#!/usr/bin/env python3 # Copyright (c) 2014 Wladimir J. van der Laan # Distributed under the MIT software license, see the accompanying # file COPYING or http://www.opensource.org/licenses/mit-license.php. ''' A script to check that the (Linux) executables produced by Gitian only contain allowed gcc and glibc version symbols. This makes sure they are still compatible with the minimum supported Linux distribution versions. Example usage: find ../gitian-builder/build -type f -executable | xargs python3 contrib/devtools/symbol-check.py ''' import subprocess import sys import os from typing import List, Optional import pixie # Debian 8 (Jessie) EOL: 2020. https://wiki.debian.org/DebianReleases#Production_Releases # # - g++ version 4.9.2 (https://packages.debian.org/search?suite=jessie&arch=any&searchon=names&keywords=g%2B%2B) # - libc version 2.19 (https://packages.debian.org/search?suite=jessie&arch=any&searchon=names&keywords=libc6) # # Ubuntu 16.04 (Xenial) EOL: 2024. https://wiki.ubuntu.com/Releases # # - g++ version 5.3.1 (https://packages.ubuntu.com/search?keywords=g%2B%2B&searchon=names&suite=xenial§ion=all) # - libc version 2.23.0 (https://packages.ubuntu.com/search?keywords=libc6&searchon=names&suite=xenial§ion=all) # # CentOS 7 EOL: 2024. https://wiki.centos.org/FAQ/General # # - g++ version 4.8.5 (http://mirror.centos.org/centos/7/os/x86_64/Packages/) # - libc version 2.17 (http://mirror.centos.org/centos/7/os/x86_64/Packages/) # # Taking the minimum of these as our target. # # According to GNU ABI document (https://gcc.gnu.org/onlinedocs/libstdc++/manual/abi.html) this corresponds to: # GCC 4.8.5: GCC_4.8.0 # (glibc) GLIBC_2_17 # MAX_VERSIONS = { 'GCC': (4,8,0), 'GLIBC': { pixie.EM_386: (2,17), pixie.EM_X86_64: (2,17), pixie.EM_ARM: (2,17), pixie.EM_AARCH64:(2,17), pixie.EM_PPC64: (2,17), pixie.EM_RISCV: (2,27), }, 'LIBATOMIC': (1,0), 'V': (0,5,0), # xkb (bitcoin-qt only) } # See here for a description of _IO_stdin_used: # https://bugs.debian.org/cgi-bin/bugreport.cgi?bug=634261#109 # Ignore symbols that are exported as part of every executable IGNORE_EXPORTS = { '_edata', '_end', '__end__', '_init', '__bss_start', '__bss_start__', '_bss_end__', '__bss_end__', '_fini', '_IO_stdin_used', 'stdin', 'stdout', 'stderr', 'environ', '_environ', '__environ', } CPPFILT_CMD = os.getenv('CPPFILT', '/usr/bin/c++filt') OTOOL_CMD = os.getenv('OTOOL', '/usr/bin/otool') # Allowed NEEDED libraries ELF_ALLOWED_LIBRARIES = { # dashd and dash-qt 'libgcc_s.so.1', # GCC base support 'libc.so.6', # C library 'libpthread.so.0', # threading 'libm.so.6', # math library 'librt.so.1', # real-time (clock) 'libatomic.so.1', 'ld-linux-x86-64.so.2', # 64-bit dynamic linker 'ld-linux.so.2', # 32-bit dynamic linker 'ld-linux-aarch64.so.1', # 64-bit ARM dynamic linker 'ld-linux-armhf.so.3', # 32-bit ARM dynamic linker 'ld64.so.1', # POWER64 ABIv1 dynamic linker 'ld64.so.2', # POWER64 ABIv2 dynamic linker 'ld-linux-riscv64-lp64d.so.1', # 64-bit RISC-V dynamic linker # dash-qt only 'libxcb.so.1', # part of X11 'libxkbcommon.so.0', # keyboard keymapping 'libxkbcommon-x11.so.0', # keyboard keymapping 'libfontconfig.so.1', # font support 'libfreetype.so.6', # font parsing 'libdl.so.2' # programming interface to dynamic linker } MACHO_ALLOWED_LIBRARIES = { # bitcoind and bitcoin-qt 'libc++.1.dylib', # C++ Standard Library 'libSystem.B.dylib', # libc, libm, libpthread, libinfo # bitcoin-qt only 'AppKit', # user interface 'ApplicationServices', # common application tasks. 'Carbon', # deprecated c back-compat API 'CoreFoundation', # low level func, data types 'CoreGraphics', # 2D rendering 'CoreServices', # operating system services 'CoreText', # interface for laying out text and handling fonts. 'CoreVideo', # video processing 'Foundation', # base layer functionality for apps/frameworks 'ImageIO', # read and write image file formats. 