NeoGF/afstool.py

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#!/usr/bin/env python3
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from configparser import ConfigParser
from datetime import datetime
import logging
from math import ceil
import os
from pathlib import Path
import re
import time
__version__ = "0.1.1"
__author__ = "rigodron, algoflash, GGLinnk"
__license__ = "MIT"
__status__ = "developpement"
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# Not tested:
class AfsInvalidFileLenError(Exception): pass
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class AfsEmptyAfsError(Exception): pass
class AfsInvalidFilenameDirectoryLengthError(Exception): pass
class AfsInvalidAfsFolderError(Exception): pass
# Tested:
class AfsInvalidMagicNumberError(Exception): pass
class AfsInvalidFilesRebuildStrategy(Exception): pass
class AfsFilenameDirectoryValueError(Exception): pass
class AfsInvalidFilePathError(Exception): pass
class AfsInvalidFieldsCountError(Exception): pass
class AfsIndexValueError(Exception): pass
class AfsIndexOverflowError(Exception): pass
class AfsIndexCollisionError(Exception): pass
class AfsOffsetValueError(Exception): pass
class AfsOffsetAlignError(Exception): pass
class AfsOffsetCollisionError(Exception): pass
class AfsFdOffsetOffsetValueError(Exception): pass
class AfsFdOffsetValueError(Exception): pass
class AfsFdLastAttributeTypeValueError(Exception): pass
class AfsFdOffsetCollisionError(Exception): pass
class AfsEmptyBlockValueError(Exception): pass
class AfsEmptyBlockAlignError(Exception): pass
class FilenameResolver:
__sys_path = None
__names_tuples = None
__resolve_buffer = ""
__separator = '/'
def __init__(self, sys_path:Path):
self.__sys_path = sys_path
self.__names_tuples = {}
self.__load()
def __load(self):
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if (self.__sys_path / "filename_resolver.csv").is_file():
self.__resolve_buffer = (self.__sys_path / "filename_resolver.csv").read_text()
for line in self.__resolve_buffer.split('\n'):
name_tuple = line.split(self.__separator)
self.__names_tuples[name_tuple[1]] = int(name_tuple[0])
def save(self):
if len(self.__resolve_buffer) > 0:
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logging.info(f"Writting {Path('sys/filename_resolver.csv')}")
(self.__sys_path / "filename_resolver.csv").write_text(self.__resolve_buffer[:-1])
# resolve generate a unique filename when unpacking
def resolve_new(self, fileindex:int, filename:str):
if filename in self.__names_tuples:
i = 1
new_filename = f"{Path(filename).stem} ({i}){Path(filename).suffix}"
while new_filename in self.__names_tuples:
i+=1
new_filename = f"{Path(filename).stem} ({i}){Path(filename).suffix}"
self.__names_tuples[new_filename] = fileindex
self.__resolve_buffer += f"{fileindex}{self.__separator}{new_filename}\n"
return new_filename
self.__names_tuples[filename] = fileindex
return filename
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# Add new entry forcing the unpacked_filename²
def add(self, fileindex:int, unpacked_filename:str):
self.__names_tuples[unpacked_filename] = fileindex
self.__resolve_buffer += f"{fileindex}{self.__separator}{unpacked_filename}\n"
# return generated filename if it exist else filename
def resolve_from_index(self, fileindex:int, filename:str):
for filename_key, fileindex_value in self.__names_tuples.items():
if fileindex_value == fileindex:
return filename_key
return filename
# http://wiki.xentax.com/index.php/GRAF:AFS_AFS
class Afs:
MAGIC_00 = b"AFS\x00"
MAGIC_20 = b"AFS\x20"
ALIGN = 0x800
HEADER_LEN = 8
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FILENAMEDIRECTORY_ENTRY_LEN = 0x30
__file_count = None
__filenamedirectory_offset_offset = None
__filenamedirectory_offset = None
__filenamedirectory_len = None
__filenamedirectory = None
__tableofcontent = None
def __get_magic(self):
return bytes(self.__tableofcontent[0:4])
def __get_file_count(self):
return int.from_bytes(self.__tableofcontent[4:8], "little")
def __get_filenamedirectory_offset(self):
