#!/usr/bin/env python3 from math import ceil from struct import unpack from pathlib import Path from os import listdir, path __version__ = "1.3.8" __author__ = "rigodron, algoflash, GGLinnk" __OriginalAutor__ = "infval" __license__ = "MIT" __status__ = "developpement" BIT_COMPRESSION_FLAG = 0x40000000 FILE_LENGTH_MASK = 0x3FFFFFFF CHUNK_SIZE = 0x800 def pzz_decompress(compressed_bytes: bytes): uncompressed_bytes = bytearray() compressed_bytes_size = len(compressed_bytes) // 2 * 2 cb = 0 # Control bytes cb_bit = -1 i = 0 while i < compressed_bytes_size: if cb_bit < 0: cb = compressed_bytes[i + 1] cb |= compressed_bytes[i + 0] << 8 cb_bit = 15 i += 2 continue compress_flag = cb & (1 << cb_bit) cb_bit -= 1 # print(compress_flag) if compress_flag: c = compressed_bytes[i + 1] c |= compressed_bytes[i + 0] << 8 offset = (c & 0x7FF) * 2 if offset == 0: break # End of the compressed data count = (c >> 11) * 2 if count == 0: i += 2 c = compressed_bytes[i + 1] c |= compressed_bytes[i + 0] << 8 count = c * 2 index = len(uncompressed_bytes) - offset for j in range(count): uncompressed_bytes.append(uncompressed_bytes[index + j]) else: uncompressed_bytes.extend(compressed_bytes[i: i + 2]) i += 2 return uncompressed_bytes def bytes_align(bout: bytes): while len(bout) % CHUNK_SIZE > 0: bout.extend(b"\x00") def pzz_compress(b): bout = bytearray() size_b = len(b) // 2 * 2 cb = 0 # Control bytes cb_bit = 15 cb_pos = 0 bout.extend(b"\x00\x00") i = 0 while i < size_b: start = max(i - 0x7FF * 2, 0) count_r = 0 max_i = -1 tmp = b[i: i + 2] init_count = len(tmp) while True: start = b.find(tmp, start, i + 1) if start != -1 and start % 2 != 0: start += 1 continue if start != -1: count = init_count while i < size_b - count \ and count < 0xFFFF * 2 \ and b[start + count] == b[i + count] \ and b[start + count + 1] == b[i + count + 1]: count += 2 if count_r < count: count_r = count max_i = start start += 2 else: break start = max_i compress_flag = 0 if count_r >= 4: compress_flag = 1 offset = i - start offset //= 2 count_r //= 2 c = offset if count_r <= 0x1F: c |= count_r << 11 bout.append((c >> 8)) bout.append(c & 0xFF) else: bout.append((c >> 8)) bout.append(c & 0xFF) bout.append((count_r >> 8)) bout.append(count_r & 0xFF) i += count_r * 2 else: bout.extend(b[i: i + 2]) i += 2 cb |= (compress_flag << cb_bit) cb_bit -= 1 if cb_bit < 0: bout[cb_pos + 1] = cb & 0xFF bout[cb_pos + 0] = cb >> 8 cb = 0x0000 cb_bit = 15 cb_pos = len(bout) bout.extend(b"\x00\x00") cb |= (1 << cb_bit) bout[cb_pos + 1] = cb & 0xFF bout[cb_pos + 0] = cb >> 8 bout.extend(b"\x00\x00") bytes_align(bout) return bout def pzz_unpack(pzz_path, dest_folder): # Script BMS pour les pzz de ps2 (GioGio's adventure) -> https://zenhax.com/viewtopic.php?f=9&t=8724&p=39437#p39437 if pzz_path.suffix != ".pzz": print("WARNING - Unpack : Invalid file format '" + pzz_path.suffix + "'; it should be .pzz file format") if dest_folder != Path('.'): unpacked_pzz_path = dest_folder else: unpacked_pzz_path = pzz_path.parent / pzz_path.stem unpacked_pzz_path.mkdir(exist_ok=True) with open(pzz_path, "rb") as pzz_file: # file_count reçoit le nombre de fichiers présent dans le PZZ : # On lit les 4 premiers octets (uint32 big-endian) file_count, = unpack(">I", pzz_file.read(4)) # files_descriptors reçoit un tuple avec l'ensemble des descripteurs de fichiers (groupes d'uint32 big-endian) files_descriptors = unpack(">{}I".format( file_count), pzz_file.read(file_count * 4)) print("File count:", file_count) offset = CHUNK_SIZE # on parcours le tuple de descripteurs de fichiers for index, file_descriptor in enumerate(files_descriptors): # Le bit 30 correspond au flag de compression (bits numérotés de 0 à 31) is_compressed = (file_descriptor & BIT_COMPRESSION_FLAG) != 0 if not is_compressed: # Si le fichier n'est pas compressé, on