#!/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) release executables only contain certain symbols and are only linked against allowed libraries. Example usage: find ../path/to/binaries -type f -executable | xargs python3 contrib/devtools/symbol-check.py ''' import sys from typing import Dict, List import lief # Debian 11 (Bullseye) EOL: est. 2026 https://wiki.debian.org/LTS # # - libgcc version 10.2.1 (https://packages.debian.org/search?suite=bullseye&arch=any&searchon=names&keywords=libgcc-s1) # - libc version 2.31 (https://packages.debian.org/search?suite=bullseye&arch=any&searchon=names&keywords=libc6) # # Ubuntu 20.04 (Focal) EOL: 2030. https://wiki.ubuntu.com/ReleaseTeam # # - libgcc version 10.3.0 (https://packages.ubuntu.com/focal/libgcc1) # - libc version 2.31 (https://packages.ubuntu.com/focal/libc6) # # CentOS Stream 9 EOL: est. 2027 https://www.centos.org/cl-vs-cs # # - libgcc version 12.2.1 (https://mirror.stream.centos.org/9-stream/AppStream/x86_64/os/Packages) # - libc version 2.34 (https://mirror.stream.centos.org/9-stream/AppStream/x86_64/os/Packages) # # See https://gcc.gnu.org/onlinedocs/libstdc++/manual/abi.html for more info. MAX_VERSIONS = { 'GCC': (4,3,0), 'GLIBC': { lief.ELF.ARCH.x86_64: (2,31), lief.ELF.ARCH.ARM: (2,31), lief.ELF.ARCH.AARCH64:(2,31), lief.ELF.ARCH.PPC64: (2,31), lief.ELF.ARCH.RISCV: (2,31), }, 'LIBATOMIC': (1,0), 'V': (0,5,0), # xkb (bitcoin-qt only) } # 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', # Used in stacktraces.cpp '__cxa_demangle' } # Expected linker-loader names can be found here: # https://sourceware.org/glibc/wiki/ABIList?action=recall&rev=16 ELF_INTERPRETER_NAMES: Dict[lief.ELF.ARCH, Dict[lief.ENDIANNESS, str]] = { lief.ELF.ARCH.x86_64: { lief.ENDIANNESS.LITTLE: "/lib64/ld-linux-x86-64.so.2", }, lief.ELF.ARCH.ARM: { lief.ENDIANNESS.LITTLE: "/lib/ld-linux-armhf.so.3", }, lief.ELF.ARCH.AARCH64: { lief.ENDIANNESS.LITTLE: "/lib/ld-linux-aarch64.so.1", }, lief.ELF.ARCH.PPC64: { lief.ENDIANNESS.BIG: "/lib64/ld64.so.1", lief.ENDIANNESS.LITTLE: "/lib64/ld64.so.2", }, lief.ELF.ARCH.RISCV: { lief.ENDIANNESS.LITTLE: "/lib/ld-linux-riscv64-lp64d.so.1", }, } ELF_ABIS: Dict[lief.ELF.ARCH, Dict[lief.ENDIANNESS, List[int]]] = { lief.ELF.ARCH.x86_64: { lief.ENDIANNESS.LITTLE: [3,2,0], }, lief.ELF.ARCH.ARM: { lief.ENDIANNESS.LITTLE: [3,2,0], }, lief.ELF.ARCH.AARCH64: { lief.ENDIANNESS.LITTLE: [3,7,0], }, lief.ELF.ARCH.PPC64: { lief.ENDIANNESS.LITTLE: [3,10,0], lief.ENDIANNESS.BIG: [3,2,0], }, lief.ELF.ARCH.RISCV: { lief.ENDIANNESS.LITTLE: [4,15,0], }, } # 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 'libz.so.1', # zlib # dash-qt only 'libxcb.so.1', # part of X11 'libxcb-shm.so.0', # X11 shared memory extension '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 'libxcb-icccm.so.4', 'libxcb-image.so.0', 'libxcb-shm.so.0', 'libxcb-keysyms.so.1', 'libxcb-randr.so.0', 'libxcb-render-util.so.0', 'libxcb-render.so.0', 'libxcb-shape.so.0', 'libxcb-sync.so.1', 'libxcb-xfixes.so.0', 'libxcb-xinerama.so.0', 'libxcb-xkb.so.1', } 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 'ColorSync', '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 } PE_ALLOWED_LIBRARIES = { 'ADVAPI32.dll', # security & registry 'IPHLPAPI.DLL', # IP helper API 'KERNEL32.dll', # win32 base APIs 'msvcrt.dll', # C standard library for MSVC 'SHELL32.dll', # shell API 'WS2_32.dll', # sockets 'bcrypt.dll', # bitcoin-qt only 'dwmapi.dll', # desktop window manager 'GDI32.dll', # graphics device interface 'IMM32.dll', # input method editor 'NETAPI32.dll', # network management 'ole32.dll', # component object model 'OLEAUT32.dll', # OLE Automation API 'SHLWAPI.dll', # light weight shell