return int.from_bytes(self.__tableofcontent[self.__filenamedirectory_offset_offset:self.__filenamedirectory_offset_offset+4], "little")
def __get_filenamedirectory_len(self):
return int.from_bytes(self.__tableofcontent[self.__filenamedirectory_offset_offset+4:self.__filenamedirectory_offset_offset+8], "little")
def __get_file_offset(self, fileindex:int):
return int.from_bytes(self.__tableofcontent[Afs.HEADER_LEN+fileindex*8:Afs.HEADER_LEN+fileindex*8+4], "little")
def __get_file_len(self, fileindex:int):
return int.from_bytes(self.__tableofcontent[Afs.HEADER_LEN+fileindex*8+4:Afs.HEADER_LEN+fileindex*8+8], "little")
def __get_file_name(self, fileindex:int):
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return self.__filenamedirectory[fileindex*Afs.FILENAMEDIRECTORY_ENTRY_LEN:fileindex*Afs.FILENAMEDIRECTORY_ENTRY_LEN+32].split(b"\x00")[0].decode("utf-8")
def __get_file_fdlast(self, fileindex:int):
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return int.from_bytes(self.__filenamedirectory[fileindex*Afs.FILENAMEDIRECTORY_ENTRY_LEN+44:fileindex*Afs.FILENAMEDIRECTORY_ENTRY_LEN+48], "little")
def __get_file_mtime(self, fileindex:int):
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mtime_data = self.__filenamedirectory[fileindex*Afs.FILENAMEDIRECTORY_ENTRY_LEN+32:fileindex*Afs.FILENAMEDIRECTORY_ENTRY_LEN+44]
year = int.from_bytes(mtime_data[0:2], "little")
month = int.from_bytes(mtime_data[2:4], "little")
day = int.from_bytes(mtime_data[4:6], "little")
hour = int.from_bytes(mtime_data[6:8], "little")
minute = int.from_bytes(mtime_data[8:10], "little")
second = int.from_bytes(mtime_data[10:12], "little")
return time.mktime(datetime(year=year, month=month, day=day, hour=hour, minute=minute, second=second).timetuple())
def __patch_file_len(self, fileindex:int, file_len:int): # Patch file_len in the TOC
self.__tableofcontent[Afs.HEADER_LEN+fileindex*8+4:Afs.HEADER_LEN+fileindex*8+8] = file_len.to_bytes(4, "little")
def __patch_file_mtime(self, fileindex:int, mtime):
mtime = datetime.fromtimestamp(mtime)
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self.__filenamedirectory[Afs.FILENAMEDIRECTORY_ENTRY_LEN*fileindex+32:Afs.FILENAMEDIRECTORY_ENTRY_LEN*fileindex+44] = \
mtime.year.to_bytes(2,"little")+ \
mtime.month.to_bytes(2,"little")+ \
mtime.day.to_bytes(2,"little")+ \
mtime.hour.to_bytes(2,"little")+ \
mtime.minute.to_bytes(2,"little")+\
mtime.second.to_bytes(2,"little")
def __patch_fdlasts(self, fileindex:int, fd_last_attribute_type): # Patch FD last attributes according to the type
if type(fd_last_attribute_type) == int: # every entry has the same const value
self.__filenamedirectory[fileindex*Afs.FILENAMEDIRECTORY_ENTRY_LEN+44:fileindex*Afs.FILENAMEDIRECTORY_ENTRY_LEN+48] = fd_last_attribute_type.to_bytes(4, "little")
elif fd_last_attribute_type == "length": #
self.__filenamedirectory[fileindex*Afs.FILENAMEDIRECTORY_ENTRY_LEN+44:fileindex*Afs.FILENAMEDIRECTORY_ENTRY_LEN+48] = self.__get_file_len(fileindex).to_bytes(4, "little")
elif fd_last_attribute_type == "offset-length":
# every odd index is changed according to the TOC lengths values with the serie: 0->updated_index=1 1->updated_index=3 2->updated_index=5
# updated_index = index*2+1 with index*2+1 < self.__file_count
updated_fdlast_index = fileindex*2+1
if updated_fdlast_index < self.__file_count:
self.__filenamedirectory[updated_fdlast_index*Afs.FILENAMEDIRECTORY_ENTRY_LEN+44:updated_fdlast_index*Afs.FILENAMEDIRECTORY_ENTRY_LEN+48] = self.__get_file_len(fileindex).to_bytes(4, "little")
# fd_last_attribute_type == unknown
def __pad(self, data:bytes):
if len(data) % Afs.ALIGN != 0:
data += b"\x00" * (Afs.ALIGN - (len(data) % Afs.ALIGN))
return data
def __clean_filenamedirectory(self):
self.__filenamedirectory = None
self.__filenamedirectory_offset = None
self.__filenamedirectory_len = None
def __loadsys_from_afs(self, afs_file, afs_len:int):
self.__tableofcontent = afs_file.read(Afs.HEADER_LEN)
if self.__get_magic() not in [Afs.MAGIC_00, Afs.MAGIC_20]:
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raise AfsInvalidMagicNumberError("Error - Invalid AFS magic number.")
