#!/usr/bin/env python # -*- coding: utf-8 -*- # Description # ----------- # Print information about a Mach-O binary import sys import os import argparse import traceback import lief from lief import MachO terminal_rows, terminal_columns = 100, 100 try: terminal_rows, terminal_columns = os.popen('stty size', 'r').read().split() except ValueError: pass terminal_columns = int(terminal_columns) terminal_rows = int(terminal_rows) EXIT_STATUS = 0 class exceptions_handler(object): func = None def __init__(self, exceptions, on_except_callback=None): self.exceptions = exceptions self.on_except_callback = on_except_callback def __call__(self, *args, **kwargs): if self.func is None: self.func = args[0] return self try: return self.func(*args, **kwargs) except self.exceptions as e: global EXIT_STATUS print("{} raised: {}".format(self.func.__name__, e)) EXIT_STATUS = 1 if self.on_except_callback is not None: self.on_except_callback(e) else: print("-" * 60) print("Exception in {}: {}".format(self.func.__name__, e)) exc_type, exc_value, exc_traceback = sys.exc_info() traceback.print_tb(exc_traceback) print("-" * 60) @exceptions_handler(Exception) def print_information(binary): print("== Information ==") format_str = "{:<30} {:<30}" format_hex = "{:<30} 0x{:<28x}" format_dec = "{:<30} {:<30d}" print(format_str.format("Name:", binary.name)) print(format_hex.format("Address base:", binary.imagebase)) print(format_str.format("PIE:", str(binary.is_pie))) print(format_str.format("NX:", str(binary.has_nx))) print("") @exceptions_handler(Exception) def print_header(binary): format_str = "{:<33} {:<30}" format_hex = "{:<33} 0x{:<28x}" format_dec = "{:<33} {:<30d}" print("== Header ==") header = binary.header flags_str = " - ".join([str(s).split(".")[-1] for s in header.flags_list]) print(format_str.format("Magic:", str(header.magic).split(".")[-1])) print(format_str.format("CPU Type:", str(header.cpu_type).split(".")[-1])) print(format_hex.format("CPU sub-type:", header.cpu_subtype)) print(format_str.format("File Type:", str(header.file_type).split(".")[-1])) print(format_str.format("Flags:", flags_str)) print(format_dec.format("Number of commands:", header.nb_cmds)) print(format_hex.format("Size of commands:", header.sizeof_cmds)) print(format_hex.format("Reserved:", header.reserved)) @exceptions_handler(Exception) def print_commands(binary): f_title = "|{:<20}|{:<11}|{:<11}|" f_value = "|{:<20}|0x{:08x} |0x{:08x} |" print("== Commands ==") print(f_title.format("Command", "Offset", "Size")) for command in binary.commands: print(f_value.format( str(command.command).split(".")[-1], command.command_offset, command.size)) print("") @exceptions_handler(Exception) def print_libraries(binary): f_title = "|{:<30}|{:<10}|{:<16}|{:<22}|" f_value = "|{:<30}|{:<10d}|{:<16}|{:<22}|" print("== Libraries ==") print(f_title.format("Name", "Timestamp", "Current Version", "Compatibility Version")) for library in binary.libraries: current_version_str = "{:d}.{:d}.{:d}".format(*library.current_version) compatibility_version_str = "{:d}.{:d}.{:d}".format(*library.compatibility_version) print(f_value.format( library.name, library.timestamp, current_version_str, compatibility_version_str)) print("") @exceptions_handler(Exception) def print_segments(binary): f_title = "|{:<20}|{:<16}|{:<16}|{:<16}|{:16}|{:16}|{:16}|{}" f_value = "|{:<20}|0x{:<13x} |0x{:<13x} |0x{:<13x} |0x{:<13x} |0x{:<13x} |0x{:<13x} |{}" print("== Segments ==") print(f_title.format( "Name", "Virtual Address", "Virtual Size", "Offset", "Size", "Max Protection", "Init Protection", "Sections")) for segment in binary.segments: sections = ", ".join(map(lambda s : s.name, segment.sections)) print(f_value.format( segment.name, segment.virtual_address, segment.virtual_size, segment.file_offset, segment.file_size, segment.max_protection, segment.init_protection, sections)) print("") @exceptions_handler(Exception) def print_sections(binary): f_title = "|{:<20}|{:<16}|{:<16}|{:<16}|{:16}|{:22}|{:19}|{:25}|{:25}|" f_value = "|{:<20}|0x{:<13x} |0x{:<13x} |0x{:<13x} |0x{:<13x} |0x{:<19x} |0x{:<16x} |{:<25}|{:<25}" print("== Sections ==") print(f_title.format( "Name", "Virtual Address", "Offset", "Size", "Alignement", "Number of Relocations", "Relocation offset", "Type", "Flags")) for section in binary.sections: flags_str = " - ".join([str(s).split(".")