NeoGF/pzztool.py
2022-01-29 07:53:35 +01:00

504 lines
21 KiB
Python

#!/usr/bin/env python3
from math import ceil
from pathlib import Path
import shutil
import logging
__version__ = "0.14.7"
__author__ = "rigodron, algoflash, GGLinnk"
__OriginalAutor__ = "infval"
__license__ = "MIT"
__status__ = "developpement"
# For more information on the PZZ file format:
# http://virtualre.rf.gd/index.php/PZZ_(Gotcha_Force)
BIT_COMPRESSION_FLAG = 0x40000000
FILE_LENGTH_MASK = 0x3FFFFFFF
BLOCK_SIZE = 0x800
TPL_MAGIC_NUMBER = b"\x00\x20\xAF\x30" # http://virtualre.rf.gd/index.php/TPL_(Format_de_fichier)
CHD_MAGIC_NUMBER = b"Head"
BINHITS_MAGIC_NUMBER = b"STIH"
TSB_MAGIC_NUMBER = b"TSBD"
ICON_MAGIC_NUMBER = b"GOTCHA FORCE"
def get_file_path(file_data: bytes, path: Path):
# If it's a plxxxx or a dpxxxx.pzz
# 001 is always absent for dpxxxx
if path.name[5:7] == "pl" or path.name[5:7] == "dp":
if path.name[0:3] == "000":
if path.stem[-4:] != "data":
return path.with_name(path.name + "data").with_suffix(".bin")
return path.with_suffix(".bin")
if path.name[0:3] == "002":
if path.stem[-3:] != "hit":
return path.with_name(path.name + "hit").with_suffix(".bin")
return path.with_suffix(".bin")
if path.name[0:3] == "003":
if path.stem[-3:] != "mot":
return path.with_name(path.name + "mot").with_suffix(".bin")
return path.with_suffix(".bin")
if path.name[0:3] == "004":
if path.stem[-4:] != "_mdl":
return path.with_name(path.name + "_mdl").with_suffix(".arc")
return path.with_suffix(".arc")
if path.name[0:3] == "005":
if path.stem[-5:] != "b_mdl":
return path.with_name(path.name + "b_mdl").with_suffix(".arc")
return path.with_suffix(".arc")
if path.name[0:3] == "006":
if path.stem[-5:] != "g_mdl":
return path.with_name(path.name + "g_mdl").with_suffix(".arc")
return path.with_suffix(".arc")
if path.name[0:3] == "007":
if path.stem[-5:] != "s_mdl":
return path.with_name(path.name + "s_mdl").with_suffix(".arc")
return path.with_suffix(".arc")
if path.name[0:3] == "008":
if path.stem[-5:] != "c_mdl":
return path.with_name(path.name + "c_mdl").with_suffix(".arc")
return path.with_suffix(".arc")
if path.name[0:3] == "009":
if path.stem[-5:] != "k_mdl":
return path.with_name(path.name + "k_mdl").with_suffix(".arc")
return path.with_suffix(".arc")
elif path.name[5:9] == "efct":
if path.name[0:3] == "001":
if path.stem[-6:] != "00_mdl":
return path.with_name(path.name + "00_mdl").with_suffix(".arc")
return path.with_suffix(".arc")
if path.name[0:3] == "002":
if path.stem[-6:] != "01_mdl":
return path.with_name(path.name + "01_mdl").with_suffix(".arc")
return path.with_suffix(".arc")
elif file_data.startswith(ICON_MAGIC_NUMBER):
if path.stem[-4:] != "icon":
return path.with_name(path.name + "icon").with_suffix(".bin")
return path.with_suffix(".bin")
if file_data.startswith(TPL_MAGIC_NUMBER):
return path.with_suffix(".tpl")
if file_data.startswith(CHD_MAGIC_NUMBER):
return path.with_suffix(".chd")
if file_data.startswith(TSB_MAGIC_NUMBER):
return path.with_suffix(".tsb")
if file_data.startswith(BINHITS_MAGIC_NUMBER):
return path.with_suffix(".bin")
# Default value
return path.with_suffix(".dat")
