import sys, os, time def resource_path(relative_path): """ Get absolute path to resource, works for dev and for PyInstaller """ base_path = getattr(sys, '_MEIPASS', os.path.dirname(os.path.abspath(__file__))) return os.path.join(base_path, relative_path) def build(gct, dol, size): with open(resource_path('sme-code.bin'), 'rb') as code, open(dol, 'rb+') as dol, open(gct, 'rb') as gecko, open(resource_path('codehandler.bin'), 'rb') as handler, open('tmp.bin', 'wb+') as tmp, open(os.path.join('BUILD', os.path.split(r'{}'.format(dol))[1][:-2]), 'wb+') as final: '''Initialize the new DOL file''' final.write(dol.read()) '''Initialize the sme-code loader''' tmp.write(code.read()) code.seek(0, 0) tmp.seek(0, 0) '''Search for main entry of loader''' entryIndex = 0 sample = tmp.read(4) while sample: if sample == ENTRY: tmp.seek(-4, 1) tmp.write(bytes.fromhex('7C0802A6')) break entryIndex += 4 sample = tmp.read(4) tmp.seek(0) '''Get BSS section for insert''' final.seek(int('D8', 16)) BSS = int(final.read(4).hex(), 16) BSS_length = int(final.read(4).hex(), 16) dump_address = '{:08X}'.format(int(BSS + (BSS_length / 2)))[:-2] + '00' _START = bytes.fromhex('{:08X}'.format(int(dump_address, 16) + entryIndex)) cLoader = bytes.fromhex(dump_address) '''Get address split for later''' upperAddr, lowerAddr = dump_address[:int(len(dump_address)/2)], dump_address[int(len(dump_address)/2):] '''Get code initialize address''' final.seek(int('E0', 16)) _init = final.read(4) '''Patch the values for the addresses and such''' hooked = False heaped = False sized = False fsized = False initUpperAddr = bytes.fromhex(upperAddr) geckoUpperAddr = bytes.fromhex(upperAddr) gUpperAddr = bytes.fromhex(upperAddr) while hooked == False or heaped == False or sized == False or fsized == False: try: sample = tmp.read(4) if sample == HOOK: #Found keyword "HOOK". Goes with the entry to the game if not hooked: tmp.seek(-4, 1) initInfo = tmp.tell() if int(lowerAddr, 16) + initInfo > int('7FFF', 16): #Absolute addressing initUpperAddr = bytes.fromhex('{:04X}'.format(int(upperAddr, 16) + 1)) if int(lowerAddr, 16) + (initInfo + 4) > int('7FFF', 16): #Absolute addressing geckoUpperAddr = bytes.fromhex('{:04X}'.format(int(upperAddr, 16) + 1)) tmp.write(_init) hooked = True elif sample == HEAP: #Found keyword "HEAP". Goes with the resize of the heap if not heaped: tmp.seek(-4, 1) gInfo = tmp.tell() if int(lowerAddr, 16) + gInfo > int('7FFF', 16): #Absolute addressing gUpperAddr = bytes.fromhex('{:04X}'.format(int(upperAddr, 16) + 1)) tmp.write(size) heaped = True elif sample == LOADERSIZE: #Found keyword "LSIZ". Goes with the size of the loader if not sized: tmp.seek(-4, 1) tmp.write(get_size(code)) sized = True elif sample == FULLSIZE: #Found keyword "FSIZ". Goes with the size of the loader + codes if not fsized: tmp.seek(-4, 1) code.seek(0, 2) gecko.seek(0, 2) tmp.write(get_size(code, gecko.tell())) fsized = True except TypeError as err: print('Fatal error, (' + err + ') build failed to complete') time.sleep(3) sys.exit(1) '''Patch all load/store offsets to data''' tmp.seek(0) sample = tmp.read(2) while sample: if sample == GH: tmp.seek(-2, 1) tmp.write(gUpperAddr) elif sample == GL: tmp.seek(-2, 1) tmp.write(bytes.fromhex('{:04X}'.format(int(lowerAddr, 16) + gInfo))) elif sample == CH: tmp.seek(-2, 1) tmp.write(geckoUpperAddr) elif sample == CL: tmp.seek(-2, 1) tmp.write(bytes.fromhex('{:04X}'.format(int(lowerAddr, 16) + (initInfo + 4)))) elif sample == IH: tmp.seek(-2, 1) tmp.write(initUpperAddr) elif sample == IL: tmp.seek(-2, 1) tmp.write(bytes.fromhex('{:04X}'.format(int(lowerAddr, 16) + initInfo))) elif sample == JH: tmp.seek(-2, 1) tmp.write(geckoUpperAddr) elif sample == JL: tmp.seek(-2, 1) tmp.write(bytes.fromhex('{:04X}'.format(int(lowerAddr, 16) + (initInfo + 8)))) sample = tmp.read(2) tmp.seek(0) gecko.seek(0) dol_handler_offset = get_size(final) final.write(handler.read()) time.sleep(0.01) dol_sme_offset = get_size(final) final.write(tmp.read()) time.sleep(0.01) final.write(gecko.read()) final.seek(0, 0) status = False i = 0 while i < 6: size = int(final.read(4).hex(), 16) if size == 0: status = True offset = i * 4 final.seek(-4, 1) final.write(dol_handler_offset) final.write(dol_sme_offset) final.seek(int('48', 16) + offset) final.write(bytes.fromhex('80001800')) final.write(cLoader) final.seek(int('E0', 16)) final.write(_START) handler_size = get_size(handler) tmp.seek(0, 2) gecko.seek(0, 2) sme_code_size = get_size(tmp, gecko.tell()) final.seek(int('90', 16) + offset) final.write(handler_size) final.write(sme_code_size) break else: i += 1 if status == False: print('Not enough sections to patch the DOL file! Potentially due to previous mods?') def get_size(file, offset=0): """ Return a file's size in bytes """ file.seek(0, 2) return(bytes.fromhex('{:08X}'.format(file.tell() + offset))) if __name__ == "__main__": if len(sys.argv) == 1: while True: gct = input('Name of the input GCT file? ') if os.path.splitext(gct)[1] == '': gct = gct + '.gct' if os.path.splitext(gct)[1] != '.gct' and os.path.splitext(gct)[1] != '.GCT': print('Invalid input!') continue if os.path.exists(gct): gct = os.path.abspath(gct) break else: print('File not found! Please try again.') while True: dol = input('Name of the input dol file? ') if os.path.splitext(dol)[1] == '': dol = dol + '.dol' if os.path.splitext(dol)[1] != '.dol': print('Invalid input!') continue if os.path.exists(dol): dol = os.path.abspath(dol) break else: print('File not found! Please try again.') elif len(sys.argv) == 2: if sys.argv[1].endswith('.gct') or sys.argv[1].endswith('.GCT'): gct = sys.argv[1] while True: dol = input('Name of the input dol file? ') if os.path.splitext(dol)[1] == '': dol = dol + '.dol' if os.path.splitext(dol)[1] != '.dol': print('Invalid input!') continue if os.path.exists(dol): dol = os.path.abspath(dol) break else: print('File not found! Please try again.') elif sys.argv[1].endswith('.dol'): dol = sys.argv[1] while True: gct = input('Name of the input GCT file? ') if os.path.splitext(gct)[1] == '': gct = gct + '.gct' if os.path.splitext(gct)[1] != '.gct' and os.path.splitext(gct)[1] != '.GCT': print('Invalid input!') continue if os.path.exists(gct): gct = os.path.abspath(gct) break else: print('File not found! Please try again.') else: print('The given file is invalid! Please provide a valid dol file, a valid GCT file, or both.') time.sleep(1) sys.exit(1) else: if sys.argv[1].endswith('.gct') or sys.argv[1].endswith('.GCT'): gct = sys.argv[1] if sys.argv[2].endswith('.dol'): dol = sys.argv[2] else: while True: dol = input('Name of the input DOL file? ') if os.path.splitext(dol)[1] == '': dol = dol + '.dol' if os.path.splitext(dol)[1] != '.dol': print('Invalid input!') continue if os.path.exists(dol): dol = os.path.abspath(dol) break else: print('File not found! Please try again.') elif sys.argv[1].endswith('.dol'): dol = sys.argv[1] if sys.argv[2].endswith('.gct') or sys.argv[2].endswith('.GCT'): gct = sys.argv[2] else: while True: gct = input('Name of the input GCT file? ') if os.path.splitext(gct)[1] == '': gct = gct + '.gct' if os.path.splitext(gct)[1] != '.gct' and os.path.splitext(gct)[1] != '.GCT': print('Invalid input!') continue if os.path.exists(gct): gct = os.path.abspath(gct) break else: print('File not found! Please try again.') else: print('The given files are invalid! Please provide a valid DOL file, a valid GCT file, or both.') sys.exit(1) while True: size = input('Define desired code space. (Hex): ') try: int(size, 16) break except Exception: print('Invalid input!') time1 = time.time() HEAP = bytes.fromhex('48454150') LOADERSIZE = bytes.fromhex('4C53495A') FULLSIZE = bytes.fromhex('4653495A') HOOK = bytes.fromhex('484F4F4B') ENTRY = bytes.fromhex('454E5452') GH = bytes.fromhex('4748') GL = bytes.fromhex('474C') CH = bytes.fromhex('4348') CL = bytes.fromhex('434C') IH = bytes.fromhex('4948') IL = bytes.fromhex('494C') JH = bytes.fromhex('4A48') JL = bytes.fromhex('4A4C') size = bytes.fromhex('{:08X}'.format(int(size, 16))) try: if not os.path.isdir('BUILD'): os.mkdir('BUILD') build(gct, dol, size) os.remove('tmp.bin') print('Compiled in {:0.4f} seconds!'.format(time.time() - time1)) time.sleep(4) except Exception as err: print(err) time.sleep(4) sys.exit(1)