self.__file_count = self.__get_file_count()
self.__tableofcontent += afs_file.read(self.__file_count*8)
tableofcontent_len = len(self.__tableofcontent)
offset = tableofcontent_len
tmp_block = int.from_bytes(afs_file.read(4), "little")
if tmp_block != 0:
self.__filenamedirectory_offset_offset = offset
self.__filenamedirectory_offset = tmp_block
else:
# If filenamedirectory_offset is not directly after the files offsets and lens
# --> we search the next uint32 != 0
offset += 4
block_len = 0x800
tmp_block = afs_file.read(block_len)
while tmp_block:
match = re.search(b"^(?:\x00{4})*(?!\x00{4})(.{4})", tmp_block) # match next uint32
if match:
self.__filenamedirectory_offset_offset = offset + match.start(1)
self.__filenamedirectory_offset = int.from_bytes(match[1], "little")
break
offset += block_len
tmp_block = afs_file.read(block_len)
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# This because we retrieve an int valid or not into fd offset
if self.__filenamedirectory_offset is None:
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raise AfsEmptyAfsError("Error - Empty AFS.")
afs_file.seek(self.__filenamedirectory_offset_offset+4)
self.__filenamedirectory_len = int.from_bytes(afs_file.read(4), "little")
# Test if offset of filenamedirectory is valid and if number of entries match between filenamedirectory and tableofcontent
if self.__filenamedirectory_offset + self.__filenamedirectory_len > afs_len or \
self.__filenamedirectory_offset < self.__filenamedirectory_offset_offset or \
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(tableofcontent_len - self.HEADER_LEN) / 8 != self.__filenamedirectory_len / Afs.FILENAMEDIRECTORY_ENTRY_LEN:
self.__clean_filenamedirectory()
return False
afs_file.seek(self.__filenamedirectory_offset)
self.__filenamedirectory = afs_file.read(self.__filenamedirectory_len)
# Test if filename is correct by very basic pattern matching
pattern = re.compile(b"^(?=.{32}$)[^\x00]+\x00+$")
for i in range(self.__file_count):
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if not pattern.fullmatch(self.__filenamedirectory[i*Afs.FILENAMEDIRECTORY_ENTRY_LEN:i*Afs.FILENAMEDIRECTORY_ENTRY_LEN+32]):
self.__clean_filenamedirectory()
return False
afs_file.seek(tableofcontent_len)
self.__tableofcontent += afs_file.read(self.__filenamedirectory_offset_offset+8 - tableofcontent_len)
return True
def __loadsys_from_folder(self, sys_path:Path):
self.__tableofcontent = bytearray( (sys_path / "tableofcontent.bin").read_bytes() )
self.__file_count = self.__get_file_count()
# If there is a filenamedirectory we load it
if (sys_path / "filenamedirectory.bin").is_file():
self.__filenamedirectory = bytearray((sys_path / "filenamedirectory.bin").read_bytes())
self.__filenamedirectory_offset_offset = len(self.__tableofcontent) - 8
self.__filenamedirectory_offset = self.__get_filenamedirectory_offset()
self.__filenamedirectory_len = self.__get_filenamedirectory_len()
if self.__filenamedirectory_len != len(self.__filenamedirectory):
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raise AfsInvalidFilenameDirectoryLengthError("Error - Tableofcontent filenamedirectory length does not match real filenamedirectory length.")