[-1] for s in section.flags_list]) print(f_value.format( section.name, section.virtual_address, section.offset, section.size, section.alignment, section.numberof_relocations, section.relocation_offset, str(section.type).split(".")[-1], flags_str)) if len(section.relocations) > 0: for idx, reloc in enumerate(section.relocations): name = reloc.symbol.name if reloc.has_symbol else "" secname = " - " + reloc.section.name if reloc.has_section else "" type = str(reloc.type) if reloc.architecture == MachO.CPU_TYPES.x86: type = str(MachO.X86_RELOCATION(reloc.type)) if reloc.architecture == MachO.CPU_TYPES.x86_64: type = str(MachO.X86_64_RELOCATION(reloc.type)) if reloc.architecture == MachO.CPU_TYPES.ARM: type = str(MachO.ARM_RELOCATION(reloc.type)) if reloc.architecture == MachO.CPU_TYPES.ARM64: type = str(MachO.ARM64_RELOCATION(reloc.type)) if reloc.architecture == MachO.CPU_TYPES.POWERPC: type = str(MachO.PPC_RELOCATION(reloc.type)) print(" [Reloc #{:d} {section}] {name:<10} 0x{address:<6x} {type:<20} {size:d} {pcrel} {scat}".format( idx, section=secname, name=name, address=reloc.address, type=type.split(".")[-1], size=reloc.size, pcrel=str(reloc.pc_relative), scat=str(reloc.is_scattered))) print("") print("") @exceptions_handler(Exception) def print_symbols(binary): symbols = binary.symbols if len(symbols) == 0: return try: maxsize = max([len(symbol.demangled_name) for symbol in symbols]) except: maxsize = max([len(symbol.name) for symbol in symbols]) maxsize = min(maxsize, terminal_columns - 90) if terminal_columns > 90 else terminal_columns f_title = "|{:<" + str(maxsize) + "} |{:<6}|{:<19}|{:<16}|{:16}| {:s}" f_value = "|{:<" + str(maxsize) + "} |0x{:<3x} |0x{:<16x} |0x{:<13x} |0x{:<13x} | {:s}" print("== Symbols ==") print(f_title.format( "Name", "Type", "Number of Sections", "Description", "Value", "Library")) for symbol in binary.symbols: libname = "" if symbol.has_binding_info and symbol.binding_info.has_library: libname = symbol.binding_info.library.name symbol_value = symbol.value if symbol.value > 0 or not symbol.has_binding_info else symbol.binding_info.address try: symbol_name = symbol.demangled_name except: symbol_name = symbol.name print(f_value.format( symbol_name, symbol.type, symbol.numberof_sections, symbol.description, symbol_value, libname)) print("") @exceptions_handler(Exception) def print_symbol_command(binary): print("== Symbol Command ==") scmd = binary.symbol_command format_str = "{:<17} {:<30}" format_hex = "{:<17} 0x{:<28x}" format_dec = "{:<17} {:<30d}" print(format_hex.format("Symbol offset", scmd.symbol_offset)) print(format_dec.format("Number of symbols", scmd.numberof_symbols)) print(format_hex.format("String offset", scmd.strings_offset)) print(format_hex.format("String size", scmd.strings_size)) print("") @exceptions_handler(Exception) def print_dynamic_symbol_command(binary): print("== Dynamic Symbol Command ==") dyscmd = binary.dynamic_symbol_command format_str = "{:<36} {:<30}" format_hex = "{:<36} 0x{:<28x}" format_dec = "{:<36} {:<30d}" print(format_dec.format("First local symbol index", dyscmd.idx_local_symbol)) print(format_dec.format("Number of local symbols", dyscmd.nb_local_symbols)) print(format_dec.format("External symbol index", dyscmd.idx_external_define_symbol)) print(format_dec.format("Number of external symbols", dyscmd.nb_external_define_symbols)) print(format_dec.format("Undefined