# Not implemented: remove pad at the end of unpacked files
# The problem is that we can't know the exact initial Null bytes pad of the file.
# -> So we can't remove the trailing pad
def remove_padding(file_data: bytearray):
return file_data
# return file_data.rstrip(b'\x00')
def block_align(bout: bytes):
# As demonstrated by pl080d/006C_pl080d.pzzp, we ad BLOCK_SIZE if it's aligned on a multiple of BLOCK_SIZE
if len(bout) % BLOCK_SIZE == 0:
return bout.ljust(BLOCK_SIZE * int(len(bout) / BLOCK_SIZE + 1), b"\x00")
return bout.ljust(BLOCK_SIZE * ceil(len(bout) / BLOCK_SIZE), b"\x00")
def fix_pad_decompress(bout: bytes, path: Path):
# We ajust file_len according to the file format after decompress
if path.name[5:7] == "pl" and path.suffix == ".arc" or \
path.name[5:7] == "dp" and path.suffix == ".arc" or \
path.name[5:9] == "efct" and path.suffix == ".arc":
return bout[:-1]
return bout
def pzz_decompress(compressed_bytes: bytes):
uncompressed_bytes = bytearray()
compressed_bytes_size = len(compressed_bytes) // 2 * 2
cb = 0 # Control bytes
cb_bit = -1 # We rotate from 15 to 0 for compress flag
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
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]) # aaa a améliorer avec un slice
else:
uncompressed_bytes += compressed_bytes[i: i+2]
i += 2
return uncompressed_bytes
def pzz_compress(uncompressed_bytes: bytes):
uncompressed_bytes += b"\x00" # # Adding pad doesn't change the result of compress
compressed_bytes = bytearray(2)
uncompressed_bytes_len = len(uncompressed_bytes) // 2 * 2
cb = 0 # Control bytes
cb_bit = 15 # We rotate from 15 to 0 for compress flag
cb_pos = 0
i = 0
while i < uncompressed_bytes_len:
start = max(i - 4094, 0) # start = 2 if i = 4096 (BLOCK_SIZE*2)
count_r = 0
max_i = -1
#######################################################
# start: contains index .. (analysis of the algorithm is not redacted yet)
#######################################################
while True:
# start = index first occurencie of uncompressed_bytes[i:i+2] between start and i+1
# We look in the 4094 last bytes
start = uncompressed_bytes.find(uncompressed_bytes[i: i+2], start, i+1)
# if the current 2 bytes aren't in the 4094 last bytes
if start == -1:
break
# If the first occurencie isn't an index multiple of 2, we ignore it
if start % 2 != 0:
start += 1
continue
count = 2
while i < uncompressed_bytes_len - count and \
count < 0xFFFF * 2 and \
uncompressed_bytes[start+count] == uncompressed_bytes[i+count] and \
uncompressed_bytes[start+count+1] == uncompressed_bytes[i+count+1]:
count += 2
if count_r < count:
count_r = count
max_i = start
start += 2
start = max_i
compress_flag = 0
if count_r >= 4:
compress_flag = 1
offset = (i - start) // 2
count_r //= 2
c = offset
if count_r <= 0x1F:
c |= count_r << 11
compressed_bytes += c.to_bytes(2, "big")
else:
compressed_bytes += c.to_bytes(2, "big") + count_r.to_bytes(2, "big")
i += count_r * 2
else:
compressed_bytes += uncompressed_bytes[i: i+2]
i += 2
cb |= (compress_flag << cb_bit)
cb_bit -= 1
if cb_bit < 0:
compressed_bytes[cb_pos:cb_pos + 2] = cb.to_bytes(2, "big")
cb = 0
cb_bit = 15
cb_pos = len(compressed_bytes)
compressed_bytes += b"\x00\x00"
cb |= (1 << cb_bit)
compressed_bytes[cb_pos:cb_pos + 2] = cb.to_bytes(2, "big")
compressed_bytes += b"\x00\x00"
return block_align(compressed_bytes)
def pzz_unpack(pzz_path:Path, folder_path:Path, auto_decompress:bool = False):
if pzz_path.suffix != ".pzz" and pzz_path.suffix != ".mdt":
logging.warning(f"Invalid file format '{pzz_path.suffix}'; it should be .pzz or .mdt file format")