def __print(self, title:str, lines_tuples, columns:list = list(range(7)), infos:str = ""):
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stats_buffer = "#"*100+f"\n# {title}\n"+"#"*100+f"\n{infos}|"+"-"*99+"\n"
if 0 in columns: stats_buffer += "| Index ";
if 1 in columns: stats_buffer += "| b offset ";
if 2 in columns: stats_buffer += "| e offset ";
if 3 in columns: stats_buffer += "| length ";
if 4 in columns: stats_buffer += "| YYYY-mm-dd HH:MM:SS ";
if 5 in columns: stats_buffer += "| FD last ";
if 6 in columns: stats_buffer += "| Filename";
stats_buffer += "\n|"+"-"*99+"\n"
for line in lines_tuples:
stats_buffer += line if type(line) == str else "| "+" | ".join(line)+"\n"
print(stats_buffer, end='')
# end offset not included (0,1) -> len=1
# return a list of offsets where files and sys files begin
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def __get_offsets_map(self):
# offsets_map is used to check next used offset when updating files
# we also check if there is intersect between files
offsets_map = [(0, len(self.__tableofcontent))]
for i in range(self.__file_count):
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file_offset = self.__get_file_offset(i)
offsets_map.append( (file_offset, file_offset + self.__get_file_len(i)) )
if self.__filenamedirectory:
filenamedirectory_offset = self.__get_filenamedirectory_offset()
offsets_map.append( (filenamedirectory_offset, filenamedirectory_offset + self.__get_filenamedirectory_len()) )
offsets_map.sort(key=lambda x: x[0])
# Check if there is problems in file memory mapping
last_tuple = (-1, -1)
for i, offsets_tuple in enumerate(offsets_map):
if offsets_tuple[0] < last_tuple[1]:
raise AfsOffsetCollisionError(f"Error - Multiple files use same file offsets ranges.")
last_tuple = offsets_tuple
offsets_map[i] = offsets_tuple[0]
return offsets_map
# end offset not included (0,1) -> len=1
def __get_formated_map(self):
files_map = [("SYS TOC ", "00000000", f"{len(self.__tableofcontent):08x}", f"{len(self.__tableofcontent):08x}", "SYS TOC"+' '*12, "SYS TOC ", "SYS TOC")]
for i in range(self.__file_count):
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file_offset = self.__get_file_offset(i)
file_len = self.__get_file_len(i)
file_date = datetime.fromtimestamp(self.__get_file_mtime(i)).strftime("%Y-%m-%d %H:%M:%S") if self.__filenamedirectory else " "*19
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filename = self.__get_file_name(i) if self.__filenamedirectory else f"{i:08}"
fdlast = f"{self.__get_file_fdlast(i):08x}" if self.__filenamedirectory else " "*8
files_map.append((f"{i:08x}", f"{file_offset:08x}", f"{file_offset + file_len:08x}", f"{file_len:08x}", file_date, fdlast, filename))
if self.__filenamedirectory:
files_map.append(("SYS FD ", f"{self.__filenamedirectory_offset:08x}", \
f"{self.__filenamedirectory_offset + len(self.__filenamedirectory):08x}", \
f"{len(self.__filenamedirectory):08x}", "SYS FD"+' '*13, "SYS FD ", "SYS FD"))
return files_map
def __get_fdlast_type(self):
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# Try to get the type of FD last attribute
length_type = True
offset_length_type = True
constant_type = self.__get_file_fdlast(0)
for i in range(self.__file_count):
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fd_last_attribute = self.__get_file_fdlast(i)
if fd_last_attribute != self.__get_file_len(i):
length_type = None
if fd_last_attribute != self.__tableofcontent[8+i*4:8+i*4+4]:
offset_length_type = None
if fd_last_attribute != constant_type:
constant_type = None
if length_type: return "length"
if offset_length_type: return "offset-length"
if constant_type: return f"0x{constant_type:x}"
logging.info("Unknown FD last attribute type.")