symbol index", dyscmd.idx_undefined_symbol)) print(format_dec.format("Number of undefined symbols", dyscmd.nb_undefined_symbols)) print(format_dec.format("Table of content offset", dyscmd.toc_offset)) print(format_dec.format("Number of entries in TOC", dyscmd.nb_toc)) print(format_hex.format("Module table offset", dyscmd.module_table_offset)) print(format_dec.format("Number of entries in module table", dyscmd.nb_module_table)) print(format_hex.format("External reference table offset", dyscmd.external_reference_symbol_offset)) print(format_dec.format("Number of external reference", dyscmd.nb_external_reference_symbols)) print(format_hex.format("Indirect symbols offset", dyscmd.indirect_symbol_offset)) print(format_dec.format("Number of indirect symbols", dyscmd.nb_indirect_symbols)) print(format_hex.format("External relocation offset", dyscmd.external_relocation_offset)) print(format_dec.format("Number of external relocations", dyscmd.nb_external_relocations)) print(format_hex.format("Local relocation offset", dyscmd.local_relocation_offset)) print(format_dec.format("Number of local relocations", dyscmd.nb_local_relocations)) print("") @exceptions_handler(Exception) def print_uuid(binary): print("== UUID ==") cmd = binary.uuid uuid_str = " ".join(map(lambda e : "{:02x}".format(e), cmd.uuid)) print("UUID: {}".format(uuid_str)) print("") @exceptions_handler(Exception) def print_main_command(binary): format_str = "{:<13} {:<30}" format_hex = "{:<13} 0x{:<28x}" format_dec = "{:<13} {:<30d}" print("== Main Command ==") cmd = binary.main_command print(format_hex.format("Entry point:", cmd.entrypoint)) print(format_hex.format("Stack size:", cmd.stack_size)) print("") @exceptions_handler(Exception) def print_thread_command(binary): format_str = "{:<13} {:<30}" format_hex = "{:<13} 0x{:<28x}" format_dec = "{:<13} {:<30d}" print("== Thread Command ==") cmd = binary.thread_command print(format_hex.format("Flavor:", cmd.flavor)) print(format_hex.format("Count:", cmd.count)) print(format_hex.format("PC:", cmd.pc)) print("") @exceptions_handler(Exception) def print_rpath_command(binary): format_str = "{:<13} {:<30}" format_hex = "{:<13} 0x{:<28x}" format_dec = "{:<13} {:<30d}" print("== Rpath Command ==") cmd = binary.rpath print("Path: {}".format(cmd.path)) print("") @exceptions_handler(Exception) def print_dylinker(binary): print("== Dylinker ==") print("Path: {}".format(binary.dylinker.name)) print("") @exceptions_handler(Exception) def print_function_starts(binary): format_str = "{:<13} {:<30}" format_hex = "{:<13} 0x{:<28x}" format_dec = "{:<13} {:<30d}" print("== Function Starts ==") fstarts = binary.function_starts print(format_hex.format("Offset:", fstarts.data_offset)) print(format_hex.format("Size:", fstarts.data_size)) print("Functions: ({:d})".format(len(fstarts.functions))) for idx, address in enumerate(fstarts.functions): print(" [{:d}] __TEXT + 0x{:x}".format(idx, address)) print("") @exceptions_handler(Exception) def print_data_in_code(binary): format_str = "{:<13} {:<30}" format_hex = "{:<13} 0x{:<28x}" format_dec = "{:<13} {:<30d}" print("== Data In Code ==") datacode = binary.data_in_code print(format_hex.format("Offset:", datacode.data_offset)) print(format_hex.format("Size:", datacode.data_size)) print("") for entry in datacode.entries: type_str = str(entry.type).split(".")