API 'USER32.dll', # user interface 'USERENV.dll', # user management 'UxTheme.dll', # visual style 'VERSION.dll', # version checking 'WINMM.dll', # WinMM audio API 'WTSAPI32.dll', # Remote Desktop } def check_version(max_versions, version, arch) -> bool: (lib, _, ver) = version.rpartition('_') 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(binary) -> bool: ok: bool = True for symbol in binary.imported_symbols: if not symbol.imported: continue version = symbol.symbol_version if symbol.has_version else None if version: aux_version = version.symbol_version_auxiliary.name if version.has_auxiliary_version else None if aux_version and not check_version(MAX_VERSIONS, aux_version, binary.header.machine_type): print(f'{filename}: symbol {symbol.name} from unsupported version {version}') ok = False return ok def check_exported_symbols(binary) -> bool: ok: bool = True for symbol in binary.dynamic_symbols: if not symbol.exported: continue name = symbol.name if binary.header.machine_type == lief.ELF.ARCH.RISCV or name in IGNORE_EXPORTS: continue print(f'{binary.name}: export of symbol {name} not allowed!') ok = False return ok def check_ELF_libraries(binary) -> bool: ok: bool = True for library in binary.libraries: if library not in ELF_ALLOWED_LIBRARIES: print(f'{filename}: {library} is not in ALLOWED_LIBRARIES!') ok = False return ok def check_MACHO_libraries(binary) -> bool: ok: bool = True for dylib in binary.libraries: split = dylib.name.split('/') if split[-1] not in MACHO_ALLOWED_LIBRARIES: print(f'{split[-1]} is not in ALLOWED_LIBRARIES!') ok = False return ok def check_MACHO_min_os(binary) -> bool: if binary.build_version.minos == [10,15,0]: return True return False def check_MACHO_sdk(binary) -> bool: if binary.build_version.sdk == [11, 0, 0]: return True return False def check_PE_libraries(binary) -> bool: ok: bool = True for dylib in binary.libraries: if dylib not in PE_ALLOWED_LIBRARIES: print(f'{dylib} is not in ALLOWED_LIBRARIES!') ok = False return ok def check_PE_subsystem_version(binary) -> bool: major: int = binary.optional_header.major_subsystem_version minor: int = binary.optional_header.minor_subsystem_version if major == 6 and minor == 1: return True return False def check_ELF_interpreter(binary) -> bool: expected_interpreter = ELF_INTERPRETER_NAMES[binary.header.machine_type][binary.abstract.header.endianness] return binary.concrete.interpreter == expected_interpreter def check_ELF_ABI(binary) -> bool: expected_abi = ELF_ABIS[binary.header.machine_type][binary.abstract.header.endianness] note = binary.concrete.get(lief.ELF.NOTE_TYPES.ABI_TAG) assert note.details.abi == lief.ELF.NOTE_ABIS.LINUX return note.details.version == expected_abi CHECKS = { lief.EXE_FORMATS.ELF: [ ('IMPORTED_SYMBOLS', check_imported_symbols), ('EXPORTED_SYMBOLS', check_exported_symbols), ('LIBRARY_DEPENDENCIES', check_ELF_libraries), ('INTERPRETER_NAME', check_ELF_interpreter), ('ABI', check_ELF_ABI), ], lief.EXE_FORMATS.MACHO: [ ('DYNAMIC_LIBRARIES', check_MACHO_libraries), ('MIN_OS', check_MACHO_min_os), ('SDK', check_MACHO_sdk), ], lief.EXE_FORMATS.PE: [ ('DYNAMIC_LIBRARIES', check_PE_libraries), ('SUBSYSTEM_VERSION', check_PE_subsystem_version), ] } if __name__ == '__main__': retval: int = 0 for filename in sys.argv[1:]: try: binary = lief.parse(filename) etype = binary.format if etype == lief.EXE_FORMATS.UNKNOWN: print(f'{filename}: unknown executable format') retval = 1 continue failed: List[str] = [] for (name, func) in CHECKS[etype]: if not func(binary): failed.append(name) if failed: print(f'{filename}: failed {" ".join(failed)}') retval = 1 except IOError: print(f'{filename}: cannot open') retval = 1 sys.exit(retval)