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262 lines
8.2 KiB
Python
Executable File
262 lines
8.2 KiB
Python
Executable File
#!/usr/bin/env python3
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# Copyright (c) 2015-2020 The Bitcoin Core developers
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# Distributed under the MIT software license, see the accompanying
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# file COPYING or http://www.opensource.org/licenses/mit-license.php.
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'''
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Perform basic security checks on a series of executables.
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Exit status will be 0 if successful, and the program will be silent.
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Otherwise the exit status will be 1 and it will log which executables failed which checks.
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'''
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import sys
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from typing import List, Optional
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import lief
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import pixie
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def check_ELF_PIE(executable) -> bool:
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'''
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Check for position independent executable (PIE), allowing for address space randomization.
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'''
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elf = pixie.load(executable)
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return elf.hdr.e_type == pixie.ET_DYN
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def check_ELF_NX(executable) -> bool:
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'''
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Check that no sections are writable and executable (including the stack)
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'''
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elf = pixie.load(executable)
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have_wx = False
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have_gnu_stack = False
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for ph in elf.program_headers:
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if ph.p_type == pixie.PT_GNU_STACK:
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have_gnu_stack = True
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if (ph.p_flags & pixie.PF_W) != 0 and (ph.p_flags & pixie.PF_X) != 0: # section is both writable and executable
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have_wx = True
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return have_gnu_stack and not have_wx
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def check_ELF_RELRO(executable) -> bool:
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'''
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Check for read-only relocations.
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GNU_RELRO program header must exist
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Dynamic section must have BIND_NOW flag
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'''
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elf = pixie.load(executable)
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have_gnu_relro = False
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for ph in elf.program_headers:
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# Note: not checking p_flags == PF_R: here as linkers set the permission differently
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# This does not affect security: the permission flags of the GNU_RELRO program
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# header are ignored, the PT_LOAD header determines the effective permissions.
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# However, the dynamic linker need to write to this area so these are RW.
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# Glibc itself takes care of mprotecting this area R after relocations are finished.
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# See also https://marc.info/?l=binutils&m=1498883354122353
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if ph.p_type == pixie.PT_GNU_RELRO:
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have_gnu_relro = True
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have_bindnow = False
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for flags in elf.query_dyn_tags(pixie.DT_FLAGS):
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assert isinstance(flags, int)
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if flags & pixie.DF_BIND_NOW:
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have_bindnow = True
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return have_gnu_relro and have_bindnow
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def check_ELF_Canary(executable) -> bool:
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'''
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Check for use of stack canary
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'''
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elf = pixie.load(executable)
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ok = False
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for symbol in elf.dyn_symbols:
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if symbol.name == b'__stack_chk_fail':
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ok = True
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return ok
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def check_ELF_separate_code(executable):
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'''
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Check that sections are appropriately separated in virtual memory,
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based on their permissions. This checks for missing -Wl,-z,separate-code
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and potentially other problems.
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'''
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elf = pixie.load(executable)
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R = pixie.PF_R
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W = pixie.PF_W
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E = pixie.PF_X
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EXPECTED_FLAGS = {
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# Read + execute
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b'.init': R | E,
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b'.plt': R | E,
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b'.plt.got': R | E,
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b'.plt.sec': R | E,
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b'.text': R | E,
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b'.fini': R | E,
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# Read-only data
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b'.interp': R,
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b'.note.gnu.property': R,
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b'.note.gnu.build-id': R,
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b'.note.ABI-tag': R,
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b'.gnu.hash': R,
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b'.dynsym': R,
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b'.dynstr': R,
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b'.gnu.version': R,
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b'.gnu.version_r': R,
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b'.rela.dyn': R,
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b'.rela.plt': R,
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b'.rodata': R,
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b'.eh_frame_hdr': R,
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b'.eh_frame': R,
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b'.qtmetadata': R,
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b'.gcc_except_table': R,
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b'.stapsdt.base': R,
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# Writable data
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b'.init_array': R | W,
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b'.fini_array': R | W,
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b'.dynamic': R | W,
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b'.got': R | W,
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b'.data': R | W,
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b'.bss': R | W,
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}
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if elf.hdr.e_machine == pixie.EM_PPC64:
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# .plt is RW on ppc64 even with separate-code
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EXPECTED_FLAGS[b'.plt'] = R | W
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# For all LOAD program headers get mapping to the list of sections,
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# and for each section, remember the flags of the associated program header.