[-1] print("- {:<14}: 0x{:x} ({:d} bytes)".format(type_str, entry.offset, entry.length)) print("") @exceptions_handler(Exception) def print_segment_split_info(binary): format_str = "{:<13} {:<30}" format_hex = "{:<13} 0x{:<28x}" format_dec = "{:<13} {:<30d}" print("== Segment Split Info ==") sinfo = binary.segment_split_info print(format_hex.format("Offset:", sinfo.data_offset)) print(format_hex.format("Size:", sinfo.data_size)) print("") @exceptions_handler(Exception) def print_sub_framework(binary): format_str = "{:<13} {:<30}" format_hex = "{:<13} 0x{:<28x}" format_dec = "{:<13} {:<30d}" print("== Sub Framework ==") sinfo = binary.sub_framework print(format_str.format("Umbrella:", sinfo.umbrella)) print("") @exceptions_handler(Exception) def print_dyld_environment(binary): format_str = "{:<13} {:<30}" format_hex = "{:<13} 0x{:<28x}" format_dec = "{:<13} {:<30d}" print("== Dyld Environment ==") env = binary.dyld_environment print(format_str.format("Value:", env.value)) print("") @exceptions_handler(Exception) def print_dyld_info(binary): print("== Dyld Info ==") f_title = "|{:<12}|{:<11}|{:<11}|" f_value = "|{:<12}|0x{:<8x} |0x{:<8x} |" dyld_info = binary.dyld_info print(f_title.format("Type", "Offset", "Size")) print(f_value.format("Rebase", dyld_info.rebase[0], dyld_info.rebase[1])) print(f_value.format("Bind", dyld_info.bind[0], dyld_info.bind[1])) print(f_value.format("Weak Bind", dyld_info.weak_bind[0], dyld_info.weak_bind[1])) print(f_value.format("Lazy Bind", dyld_info.lazy_bind[0], dyld_info.lazy_bind[1])) print(f_value.format("Export", dyld_info.export_info[0], dyld_info.export_info[1])) print("") print("Bindings") print("--------") for idx, binfo in enumerate(dyld_info.bindings): print("{:10}: {}".format("Class", str(binfo.binding_class).split(".")[-1])) print("{:10}: {}".format("Type", str(binfo.binding_type).split(".")[-1])) print("{:10}: {:x}".format("Address", binfo.address)) if binfo.has_symbol: print("{:10}: {}".format("Symbol", binfo.symbol.name)) if binfo.has_segment: print("{:10}: {}".format("Segment", binfo.segment.name)) if binfo.has_library: print("{:10}: {}".format("Library", binfo.library.name)) if binfo.binding_class == lief.MachO.BINDING_CLASS.LAZY: print("{:10}: {}".format("Offset", binfo.original_offset)) print("") print("") print("Exports") print("-------") for idx, einfo in enumerate(dyld_info.exports): output = "0x{:08x} - {}".format(einfo.address, einfo.symbol.name) if einfo.alias: output += " - {}".format(einfo.alias.name) if einfo.alias_library: output += " from {}".format(einfo.alias_library.name) print(output) #print("{:10}: {:<10x}".format("Address", einfo.address)) #print("{:10}: {:<10x}".format("Flags", einfo.flags)) #if binfo.has_symbol: # print("{:10}: {}".format("Symbol", einfo.symbol.name)) print("") print("") @exceptions_handler(Exception) def print_rebase_opcodes(binary): print("== Rebase opcodes ==") print(binary.dyld_info.show_rebases_opcodes) print("") @exceptions_handler(Exception) def print_bind_opcodes(binary): print("== Bind opcodes ==") print(binary.dyld_info.show_bind_opcodes) print("") @exceptions_handler(Exception) def print_weak_bind_opcodes(binary): print("== Weak bind opcodes ==") print(binary.dyld_info.show_weak_bind_opcodes) print("") @exceptions_handler(Exception) def print_lazy_bind_opcodes(binary): print("== Lazy bind opcodes ==") print(binary.dyld_info.show_lazy_bind_opcodes) print("") @exceptions_handler(Exception) def print_export_trie(binary): print("== Export trie ==") print(binary.dyld_info.show_export_trie) print("") @exceptions_handler(Exception) def print_source_version(binary): print("== Source Version ==") version = binary.source_version.version print("Version: {:d}.{:d}.{:d}.{:d}.{:d}".format(*version)) print("") @exceptions_handler(Exception) def print_version_min(binary): print("== Version Min ==") version = binary.version_min.version sdk = binary.version_min.sdk print("Version: {:d}.{:d}.{:d}".format(*version)) print("SDK: {:d}.{:d}.{:d}".format(*sdk)) print("") @exceptions_handler(Exception) def print_relocations(binary): print("== Relocations ==") f_value = "|0x{address:<10x} | {size:<4d} | {type:<15} | {pcrel:<11} | {secseg:<23} | {symbol}" f_title = "|{address:<12} | {size:<4} | {type:<15} | {pcrel:<11} | {secseg:<23} | {symbol}" print(f_title.format( address="Address", size="Size", type="Type", pcrel="PC Relative", secseg="Section/Section", symbol="Symbol")) for reloc in binary.relocations: type_str = "" if reloc.origin == lief.MachO.RELOCATION_ORIGINS.DYLDINFO: type_str = str(lief.MachO.REBASE_TYPES(reloc.type)).split(".")