if folder_path != Path('.'):
unpacked_pzz_path = folder_path
else:
unpacked_pzz_path = pzz_path.parent / pzz_path.stem
if auto_decompress:
logging.info(f" unpzz({pzz_path}) in folder {unpacked_pzz_path}")
else:
logging.info(f" unpacking {pzz_path} in folder {unpacked_pzz_path}")
unpacked_pzz_path.mkdir(exist_ok=True)
with pzz_path.open("rb") as pzz_file:
file_count = int.from_bytes(pzz_file.read(4), "big")
logging.debug(f" -> File count: {file_count}")
# get a list with header file descriptors
files_descriptors_data = pzz_file.read(file_count * 4)
files_descriptors = [int.from_bytes(files_descriptors_data[i:i+4], "big") for i in range(0, file_count*4, 4)]
file_offset = BLOCK_SIZE
for index, file_descriptor in enumerate(files_descriptors):
# bit 30 is the compression flag (bits from 0 to 31)
if file_descriptor & BIT_COMPRESSION_FLAG == 0:
compression_status = 'U' # For the extracted filename: initialy not compressed
else:
compression_status = 'C' # For the extracted filename: initialy compressed (file will have ".pzzp" extension)
# We keep the 30 first bits in file_descriptor (file_len / BLOCK_SIZE)
file_descriptor &= FILE_LENGTH_MASK
# file_len is padded according to BLOCK_SIZE
file_len = file_descriptor * BLOCK_SIZE
# We generate file name
filename = f"{index:03}{compression_status}_{pzz_path.stem}"
file_path = unpacked_pzz_path / filename
logging.debug(f" -> Offset: {file_offset:010} - {file_path}")
# If file_len is Null we create an empty file and we pass to the next file_descriptor
if file_len == 0:
file_path.with_suffix(".dat").touch()
continue
# We seek at the file_offset
pzz_file.seek(file_offset)
# We extract the file and if auto_decompress is set we decompress all files
file_data = pzz_file.read(file_len)
if auto_decompress and compression_status == 'C':
file_data = pzz_decompress(file_data)
file_data = remove_padding(bytearray(file_data))
if not auto_decompress and compression_status == 'C':
file_path = file_path.with_suffix(".pzzp")
else:
file_path = get_file_path(file_data, file_path)
file_path.write_bytes(fix_pad_decompress(file_data, file_path))
# next file_offset = file_offset + file_len
# File_len is aligned to BLOCK_SIZE with Null bytes
file_offset += file_len
def pzz_pack(folder_path:Path, pzz_path:Path, auto_compress:bool = False):
if pzz_path == Path('.'):
pzz_path = folder_path.with_suffix(".pzz")
if pzz_path.suffix != ".pzz" and pzz_path.suffix != ".mdt":
logging.warning(f"Invalid file format '{pzz_path.suffix}': dest must be a pzz or mdt")
# We get all filenames from the folder to pzz
files_path = list(folder_path.glob("*"))
if auto_compress:
logging.info(f" pzz({folder_path}) in pzz {pzz_path}")
else:
logging.info(f" packing({folder_path}) in pzz {pzz_path}")
logging.debug(f" -> {len(files_path)} files to pack")
with pzz_path.open("wb") as pzz_file:
# We seek to the end of the header
pzz_file.seek(BLOCK_SIZE)
# We get total files count to put it at the begining of the pzz header
header_bytes = len(files_path).to_bytes(4, byteorder='big')
# We write every files at the end of the pzz_file
for file_path in files_path:
is_compressed = file_path.suffix == ".pzzp"
compression_status = file_path.name[3:4]
file_data = file_path.read_bytes()
# The file has to be compressed before packing
if compression_status == 'C' and not is_compressed and auto_compress:
file_data = pzz_compress(file_data)
# The file has to be decompressed before packing
elif compression_status == 'U' and is_compressed and auto_compress:
file_data = pzz_decompress(file_data) # pad is not handled yet
