mirror of
https://github.com/SMGCommunity/Petari.git
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561 lines
22 KiB
Python
561 lines
22 KiB
Python
# check.py
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# script that marks functions as decompiled based on matching status
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import os
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from typing import overload
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from elftools.elf.elffile import ELFFile
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from colorama import Fore, Style
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import glob
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import hashlib
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import sys
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import struct
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from capstone import *
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from capstone.ppc import *
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import pathlib
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from collections import OrderedDict
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class FunctionLibrary:
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def __init__(self):
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self.libraries = dict()
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self.functions = dict()
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def load(self):
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self.libraries.clear()
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self.functions.clear()
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# Load CSV files
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for file in os.listdir("csv"):
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library = file[0:file.rfind(".")]
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symbols = OrderedDict()
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with open(pathlib.Path(f"csv/{file}"), "r") as input:
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is_first_line = True
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for line in input:
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if is_first_line:
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is_first_line = False
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continue
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line_split = line.rstrip().split(",")
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symbol = line_split[0]
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obj_file = line_split[1]
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library_name = line_split[2]
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matches = line_split[3] == "true"
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if (symbol, obj_file) in symbols:
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print(f"Duplicate symbol {symbol} in .o file {obj_file}.")
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sys.exit(1)
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symbols[(symbol, obj_file)] = (library_name, matches)
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self.libraries[library] = symbols
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# Load addresses from symbol map
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with open("data/map_for_dol.map", "r") as input:
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for line in input:
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line_split = line.rstrip().split("=")
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symbol = line_split[1].split(":")[0]
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number_split = line_split[0].split(" ")
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address = int(number_split[4], 16)
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size = int(number_split[3], 16)
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self.functions[symbol] = (address, size)
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def save(self):
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for library, symbols in self.libraries.items():
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with open(f"csv/{library}.csv", "w") as output:
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output.write("Symbol Name, Object File, Library Archive, Matching\n")
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for (symbol, obj_file), values in symbols.items():
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output.write(f"{symbol},{obj_file},{values[0]},{str(values[1]).lower()}\n")
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def get_obj_names_from_symbol(self, symbol_lookup):
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names = []
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for symbols in self.libraries.values():
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for (symbol, obj_name) in symbols.keys():
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if symbol == symbol_lookup:
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names.append(obj_name)
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return names
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def is_marked_decompiled(self, library_name, symbol, obj_file):
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if library_name in self.libraries:
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library = self.libraries[library_name]
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if (symbol, obj_file) in library:
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return library[(symbol, obj_file)][1]
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return False
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def mark_symbol_decompiled(self, library_name, symbol, obj_file, decompiled):
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if library_name in self.libraries:
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library = self.libraries[library_name]
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if (symbol, obj_file) in library:
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library[(symbol, obj_file)] = (library[(symbol, obj_file)][0], decompiled)
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def get_library_from_symbol(self, symbol, obj_file):
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for library, symbols in self.libraries.items():
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if (symbol, obj_file) in symbols:
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return library
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return None
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def get_address_from_symbol(self, symbol):
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if symbol in self.functions:
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return self.functions[symbol][0]
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return None
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def get_size_from_symbol(self, symbol):
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if symbol in self.functions:
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return self.functions[symbol][1]
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return None
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def get_symbols_marked_as_decompiled(self):
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for symbols in self.libraries.values():
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for (symbol, obj_file), values in symbols.items():
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if values[1] == True:
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yield (symbol, obj_file)
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def print_help_and_exit():
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print("Usage: check.py [mangled_symbol] [flags...]")
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print("\t[mangled_symbol]: name of the symbol that should be checked.")
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print("\t[-all]: run checks on all functions which has been marked as decompiled.")
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print("\t[-compare]: compares decompiled functions.")
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print("\t[-help]: displays this help text.")
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print("\t[-only-errors]: displays only error messages.")
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print("\t[-no-hints]: don't display hint messages.")
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print("\t[-no-warnings]: don't display warning messages.")
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print("\t[-no-errors]: don't display error messages.")
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print("\t[-readonly]: don't mark or unmark any functions as decompiled.")