[-1] if reloc.origin == lief.MachO.RELOCATION_ORIGINS.RELOC_TABLE: if reloc.architecture == MachO.CPU_TYPES.x86: type_str = str(MachO.X86_RELOCATION(reloc.type)) if reloc.architecture == MachO.CPU_TYPES.x86_64: type_str = str(MachO.X86_64_RELOCATION(reloc.type)) if reloc.architecture == MachO.CPU_TYPES.ARM: type_str = str(MachO.ARM_RELOCATION(reloc.type)) if reloc.architecture == MachO.CPU_TYPES.ARM64: type_str = str(MachO.ARM64_RELOCATION(reloc.type)) if reloc.architecture == MachO.CPU_TYPES.POWERPC: type_str = str(MachO.PPC_RELOCATION(reloc.type)) type_str = type_str.split(".")[-1] symbol_name = "" if reloc.has_symbol: symbol_name = reloc.symbol.name secseg_name = "" if reloc.has_segment and reloc.has_section: secseg_name = "{}.{}".format(reloc.segment.name, reloc.section.name) else: if reloc.has_segment: secseg_name = reloc.segment.name if reloc.has_section: secseg_name = reloc.section.name print(f_value.format( address=reloc.address, size=reloc.size, type=type_str, pcrel=str(reloc.pc_relative), secseg=secseg_name, symbol=symbol_name)) print("") @exceptions_handler(Exception) def print_encryption_info(binary): format_str = "{:<13} {:<30}" format_hex = "{:<13} 0x{:<28x}" format_dec = "{:<13} {:<30d}" print("== Encryption Info ==") cmd = binary.encryption_info print(format_hex.format("Offset:", cmd.crypt_offset)) print(format_hex.format("Size:", cmd.crypt_size)) print(format_dec.format("ID:", cmd.crypt_id)) print("") @exceptions_handler(Exception) def print_ctor(binary): print("== Constructors ==\n") print("Functions: ({:d})".format(len(binary.ctor_functions))) for idx, f in enumerate(binary.ctor_functions): print(" [{:d}] {}: 0x{:x}".format(idx, f.name, f.address)) @exceptions_handler(Exception) def print_unwind_functions(binary): print("== Unwind functions ==\n") print("Functions: ({:d})".format(len(binary.unwind_functions))) for idx, f in enumerate(binary.unwind_functions): print(" [{:d}] {}: 0x{:x}".format(idx, f.name, f.address)) @exceptions_handler(Exception) def print_functions(binary): print("== Functions ==\n") print("Functions: ({:d})".format(len(binary.functions))) for idx, f in enumerate(binary.functions): print(" [{:d}] {}: 0x{:x}".format(idx, f.name, f.address)) @exceptions_handler(Exception) def print_build_version(binary): print("== Build Version ==\n") build_version = binary.build_version print("Platform: {}".format(str(build_version.platform).split(".")[-1])) print("Min OS: {:d}.{:d}.{:d}".format(*build_version.minos)) print("SDK: {:d}.{:d}.{:d}".format(*build_version.sdk)) tools = build_version.tools if len(tools) > 0: print("~~ Tools ({}) ~~".format(len(tools))) for tool in tools: tool_str = str(tool.tool).split(".")[-1] print(" {} - {}.{}.{}".format(tool_str, *tool.version)) def main(): parser = argparse.ArgumentParser(usage='%(prog)s [options] ') parser.add_argument('-a', '--all', action='store_true', dest='show_all', help='Show all information') parser.add_argument('-c', '--commands', action='store_true', dest='show_commands', help='Display Commands') parser.add_argument('-H', '--header', action='store_true', dest='show_header', help='Display header') parser.add_argument('-L', '--libraries', action='store_true', dest='show_libraries', help='Display Imported Libraries') parser.add_argument('-l', '--segments', action='store_true', dest='show_segments', help='Display Segments') parser.add_argument('-r', '--relocations', action='store_true', dest='show_relocs', help='Display the relocations (if present)') parser.add_argument('-s', '--symbols', action='store_true', dest='show_symbols', help='Display