'IOKit', # user-space access to hardware devices and drivers. 'IOSurface', # cross process image/drawing buffers 'libobjc.A.dylib', # Objective-C runtime library 'Metal', # 3D graphics 'Security', # access control and authentication 'QuartzCore', # animation } class CPPFilt(object): ''' Demangle C++ symbol names. Use a pipe to the 'c++filt' command. ''' def __init__(self): self.proc = subprocess.Popen(CPPFILT_CMD, stdin=subprocess.PIPE, stdout=subprocess.PIPE, universal_newlines=True) def __call__(self, mangled): self.proc.stdin.write(mangled + '\n') self.proc.stdin.flush() return self.proc.stdout.readline().rstrip() def close(self): self.proc.stdin.close() self.proc.stdout.close() self.proc.wait() def check_version(max_versions, version, arch) -> bool: if '_' in version: (lib, _, ver) = version.rpartition('_') else: lib = version ver = '0' ver = tuple([int(x) for x in ver.split('.')]) if not lib in max_versions: return False if isinstance(max_versions[lib], tuple): return ver <= max_versions[lib] else: return ver <= max_versions[lib][arch] def check_imported_symbols(filename) -> bool: elf = pixie.load(filename) cppfilt = CPPFilt() ok = True for symbol in elf.dyn_symbols: if not symbol.is_import: continue sym = symbol.name.decode() version = symbol.version.decode() if symbol.version is not None else None if version and not check_version(MAX_VERSIONS, version, elf.hdr.e_machine): print('{}: symbol {} from unsupported version {}'.format(filename, cppfilt(sym), version)) ok = False return ok def check_exported_symbols(filename) -> bool: elf = pixie.load(filename) cppfilt = CPPFilt() ok = True for symbol in elf.dyn_symbols: if not symbol.is_export: continue sym = symbol.name.decode() if elf.hdr.e_machine == pixie.EM_RISCV or sym in IGNORE_EXPORTS: continue print('{}: export of symbol {} not allowed'.format(filename, cppfilt(sym))) ok = False return ok def check_ELF_libraries(filename) -> bool: ok = True elf = pixie.load(filename) for library_name in elf.query_dyn_tags(pixie.DT_NEEDED): assert(isinstance(library_name, bytes)) if library_name.decode() not in ELF_ALLOWED_LIBRARIES: print('{}: NEEDED library {} is not allowed'.format(filename, library_name.decode())) ok = False return ok def macho_read_libraries(filename) -> List[str]: p = subprocess.Popen([OTOOL_CMD, '-L', filename], stdout=subprocess.PIPE, stderr=subprocess.PIPE, stdin=subprocess.PIPE, universal_newlines=True) (stdout, stderr) = p.communicate() if p.returncode: raise IOError('Error opening file') libraries = [] for line in stdout.splitlines(): tokens = line.split() if len(tokens) == 1: # skip executable name continue libraries.append(tokens[0].split('/')[-1]) return libraries def check_MACHO_libraries(filename) -> bool: ok = True for dylib in macho_read_libraries(filename): if dylib not in MACHO_ALLOWED_LIBRARIES: print('{} is not in ALLOWED_LIBRARIES!'.format(dylib)) ok = False return ok CHECKS = { 'ELF': [ ('IMPORTED_SYMBOLS', check_imported_symbols), ('EXPORTED_SYMBOLS', check_exported_symbols), ('LIBRARY_DEPENDENCIES', check_ELF_libraries) ], 'MACHO': [ ('DYNAMIC_LIBRARIES', check_MACHO_libraries) ] } def identify_executable(executable) -> Optional[str]: with open(filename, 'rb') as f: magic = f.read(4) if magic.startswith(b'MZ'): return 'PE' elif magic.startswith(b'\x7fELF'): return 'ELF' elif magic.startswith(b'\xcf\xfa'): return 'MACHO' return None if __name__ == '__main__': retval = 0 for filename in sys.argv[1:]: try: etype = identify_executable(filename) if etype is None: print('{}: unknown format'.format(filename)) retval = 1 continue failed = [] for (name, func) in CHECKS[etype]: if not func(filename): failed.append(name) if failed: print('{}: failed {}'.format(filename, ' '.join(failed))) retval = 1 except IOError: print('{}: cannot open'.format(filename)) retval = 1 sys.exit(retval)