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sys.exit(0)
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def is_dol_correct():
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with open("baserom.dol", "rb") as input:
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data = input.read()
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hash = hashlib.sha256(data).hexdigest().upper()
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return hash == "8B7F28D193170F998F92E02EA638107822FB72073691D0893EB18857BE0C6FCF" or hash == "69F93FCC0FA34837347B5AC05168BC783ADCACB3C02697CFDA087A3B63ABC9E0"
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def get_code_from_dol(address, size):
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with open("baserom.dol", "rb") as input:
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data = input.read()
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# Grab .text offset and start offset
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txt_offset, = struct.unpack_from(">I", data, 4)
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start_address, = struct.unpack_from(">I", data, 0x4C)
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offset = address - start_address
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return data[txt_offset + offset:txt_offset + offset + size]
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def print_error(message):
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global show_errors
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if show_errors:
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print(f"ERROR: {message}")
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def print_warning(message):
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global show_warnings
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if show_warnings:
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print(f"WARNING: {message}")
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def print_hint(message):
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global show_hints
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if show_hints:
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print(f"HINT: {message}")
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def print_instruction_comparison_error(message, original, custom):
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global show_errors
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if show_errors:
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print_error(message)
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print_instruction_comparison(original, custom)
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def print_instruction_comparison_warning(message, original, custom):
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global show_warnings
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if show_warnings:
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print_warning(message)
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print_instruction_comparison(original, custom)
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def print_instruction_comparison_hint(message, original, custom):
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global show_hints
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if show_hints:
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print_hint(message)
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print_instruction_comparison(original, custom)
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def print_instruction_comparison(original, custom):
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print(f"\tOriginal: {original}")
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print(f"\tCustom: {custom}")
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def check_symbol(function_library, mangled_symbol, obj_name, readonly):
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black_listed_instructions = {
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PPC_INS_VMSUMSHM, PPC_INS_VMHADDSHS, PPC_INS_XXSLDWI, PPC_INS_VSEL,
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PPC_INS_XVSUBSP, PPC_INS_XXSEL, PPC_INS_XVMULSP, PPC_INS_XVDIVSP,
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PPC_INS_VADDUHM, PPC_INS_XXPERMDI, PPC_INS_XVMADDASP, PPC_INS_XVMADDMSP,
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PPC_INS_XVCMPGTSP, PPC_INS_XXMRGHD, PPC_INS_XSMSUBMDP, PPC_INS_XSTDIVDP,
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PPC_INS_XVADDSP, PPC_INS_XVCMPEQSP, PPC_INS_XVMSUBASP, PPC_INS_XVCMPGESP,
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PPC_INS_MFESR, PPC_INS_MFDEAR, PPC_INS_MTESR, PPC_INS_MTDEAR, PPC_INS_MFICCR, PPC_INS_MFASR
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}
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unsupported_libraries = { "TRK_Hollywood_Revolution" }
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library = function_library.get_library_from_symbol(mangled_symbol, obj_name)
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if library == None:
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print("Could not find library of symbol.")
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return False
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if library in unsupported_libraries:
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print(f"Library {library} is currently not supported.")
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return False
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obj_files = glob.glob(f"build/*/{library}/{obj_name}", recursive=True)
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if len(obj_files) > 1:
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print("Found multiple .o files. This should not happen.")
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return False
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if len(obj_files) == 0:
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print("Could not find any .o files for the function.")
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return False
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with open(pathlib.Path(obj_files[0]), "rb") as input:
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elf_file = ELFFile(input)
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symtab = elf_file.get_section_by_name('.symtab')
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if symtab.get_symbol_by_name(mangled_symbol) is None:
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print(f"Could not find symbol in object file. This may be caused by the code not being compiled, the function being in the wrong C++ source file or the function signature being wrong. File: {obj_files}")
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return False
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compiled_symbol = symtab.get_symbol_by_name(mangled_symbol)[0]
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# Get custom code
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custom_offset = compiled_symbol["st_value"]
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custom_size = compiled_symbol['st_size']
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text = elf_file.get_section_by_name('.text')
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custom_data = text.data()[custom_offset:custom_offset + custom_size]
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# Get original code
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original_address = function_library.get_address_from_symbol(mangled_symbol)
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original_size = function_library.get_size_from_symbol(mangled_symbol)
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if original_address == None or original_size == None:
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print("Could not find address and/or size for symbol")
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return False
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original_data = get_code_from_dol(original_address, original_size)
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if original_data == None:
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print("Could not get data from DOL file.")