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flags_per_section = {}
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for ph in elf.program_headers:
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if ph.p_type == pixie.PT_LOAD:
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for section in ph.sections:
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assert(section.name not in flags_per_section)
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flags_per_section[section.name] = ph.p_flags
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# Spot-check ELF LOAD program header flags per section
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# If these sections exist, check them against the expected R/W/E flags
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for (section, flags) in flags_per_section.items():
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if section in EXPECTED_FLAGS:
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if EXPECTED_FLAGS[section] != flags:
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return False
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return True
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def check_PE_DYNAMIC_BASE(executable) -> bool:
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'''PIE: DllCharacteristics bit 0x40 signifies dynamicbase (ASLR)'''
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binary = lief.parse(executable)
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return lief.PE.DLL_CHARACTERISTICS.DYNAMIC_BASE in binary.optional_header.dll_characteristics_lists
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# Must support high-entropy 64-bit address space layout randomization
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# in addition to DYNAMIC_BASE to have secure ASLR.
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def check_PE_HIGH_ENTROPY_VA(executable) -> bool:
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'''PIE: DllCharacteristics bit 0x20 signifies high-entropy ASLR'''
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binary = lief.parse(executable)
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return lief.PE.DLL_CHARACTERISTICS.HIGH_ENTROPY_VA in binary.optional_header.dll_characteristics_lists
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def check_PE_RELOC_SECTION(executable) -> bool:
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'''Check for a reloc section. This is required for functional ASLR.'''
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binary = lief.parse(executable)
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return binary.has_relocations
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def check_MACHO_NOUNDEFS(executable) -> bool:
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'''
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Check for no undefined references.
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'''
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binary = lief.parse(executable)
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return binary.header.has(lief.MachO.HEADER_FLAGS.NOUNDEFS)
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def check_MACHO_LAZY_BINDINGS(executable) -> bool:
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'''
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Check for no lazy bindings.
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We don't use or check for MH_BINDATLOAD. See #18295.
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'''
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binary = lief.parse(executable)
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return binary.dyld_info.lazy_bind == (0,0)
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def check_MACHO_Canary(executable) -> bool:
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'''
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Check for use of stack canary
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'''
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binary = lief.parse(executable)
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return binary.has_symbol('___stack_chk_fail')
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def check_PIE(executable) -> bool:
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'''
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Check for position independent executable (PIE),
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allowing for address space randomization.
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'''
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binary = lief.parse(executable)
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return binary.is_pie
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def check_NX(executable) -> bool:
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'''
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Check for no stack execution
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'''
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binary = lief.parse(executable)
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return binary.has_nx
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def check_control_flow(executable) -> bool:
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'''
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Check for control flow instrumentation
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'''
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binary = lief.parse(executable)
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content = binary.get_content_from_virtual_address(binary.entrypoint, 4, lief.Binary.VA_TYPES.AUTO)
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if content == [243, 15, 30, 250]: # endbr64
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return True
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return False
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CHECKS = {
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'ELF': [
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('PIE', check_ELF_PIE),
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('NX', check_ELF_NX),
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('RELRO', check_ELF_RELRO),
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('Canary', check_ELF_Canary),
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('separate_code', check_ELF_separate_code),
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],
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'PE': [
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('PIE', check_PIE),
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('DYNAMIC_BASE', check_PE_DYNAMIC_BASE),
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('HIGH_ENTROPY_VA', check_PE_HIGH_ENTROPY_VA),
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('NX', check_NX),
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('RELOC_SECTION', check_PE_RELOC_SECTION)
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],
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'MACHO': [
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('PIE', check_PIE),
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('NOUNDEFS', check_MACHO_NOUNDEFS),
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('NX', check_NX),
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('LAZY_BINDINGS', check_MACHO_LAZY_BINDINGS),
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('Canary', check_MACHO_Canary),
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('CONTROL_FLOW', check_control_flow),
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]
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}
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def identify_executable(executable) -> Optional[str]:
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with open(filename, 'rb') as f:
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magic = f.read(4)
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if magic.startswith(b'MZ'):
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return 'PE'
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elif magic.startswith(b'\x7fELF'):
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return 'ELF'
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elif magic.startswith(b'\xcf\xfa'):
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return 'MACHO'
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return None
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if __name__ == '__main__':
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retval: int = 0
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for filename in sys.argv[1:]:
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try:
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etype = identify_executable(filename)
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if etype is None:
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print(f'{filename}: unknown format')
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retval = 1
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continue
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failed: List[str] = []
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for (name, func) in CHECKS[etype]:
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if not func(filename):
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failed.append(name)
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if failed:
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print(f'{filename}: failed {" ".join(failed)}')
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retval = 1
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except IOError:
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print(f'{filename}: cannot open')
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retval = 1
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sys.exit(retval)
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