Symbols') parser.add_argument('-S', '--sections', action='store_true', dest='show_sections', help='Display Sections') parser.add_argument('--uuid', action='store_true', dest='show_uuid', help='Display the UUID command') parser.add_argument('--main', action='store_true', dest='show_main', help='Display the Main command') parser.add_argument('--dylinker', action='store_true', dest='show_dylinker', help='Display the Dylinker command') parser.add_argument('--dyldinfo', action='store_true', dest='show_dyldinfo', help='Display the DyldInfo command') parser.add_argument('--function-starts', action='store_true', dest='show_function_starts', help='Display the FunctionStarts command') parser.add_argument('--rebase-opcodes', action='store_true', dest='show_rebase_opcodes', help='Display the "Rebase" opcodes') parser.add_argument('--source-version', action='store_true', dest='show_source_version', help="Display the 'Source Version' command") parser.add_argument('--version-min', action='store_true', dest='show_version_min', help="Display the 'Version Min' command") parser.add_argument('--thread-command', action='store_true', dest='show_thread_command', help="Display the 'Thread Command' command") parser.add_argument('--rpath-command', action='store_true', dest='show_rpath_command', help="Display the 'Rpath Command' command") parser.add_argument('--symbol-command', action='store_true', dest='show_symbol_command', help="Display the 'Symbol Command' command") parser.add_argument('--dynamic-symbol-command', action='store_true', dest='show_dynamic_symbol_command', help="Display the 'Symbol Command' command") parser.add_argument('--data-in-code', action='store_true', dest='show_data_in_code', help="Display the 'Data In Code' command") parser.add_argument('--segment-split-info', action='store_true', dest='show_segment_split_info', help="Display the 'Segment Split Info' command") parser.add_argument('--sub-framework', action='store_true', dest='show_sub_framework', help="Display the 'Sub Framework' command") parser.add_argument('--dyld-environment', action='store_true', dest='show_dyld_env', help="Display the 'Dyld Environment' command") parser.add_argument('--encryption-info', action='store_true', dest='show_encrypt_info', help="Display the 'Encryption Info' command") parser.add_argument('--bind-opcodes', action='store_true', dest='show_bind_opcodes', help='Display the "Bind" opcodes') parser.add_argument('--weak-bind-opcodes', action='store_true', dest='show_weak_bind_opcodes', help='Display the "Weak Bind" opcodes') parser.add_argument('--lazy-bind-opcodes', action='store_true', dest='show_lazy_bind_opcodes', help='Display the "Lazy Bind" opcodes') parser.add_argument('--export-trie', action='store_true', dest='show_export_trie', help='Display the export trie') parser.add_argument('--opcodes', action='store_true', dest='show_opcodes', help='Display the bind and rebase opcodes') parser.add_argument('--ctor', action='store_true', dest='show_ctor', help='Constructor functions') parser.add_argument('--unwind-functions', action='store_true', dest='show_ufunctions', help='Functions from unwind info') parser.add_argument('--functions', action='store_true', dest='show_functions', help='All functions found in the binary') parser.add_argument('--build-version', action='store_true', dest='show_build_version', help='Show build version') parser.add_argument("binary", metavar="", help='Target Mach-O File') # Logging setup logger_group = parser.add_argument_group('Logger') verbosity = logger_group.add_mutually_exclusive_group() verbosity.add_argument('--debug', dest='main_verbosity', action='store_const', const=lief.logging.LOGGING_LEVEL.DEBUG) verbosity.add_argument('--trace', dest='main_verbosity', action='store_const', const=lief.logging.LOGGING_LEVEL.TRACE) verbosity.add_argument('--info', dest='main_verbosity', action='store_const', const=lief.logging.LOGGING_LEVEL.INFO) verbosity.add_argument('--warn', dest='main_verbosity', action='store_const', const=lief.logging.LOGGING_LEVEL.WARNING) verbosity.add_argument('--err', dest='main_verbosity', action='store_const', const=lief.logging.LOGGING_LEVEL.ERROR) verbosity.add_argument('--critical', dest='main_verbosity', action='store_const', const=lief.logging.LOGGING_LEVEL.CRITICAL) parser.set_defaults(main_verbosity=lief.logging.LOGGING_LEVEL.WARNING) args = parser.parse_args() lief.logging.set_level(args.main_verbosity) binaries = None try: binaries = MachO.parse(args.binary) except lief.exception as e: print(e) sys.exit(1) if len(binaries) > 1: print("Fat Mach-O: {:d} binaries".format(len(binaries))) for binary in binaries: print_information(binary) if args.show_header or args.show_all: print_header(binary) if args.show_commands or args.show_all: print_commands(binary) if args.show_libraries or args.show_all: print_libraries(binary) if args.show_segments or args.show_all: print_segments(binary) if args.show_sections or args.show_all: print_sections(binary) if args.show_symbols or args.show_all: print_symbols(binary) if (args.show_uuid or args.show_all) and binary.has_uuid: print_uuid(binary) if (args.show_main or args.show_all) and binary.has_main_command: print_main_command(binary) if (args.show_dylinker or args.show_all) and binary.has_dylinker: print_dylinker(binary) if (args.show_dyldinfo or args.show_all) and binary.has_dyld_info: print_dyld_info(binary) if (args.show_function_starts or args.show_all) and binary.has_function_starts: print_function_starts(binary) if (args.show_source_version or args.show_all) and binary.has_source_version: print_source_version(binary) if (args.show_version_min or args.show_all) and binary.has_version_min: print_version_min(binary) if (args.show_relocs or args.show_all) and len(binary.relocations) > 0: print_relocations(binary) if (args.show_thread_command or args.show_all) and binary.has_thread_command: print_thread_command(binary) if (args.show_rpath_command or args.show_all) and binary.has_rpath: print_rpath_command(binary) if (args.show_symbol_command or args.show_all) and binary.has_symbol_command: print_symbol_command(binary) if (args.show_dynamic_symbol_command or args.show_all) and binary.has_dynamic_symbol_command: print_dynamic_symbol_command(binary) if (args.show_data_in_code or args.show_all) and binary.has_data_in_code: print_data_in_code(binary) if (args.show_segment_split_info or args.show_all) and binary.has_segment_split_info: print_segment_split_info(binary) if (args.show_sub_framework or args.show_all) and binary.has_sub_framework: print_sub_framework(binary) if (args.show_dyld_env or args.show_all) and binary.has_dyld_environment: print_dyld_environment(binary) if (args.show_encrypt_info or args.show_all) and binary.has_encryption_info: print_encryption_info(binary) if (args.show_rpath_command or args.show_all) and binary.has_rpath: print_rpath_command(binary) if (args.show_rebase_opcodes or args.show_opcodes) and binary.has_dyld_info: print_rebase_opcodes(binary) if (args.show_bind_opcodes or args.show_opcodes) and binary.has_dyld_info: print_bind_opcodes(binary) if (args.show_weak_bind_opcodes or args.show_opcodes) and binary.has_dyld_info: print_weak_bind_opcodes(binary) if (args.show_lazy_bind_opcodes or args.show_opcodes) and binary.has_dyld_info: print_lazy_bind_opcodes(binary) if (args.show_export_trie or args.show_opcodes) and binary.has_dyld_info: print_export_trie(binary) if args.show_ctor or args.show_all: print_ctor(binary) if args.show_ufunctions or args.show_all: print_unwind_functions(binary) if args.show_functions or args.show_all: print_functions(binary) if (args.show_build_version or args.show_all) and binary.has_build_version: print_build_version(binary) sys.exit(EXIT_STATUS) if __name__ == "__main__": main()