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return False
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cs = Cs(CS_ARCH_PPC, CS_MODE_32 | CS_MODE_BIG_ENDIAN)
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cs.detail = True
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cs.imm_unsigned = False
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original_instructions = list(cs.disasm(original_data, 0))
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custom_instructions = list(cs.disasm(custom_data, 0))
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error_count = 0
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warning_count = 0
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hint_count = 0
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# Capstone doesn't seem to handle paired single instructions
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# If any is found, it just stops disassembling
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if 4 * len(original_instructions) != original_size:
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print_warning(f"Only {len(original_instructions)} out of the {original_size // 4} original instructions were loaded.")
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warning_count += 1
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if 4 * len(custom_instructions) != custom_size:
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print_warning(f"Only {len(custom_instructions)} out of the {custom_size // 4} custom instructions were loaded.")
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warning_count += 1
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if original_size > custom_size:
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print_error("Original code contains more instructions than custom code.")
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error_count += 1
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elif original_size < custom_size:
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print_error("Original code contains less instructions than custom code.")
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error_count += 1
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for i in range(min(len(original_instructions), len(custom_instructions))):
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line = i * 4
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line_string = f"{hex(line)} (Original: {hex(original_address + line)})"
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original_instruction = original_instructions[i]
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custom_instruction = custom_instructions[i]
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original_operands = original_instruction.operands
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custom_operands = custom_instruction.operands
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if str(original_instruction) == str(custom_instruction):
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print(f"{Fore.GREEN}{str(original_instruction):<80}{custom_instruction}{Style.RESET_ALL}")
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# Fully identical, nothing to be checked
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continue
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if original_instruction in black_listed_instructions:
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print_warning(f"Skipping blacklisted instruction at line {line_string}.")
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warning_count += 1
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continue
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if original_instruction.id == custom_instruction.id:
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assert(len(original_operands) == len(custom_operands))
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# First check common r2 and r13 issues
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if original_instruction.id in { PPC_INS_LBZ, PPC_INS_LWZ, PPC_INS_STB, PPC_INS_STW, PPC_INS_LFS }:
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#assert(len(original_operands) == 2 and len(custom_operands) == 2)
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# lbz, lwz, stb, stw and lfs are sometimes used with r13, which is a pointer to a read-write
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# small data area (SDA). When compiling custom code, this SDA is not generated,
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# so the register is set to r0 and the displacement is set to 0.
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# Original must be (instr) rX, X(r13) and custom must be (instr) rX, 0(r0)
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if original_operands[1].reg == PPC_REG_R13 and custom_operands[1].reg == PPC_REG_R0 and\
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custom_operands[1].mem.disp == 0 and original_operands[0].reg == custom_operands[0].reg:
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print(f"{Fore.YELLOW}{str(original_instruction):<80}{custom_instruction}{Style.RESET_ALL}")
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#print_instruction_comparison_hint(f"Skipping r13 issue at line {line_string}.", original_instruction, custom_instruction)
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hint_count += 1
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continue
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if original_instruction.id in { PPC_INS_LWZ, PPC_INS_LFS, PPC_INS_LHZ, PPC_INS_LFS }:
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#assert(len(original_operands) == 2 and len(custom_operands) == 2)
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# Same as above, except with r2 instead of r13. r2 is a pointer to a read-only SDA.