"""
# we add pad to be aligned to BLOCK_SIZE
if compression_status == 'U':
if (len(file_data) % BLOCK_SIZE) > 0:
file_data.extend(b"\x00" * (BLOCK_SIZE - (len(file_data) % BLOCK_SIZE)))
"""
# file_descriptor = ceil of the len of the file / BLOCK_SIZE
file_descriptor = ceil(len(file_data) / BLOCK_SIZE)
# We add the compression flag bit to the file_descriptor
if compression_status == 'C':
file_descriptor |= BIT_COMPRESSION_FLAG
header_bytes += file_descriptor.to_bytes(4, byteorder='big')
pzz_file.write(file_data)
pzz_file.seek(0)
# We write the header
pzz_file.write(header_bytes)
def unpzz(pzz_path:Path, folder_path:Path):
pzz_unpack(pzz_path, folder_path, auto_decompress = True)
def pzz(folder_path:Path, pzz_file:Path):
pzz_pack(folder_path, pzz_file, auto_compress = True)
def get_argparser():
import argparse
parser = argparse.ArgumentParser(description='PZZ / MDT (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('-di', '--disable-ignore', action='store_true', help="Disable .pzzp or .pzz file extension verification.")
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('-pzz', '--pzz', action='store_true', help="-pzz source_folder (dest_file.pzz): pzz source_folder in new file source_folder.pzz or dest_file if specified")
group.add_argument('-unpzz', '--unpzz', action='store_true', help="-unpzz source_folder.pzz (dest_folder): unpzz the pzz in new folder source_folder or dest_folder if specified")
group.add_argument('-bpzz', '--batch-pzz', action='store_true', help='-bpzz source_folder (dest_folder): Batch pzz (auto compress) all pzz_folder from source_folder into source_folder or dest_folder if specified')
group.add_argument('-bunpzz', '--batch-unpzz', action='store_true', help='-bunpzz source_folder (dest_folder): Batch unpzz (auto decompress) all pzz from source_folder into source_folder or dest_folder if specified')
group.add_argument('-p', '--pack', action='store_true', help="-p source_folder (dest_file.pzz): Pack source_folder in new file source_folder.pzz or dest_file if specified")
group.add_argument('-u', '--unpack', action='store_true', help='-u source_folder.pzz (dest_folder): Unpack the pzz in new folder source_folder or dest_folder if specified')
group.add_argument('-bp', '--batch-pack', action='store_true', help='-bp source_folder (dest_folder): Batch pack all pzz_folder from source_folder into source_folder or dest_folder if specified')
group.add_argument('-bu', '--batch-unpack', action='store_true', help='-bu source_folder (dest_folder): Batch unpack all pzz from source_folder into source_folder or dest_folder if specified')
group.add_argument('-c', '--compress', action='store_true', help='-c source_file (dest_file): compress source_file in source_file.pzzp or dest_file if specified')
group.add_argument('-d', '--decompress', action='store_true', help='-d source_file.pzzp (dest_file): decompress source_file.pzzp in source_file or dest_file if specified')
group.add_argument('-bc', '--batch-compress', action='store_true', help='-bc source_folder dest_folder: compress all files from source_folder into dest_folder')
group.add_argument('-bd', '--batch-decompress', action='store_true', help='-bd source_folder dest_folder: decompress all files from source_folder into dest_folder')
return parser
if __name__ == '__main__':
logging.basicConfig(format='%(levelname)s:%(message)s', level=logging.INFO)
args = get_argparser().parse_args()
p_input = Path(args.input_path)
p_output = Path(args.output_path)
if args.verbose:
logging.getLogger().setLevel(logging.DEBUG)
