('\n'):
if ' T ' not in line or line.startswith('.text'):
continue
result.append(line.split(maxsplit=1)[0])
return result, None
all_stderr += e
return ([], all_stderr)
def windows_syms(impfilename: str, outfilename: str):
# Get the name of the library
result, e = _get_implib_dllname(impfilename)
if not result:
print_tool_warning('lib, llvm-lib, dlltool', 'do not work or were not found', e)
dummy_syms(outfilename)
return
# Get a list of all symbols exported
symbols, e = _get_implib_exports(impfilename)
if not symbols:
print_tool_warning('dumpbin, llvm-nm, nm', 'do not work or were not found', e)
dummy_syms(outfilename)
return
result += symbols
write_if_changed('\n'.join(result) + '\n', outfilename)
def gen_symbols(libfilename: str, impfilename: str, outfilename: str, cross_host: str):
if cross_host is not None:
# In case of cross builds just always relink. In theory we could
# determine the correct toolset, but we would need to use the correct
# `nm`, `readelf`, etc, from the cross info which requires refactoring.
dummy_syms(outfilename)
elif mesonlib.is_linux() or mesonlib.is_hurd():
gnu_syms(libfilename, outfilename)
elif mesonlib.is_osx():
osx_syms(libfilename, outfilename)
elif mesonlib.is_openbsd():
openbsd_syms(libfilename, outfilename)
elif mesonlib.is_windows():
if os.path.isfile(impfilename):
windows_syms(impfilename, outfilename)
else:
# No import library. Not sure how the DLL is being used, so just
# rebuild everything that links to it every time.
dummy_syms(outfilename)
elif mesonlib.is_cygwin():
if os.path.isfile(impfilename):
cygwin_syms(impfilename, outfilename)
else:
# No import library. Not sure how the DLL is being used, so just
# rebuild everything that links to it every time.
dummy_syms(outfilename)
elif mesonlib.is_sunos():
solaris_syms(libfilename, outfilename)
else:
if not os.path.exists(TOOL_WARNING_FILE):
mlog.warning('Symbol extracting has not been implemented for this '
'platform. ' + RELINKING_WARNING)
# Write it out so we don't warn again
with open(TOOL_WARNING_FILE, 'w'):
pass
dummy_syms(outfilename)
def run(args):
global TOOL_WARNING_FILE
options = parser.parse_args(args)
if len(options.args) != 4:
print('symbolextractor.py <shared library file> <import library> <output file>')
sys.exit(1)
privdir = os.path.join(options.args[0], 'meson-private')
TOOL_WARNING_FILE = os.path.join(privdir, 'symbolextractor_tool_warning_printed')
libfile = options.args[1]
impfile = options.args[2] # Only used on Windows
outfile = options.args[3]
gen_symbols(libfile, impfile, outfile, options.cross_host)
return 0
if __name__ == '__main__':
sys.exit(run(sys.argv[1:]))