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# Original must be (instr) rX, X(r2) and custom must be (instr) rX, 0(0)
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if original_operands[1].reg == PPC_REG_R2 and custom_operands[1].reg == PPC_REG_R0 and\
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custom_operands[1].mem.disp == 0 and original_operands[0].reg == custom_operands[0].reg:
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print(f"{Fore.YELLOW}{str(original_instruction):<80}{custom_instruction}{Style.RESET_ALL}")
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#print_instruction_comparison_hint(f"Skipping r2 issue at line {line_string}.", original_instruction, custom_instruction)
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hint_count += 1
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continue
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# Check if all registers are equal
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registers_equal = True
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for j in range(len(original_operands)):
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if original_operands[j].reg != custom_operands[j].reg:
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registers_equal = False
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break
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if registers_equal:
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print(f"{Fore.YELLOW}{str(original_instruction):<80}{custom_instruction}{Style.RESET_ALL}")
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#print_instruction_comparison_warning(f"Registers are identical but the instruction is not identical at line {line_string}.", original_instruction, custom_instruction)
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warning_count += 1
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elif original_instruction.id == PPC_INS_ADDI:
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# addi is commonly used when loading addresses
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print(f"{Fore.YELLOW}{str(original_instruction):<80}{custom_instruction}{Style.RESET_ALL}")
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#print_instruction_comparison_warning(f"Skipping addi instruction at line {line_string}.", original_instruction, custom_instruction)
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warning_count += 1
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elif original_instruction.id == PPC_INS_LIS:
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# Same as addi
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print(f"{Fore.YELLOW}{str(original_instruction):<80}{custom_instruction}{Style.RESET_ALL}")
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#print_instruction_comparison_warning(f"Skipping lis instruction at line {line_string}.", original_instruction, custom_instruction)
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warning_count += 1
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elif original_instruction.id in { PPC_INS_B, PPC_INS_BL }:
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# bl is used to call most functions, and since the functions are likely to be placed
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# differently it's not possible to compare it
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# If a function ends with a function call, and the returned value from the function, then b is sometimes used for branching
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# to that function. Then it's not possible to compare this
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print(f"{Fore.YELLOW}{str(original_instruction):<80}{custom_instruction}{Style.RESET_ALL}")
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#print_instruction_comparison_warning(f"Skipping branch instruction at line {line_string}.", original_instruction, custom_instruction)
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warning_count += 1
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else:
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print(f"{Fore.RED}{str(original_instruction):<80}{custom_instruction}{Style.RESET_ALL}")
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#print_instruction_comparison_error(f"Instruction mismatch on line {line_string}.", original_instruction, custom_instruction)
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error_count += 1
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elif original_instruction.id == PPC_INS_ADDI and custom_instruction.id == PPC_INS_LI:
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assert(len(original_operands) == 3 and len(custom_operands) == 2)
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# This is caused by the read-write SDA, pointed by r13, is not generated in the custom code.
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# Original must be addi rX, r13, X and custom must be li rX, 0
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if original_operands[1].reg == PPC_REG_R13 and custom_operands[1].imm == 0 and\
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original_operands[0].reg == custom_operands[0].reg:
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print(f"{Fore.YELLOW}{str(original_instruction):<80}{custom_instruction}{Style.RESET_ALL}")
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#print_instruction_comparison_hint(f"Found addi / li mismatch at line {line_string}.", original_instruction, custom_instruction)
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hint_count += 1
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else:
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print(f"{Fore.RED}{str(original_instruction):<80}{custom_instruction}{Style.RESET_ALL}")
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#print_instruction_comparison_error(f"Instruction mismatch on line {line_string}.", original_instruction, custom_instruction)
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error_count += 1
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else:
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print(f"{Fore.RED}{str(original_instruction):<80}{custom_instruction}{Style.RESET_ALL}")
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#print_instruction_comparison_error(f"Instruction mismatch on line {line_string}.", original_instruction, custom_instruction)
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error_count += 1
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print()
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print(f"Check finished with {error_count} error(s), {warning_count} warning(s) and {hint_count} hint(s).")
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is_decompiled = function_library.is_marked_decompiled(library, mangled_symbol, obj_name)
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passed = error_count == 0
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if not readonly:
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if passed:
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if is_decompiled:
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print("Function already marked as decompiled.")
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else:
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print("Marking as decompiled...")
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function_library.mark_symbol_decompiled(library, mangled_symbol, obj_name, True)
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else:
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if is_decompiled:
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print("Function is marked as decompiled, but does not match.")
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print("Unmarking as decompiled...")
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function_library.mark_symbol_decompiled(library, mangled_symbol, obj_name, False)
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else:
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print("Function is not marked as decompiled, and does not match either.")