if args.compress:
logging.info("### Compress")
if(p_output == Path(".")):
p_output = Path(p_input.with_suffix(".pzzp"))
# Extension check
if not args.disable_ignore and p_input.suffix == ".pzzp":
logging.warning(f"Ignored - {p_input} - bad extension - must not be a pzzp")
elif not args.disable_ignore and p_output.suffix != ".pzzp":
logging.warning(f"Ignored - {p_output} - bad extension - must be a pzzp")
else:
logging.info(f"Compressing {p_input} in {p_output}")
p_output.write_bytes(pzz_compress(p_input.read_bytes()))
elif args.decompress:
logging.info("### Decompress")
# Extension check
if not args.disable_ignore and p_input.suffix != ".pzzp":
logging.warning(f"Ignored - {p_input} - bad extension - must be a pzzp")
else:
output_file_data = pzz_decompress(p_input.read_bytes())
if p_output == Path("."):
p_output = get_file_path(output_file_data, p_input.parent / p_input.stem)
logging.info(f"Decompressing {p_input} in {p_output}")
p_output.write_bytes(fix_pad_decompress(output_file_data, p_output))
elif args.batch_compress:
logging.info("### Batch Compress")
if(p_output == Path(".")):
p_output = p_input
p_output.mkdir(exist_ok=True)
for pzzfile_path in p_input.glob("*"):
# Extension check
if not args.disable_ignore and pzzfile_path.suffix == ".pzzp":
logging.warning(f"Ignored - {pzzfile_path} - bad extension - musn't be a pzzp")
if p_input != p_output:
shutil.copy(pzzfile_path, p_output / pzzfile_path.name)
continue
logging.info(f"Compressing {pzzfile_path} in {p_output / pzzfile_path.stem}.pzzp")
(p_output / pzzfile_path.stem).with_suffix(".pzzp").write_bytes(pzz_compress(pzzfile_path.read_bytes()))
elif args.batch_decompress:
logging.info("### Batch Decompress")
if(p_output == Path(".")):
p_output = Path(p_input)
p_output.mkdir(exist_ok=True)
for file_path in p_input.glob("*"):
if not args.disable_ignore and file_path.suffix != ".pzzp":
logging.warning(f"Ignored - {file_path} - bad extension - must be a pzzp")
if p_input != p_output:
shutil.copy(file_path, p_output / file_path.name)
continue
logging.info(f"Decompressing {file_path} in {p_output / file_path.stem}?.?")
uncompressed_content = pzz_decompress(file_path.read_bytes())
uncompressed_path = get_file_path(uncompressed_content, p_output / file_path.name)
uncompressed_path.write_bytes(fix_pad_decompress(uncompressed_content, uncompressed_path))
elif args.pack:
logging.info("### Pack")
pzz_pack(p_input, p_output)
elif args.unpack:
logging.info("### Unpack")
pzz_unpack(p_input, p_output)
elif args.pzz:
logging.info("### PZZ")
pzz(p_input, p_output)
elif args.unpzz:
logging.info("### UNPZZ")
unpzz(p_input, p_output)
elif args.batch_pack:
logging.info("### Batch Pack")
p_output.mkdir(exist_ok=True)
if(p_output == Path('.')):
p_output = p_input
for folder_path in p_input.glob("*"):
pzz_pack(folder_path, p_output / Path(folder_path.name).with_suffix(".pzz"))
elif args.batch_unpack:
logging.info("### Batch Unpack")
p_output.mkdir(exist_ok=True)
if(p_output == Path('.')):
p_output = p_input
for file_path in p_input.glob("*"):
pzz_unpack(file_path, p_output / file_path.stem)
elif args.batch_pzz:
logging.info("### Batch PZZ")
p_output.mkdir(exist_ok=True)
if(p_output == Path('.')):
p_output = p_input
for folder_path in p_input.glob("*"):
pzz(folder_path, p_output / Path(folder_path.name).with_suffix(".pzz"))
elif args.batch_unpzz:
logging.info("### Batch UNPZZ")
p_output.mkdir(exist_ok=True)
if(p_output == Path('.')):
p_output = p_input
for file_path in p_input.glob("*"):
unpzz(file_path, p_output / file_path.stem)