ajoute 'U' derrière l'index compression_status = 'U' else: # Si le fichier est compressé, on ajoute "_compressed" devant l'extension et 'C' derrière l'index compression_status = 'C' # file_descriptor reçoit maintenant les 30 premiers bits : (la taille / CHUNK_SIZE) file_descriptor &= FILE_LENGTH_MASK # file_len reçoit la taille du fichier # la taille du fichier est un multiple de CHUNK_SIZE, on paddera avec des 0 jusqu'au fichier suivant # file_len contient alors la taille du fichier en octets file_len = file_descriptor * CHUNK_SIZE # On forme le nom du nouveau fichier que l'on va extraire filename = "{:03}{}_{}".format( index, compression_status, pzz_path.stem) file_path = (unpacked_pzz_path / filename).with_suffix(".dat") print("Offset: {:010} - {}".format(offset, file_path.stem)) # Si la taille est nulle, on créé un fichier vide et on passe au descripteur de fichier suivant if file_len == 0: file_path.touch() continue # On se positionne au début du fichier dans l'archive pzz_file.seek(offset) # On extrait notre fichier et on le décompresse if compression_status == 'C': file_path.write_bytes(pzz_decompress(pzz_file.read(file_len))) else: file_path.write_bytes(pzz_file.read(file_len)) # Enfin, on ajoute la taille du fichier afin de pointer sur le fichier suivant # La taille du fichier étant un multiple de CHUNK_SIZE, on aura complété les 2048 octets finaux avec des 0x00 offset += file_len def pzz_pack(src_path, dest_file): # On récupère les fichiers du dossier à compresser src_files = listdir(src_path) # On récupère le nombre total de fichiers file_count = int(src_files[-1].split("_")[0][0:3]) + 1 if dest_file != Path('.'): if dest_file.suffix != ".pzz": raise("Invalid file format : dest must be a pzz") pzz_path = dest_file else: pzz_path = src_path.with_suffix(".pzz") print(str(file_count) + " files to pack in " + str(pzz_path)) with pzz_path.open("wb") as pzz_file: # On écrit file_count au début de header pzz_file.write(file_count.to_bytes(4, byteorder='big')) # On écrit les file_descriptor dans le header du PZZ pour chaque fichier for src_file_name in src_files: index = int(src_file_name.split("_")[0][0:3]) # Compression status permet de verrifier si le fichier doit être finalement compressé ou non compression_status = src_file_name.split("_")[0][3:4] # file_descriptor = arrondi supérieur de la taille / CHUNK_SIZE file_descriptor = ceil( (src_path / src_file_name).stat().st_size / CHUNK_SIZE) # On ajoute le flag de compression au file_descriptor if compression_status == 'C': file_descriptor |= BIT_COMPRESSION_FLAG # On ecrit le file_descriptor pzz_file.write(file_descriptor.to_bytes(4, byteorder='big')) # On se place à la fin du header PZZ pzz_file.seek(CHUNK_SIZE) # On écrit tous les fichiers à la suite du header for src_file_name in src_files: is_compressed = (len(src_file_name.split("_compressed")) > 1) compression_status = src_file_name.split("_")[0][3:4] with (src_path / src_file_name).open("rb") as src_file: # Le fichier doit être compressé avant d'être pack if compression_status == 'C' and is_compressed is False: pzz_file.write(pzz_compress(src_file.read())) # Le fichier doit être décompressé avant d'être pack elif compression_status == 'U' and is_compressed is True: pzz_file.write(pzz_decompress(src_file.read())) else: pzz_file.write(src_file.read()) # Si le fichier n'est pas compressé, on ajoute le padding pour correspondre à un multiple de CHUNK_SIZE if compression_status == 'C' and (pzz_file.tell() % CHUNK_SIZE) > 0: pzz_file.write( b"\x00" * (CHUNK_SIZE - (pzz_file.tell() % CHUNK_SIZE))) def get_argparser(): import argparse parser = argparse.ArgumentParser(description='PZZ (de)compressor & unpacker - [GameCube] Gotcha Force v' + __version__) parser.add_argument('--version', action='version', version='%(prog)s ' + __version__) parser.add_argument('-v', '--verbose', action='store_true', help='verbose mode') parser.add_argument('input_path', metavar='INPUT', help='') parser.add_argument('output_path', metavar='OUTPUT', help='', nargs='?', default="") group = parser.add_mutually_exclusive_group(required=True) group.add_argument('-p', '--pack', action='store_true', help="-p source_folder dest_file.pzz(optionnal) : Pack source_folder in new file source_folder.pzz") group.add_argument('-u', '--unpack', action='store_true', help='-u source_folder.pzz dest_folder(optionnal) : Unpack the pzz in new folder source_folder') group.add_argument('-bp', '--batch-pack', action='store_true', help='-bp source_folder dest_folder(optionnal - if not specified it will pack in source_folder)') group.add_argument('-bu', '--batch-unpack', action='store_true', help='-bu source_folder dest_folder(optionnal - if not specified it will unpack in source_folder)') # group.add_argument('-a', '-aa', action='store_true', help='sha256') group.add_argument('-c', '--compress', action='store_true', help='') group.add_argument('-d', '--decompress', action='store_true', help='Unpacked files from PZZ') group.add_argument('-bc', '--batch-compress', action='store_true', help='INPUT relative pattern; e.g. AFS_DATA\\*.bin') group.add_argument('-bd', '--batch-decompress', action='store_true', help='INPUT relative pattern; e.g. AFS_DATA\\*_compressed.dat') group.add_argument('-di', '--disable-ignore', action='store_true', help="Disable filename ignore") return parser if __name__ == '__main__': args = get_argparser().parse_args() p_input = Path(args.input_path) p_output = Path(args.output_path) if args.compress: print("### Compress") p_output.write_bytes(pzz_compress(p_input.read_bytes())) elif args.decompress: print("### Decompress") p_output.write_bytes(pzz_decompress(p_input.read_bytes())) elif args.batch_compress: print("### Batch Compress") p_output.mkdir(exist_ok=True) for filename in listdir(p_input): if (not args.disable_ignore) and ("_uncompressed" in filename): if args.verbose: print(f"Compressing {filename}") recomp_filename = filename.replace( "_uncompressed", "_recompressed") uncompressed = open(path.join(p_input, filename), 'rb') recompressed = open(path.join(p_output, filename), 'wb') recompressed.write(pzz_compress(uncompressed.read())) recompressed.close() uncompressed.close() else: print(f"Ignored: {filename}") elif args.batch_decompress: print("### Batch Decompress") p_output.mkdir(exist_ok=True) for filename in listdir(p_input): if (not args.disable_ignore) and ("_compressed" in filename): print(f"Decompressing {filename}") uncomp_filename = filename.replace( "_compressed", "_uncompressed") compressed = open(path.join(p_input, filename), 'rb') uncompressed = open(path.join(p_output, uncomp_filename), 'wb') uncompressed.write(pzz_decompress(compressed.read())) uncompressed.close() compressed.close() else: print(f"Ignored: {filename}") elif args.pack: print("### Pack") pzz_pack(p_input, p_output) elif args.unpack: print("### Unpack") pzz_unpack(p_input, p_output) elif args.batch_pack: print("### Batch Pack") p_output.mkdir(exist_ok=True) for folder in listdir(p_input): pzz_pack(p_input / folder, p_output / Path(folder).with_suffix(".pzz")) elif args.batch_unpack: print("### Batch Unpack") p_output.mkdir(exist_ok=True) for filename in listdir(p_input): pzz_unpack(p_input / filename, p_output / Path(filename).stem) """ Code pour le developement --> pzztool.py -a a compare le sha256 de chaque PZZ du dossier pzz et pzz2 puis affiche le nom de fichier en cas de différence import hashlib for pzz_file in listdir("pzz"): with open("pzz/"+pzz_file, "rb") as f1, open("pzz2/"+pzz_file, "rb") as f2: if hashlib.sha256( f1.read() ).hexdigest() != hashlib.sha256( f2.read() ).hexdigest() : print(pzz_file) """