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return passed
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mangled_symbol = None
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check_all = False
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compare = False
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show_hints = True
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show_warnings = True
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show_errors = True
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readonly = False
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for i in range(1, len(sys.argv)):
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arg = sys.argv[i]
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if arg == "-all":
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check_all = True
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elif arg == "-compare":
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compare = True
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elif arg == "-help":
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print_help_and_exit()
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elif arg == "-only-errors":
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show_hints = False
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show_warnings = False
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show_errors = True
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elif arg == "-no-hints":
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show_hints = False
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elif arg == "-no-warnings":
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show_warnings = False
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elif arg == "-no-errors":
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show_errors = False
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elif arg == "-readonly":
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readonly = True
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elif mangled_symbol == None:
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mangled_symbol = arg
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else:
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print(f"Invalid argument: {arg}")
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print()
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print_help_and_exit()
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if mangled_symbol == None and not check_all and not compare:
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print_help_and_exit()
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if not is_dol_correct():
|
|
print("DOL file is not valid.")
|
|
sys.exit(1)
|
|
|
|
function_library = FunctionLibrary()
|
|
function_library.load()
|
|
|
|
if check_all:
|
|
success_count = 0
|
|
total_count = 0
|
|
|
|
for (symbol, obj_name) in function_library.get_symbols_marked_as_decompiled():
|
|
print(f"Checking {symbol}...")
|
|
total_count += 1
|
|
|
|
if check_symbol(function_library, symbol, obj_name, True):
|
|
success_count += 1
|
|
|
|
print()
|
|
|
|
print(f"{success_count} function(s) out of the {total_count} function(s), which were marked as decompiled, passed the check.")
|
|
print(f"{total_count - success_count} function(s) failed the check.")
|
|
|
|
if compare:
|
|
success_count_a = 0
|
|
fail_count_a = 0
|
|
matched_a = set()
|
|
failed_a = set()
|
|
|
|
for (symbol, obj_name) in function_library.get_symbols_marked_as_decompiled():
|
|
print(f"Checking {symbol}...")
|
|
|
|
if check_symbol(function_library, symbol, obj_name, True):
|
|
success_count_a += 1
|
|
matched_a.add((symbol, obj_name))
|
|
else:
|
|
fail_count_a += 1
|
|
failed_a.add((symbol, obj_name))
|
|
|
|
print()
|
|
|
|
print()
|
|
print()
|
|
print("First run of tests are now done.")
|
|
print("Now, please make the code changes you wish to test, and then recompile everything.")
|
|
input("Press Enter to contiue...")
|
|
|
|
success_count_b = 0
|
|
fail_count_b = 0
|
|
matched_b = set()
|
|
failed_b = set()
|
|
|
|
for (symbol, obj_name) in function_library.get_symbols_marked_as_decompiled():
|
|
print(f"Checking {symbol}...")
|
|
|
|
if check_symbol(function_library, symbol, obj_name, True):
|
|
success_count_b += 1
|
|
matched_b.add((symbol, obj_name))
|
|
else:
|
|
fail_count_b += 1
|
|
failed_b.add((symbol, obj_name))
|
|
|
|
print()
|
|
|
|
print()
|
|
print()
|
|
print("Second run of tests are now done.")
|
|
print()
|
|
|
|
print(f"First run: {success_count_a} matched and {fail_count_a} failed.")
|
|
print(f"Second run: {success_count_b} matched and {fail_count_b} failed.")
|
|
print()
|
|
|
|
print("The following functions matched during the first run and failed during the second test:")
|
|
|
|
for matched in matched_a:
|
|
if matched in failed_b:
|
|
print(f"{matched[0]} in {matched[1]}")
|
|
|
|
print()
|
|
print("The following functions failed during the first run and matched during the second test:")
|
|
|
|
for failed in failed_a:
|
|
if failed in matched_b:
|
|
print(f"{failed[0]} in {failed[1]}")
|
|
|
|
|
|
if mangled_symbol != None:
|
|
obj_names = function_library.get_obj_names_from_symbol(mangled_symbol)
|
|
|
|
if len(obj_names) == 0:
|
|
print("Could not find any .o files for the specified symbol.")
|
|
sys.exit(1)
|
|
elif len(obj_names) > 1:
|
|
print("There are multiple .o files found for the specified symbol. This is currently not supported by the script.")
|
|
sys.exit(1)
|
|
|
|
check_symbol(function_library, mangled_symbol, obj_names[0], readonly)
|
|
|
|
function_library.save()
|