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return "unknown"
def __write_rebuild_config(self, sys_path:Path, resolver:FilenameResolver):
config = ConfigParser(allow_no_value=True) # allow_no_value to allow adding comments
config.optionxform = str # makes options case sensitive
config.add_section("Default")
config.set("Default", "# Documentation available here: https://github.com/Virtual-World-RE/NeoGF/blob/main/README.md#afs_rebuildconf--afs_rebuildcsv")
config.set("Default", "AFS_MAGIC", f"0x{self.__get_magic().hex()}")
config.set("Default", "files_rebuild_strategy", "mixed")
config.set("Default", "filename_directory", "True" if self.__filenamedirectory else "False")
if self.__filenamedirectory:
config.add_section("FilenameDirectory")
config.set("FilenameDirectory", "toc_offset_of_fd_offset", f"0x{self.__filenamedirectory_offset_offset:x}")
config.set("FilenameDirectory", "fd_offset", f"0x{self.__filenamedirectory_offset:x}")
config.set("FilenameDirectory", "fd_last_attribute_type", self.__get_fdlast_type())
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config.write((sys_path / "afs_rebuild.conf").open("w"))
rebuild_csv = ""
# generate and save afs_rebuild.csv
for i in range(self.__file_count):
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filename = self.__get_file_name(i) if self.__filenamedirectory else f"{i:08}"
unpacked_filename = resolver.resolve_from_index(i, filename) if self.__filenamedirectory else f"{i:08}"
rebuild_csv += f"{unpacked_filename}/0x{i:x}/0x{self.__get_file_offset(i):x}/{filename}\n"
if len(rebuild_csv) > 0:
(sys_path / "afs_rebuild.csv").write_text(rebuild_csv[:-1])
def unpack(self, afs_path:Path, folder_path:Path):
sys_path = folder_path / "sys"
root_path = folder_path / "root"
sys_path.mkdir(parents=True)
root_path.mkdir()
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resolver = None
with afs_path.open("rb") as afs_file:
if not self.__loadsys_from_afs(afs_file, afs_path.stat().st_size):
logging.info("There is no filename directory. Creating new names and dates for files.")
else:
logging.debug(f"filenamedirectory_offset:0x{self.__filenamedirectory_offset:x}, filenamedirectory_len:0x{self.__filenamedirectory_len:x}.")
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logging.info(f"Writting {Path('sys/filenamedirectory.bin')}")
(sys_path / "filenamedirectory.bin").write_bytes(self.__filenamedirectory)
resolver = FilenameResolver(sys_path)
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logging.info(f"Writting {Path('sys/tableofcontent.bin')}")
(sys_path / "tableofcontent.bin").write_bytes(self.__tableofcontent)
logging.info(f"Extracting {self.__file_count} files.")
for i in range(self.__file_count):
file_offset = self.__get_file_offset(i)
file_len = self.__get_file_len(i)
filename = resolver.resolve_new(i, self.__get_file_name(i)) if self.__filenamedirectory else f"{i:08}"
logging.debug(f"Writting {root_path / filename} 0x{file_offset:x}:0x{file_offset + file_len:x}")
afs_file.seek(file_offset)
(root_path / filename).write_bytes(afs_file.read(file_len))
if self.__filenamedirectory:
mtime = self.__get_file_mtime(i)
os.utime(root_path / filename, (mtime, mtime))
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if self.__filenamedirectory:
resolver.save()
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self.__write_rebuild_config(sys_path, resolver)
def pack(self, folder_path:Path, afs_path:Path = None):
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if afs_path is None:
afs_path = folder_path / Path(folder_path.name).with_suffix(".afs")
elif afs_path.suffix != ".afs":
logging.warning("Dest file should have .afs file extension.")
sys_path = folder_path / "sys"
root_path = folder_path / "root"
self.__loadsys_from_folder(sys_path)
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resolver = FilenameResolver(sys_path)
offsets_map = self.__get_offsets_map()
if self.__filenamedirectory:
fd_last_attribute_type = self.__get_fdlast_type()
if fd_last_attribute_type[:2] == "0x":
fd_last_attribute_type = int(fd_last_attribute_type, 16)
with afs_path.open("wb") as afs_file:
# We update files
for i in range(self.__file_count):
file_offset = self.__get_file_offset(i)
file_len = self.__get_file_len(i)
filename = resolver.resolve_from_index(i, self.__get_file_name(i) if self.__filenamedirectory else f"{i:08}")
file_path = root_path / filename
new_file_len = file_path.stat().st_size
if new_file_len != file_len:
# If no FD, we can raise AFS length without constraint
if offsets_map.index(file_offset) + 1 < len(offsets_map):
next_offset = offsets_map[offsets_map.index(file_offset)+1]
if file_offset + new_file_len > next_offset:
raise AfsInvalidFileLenError(f"File {file_path} as a new file_len (0x{new_file_len:x}) > next file offset (0x{next_offset:x}). "\
"This means that we have to rebuild the AFS using -r and changing offset of all next files and this could lead to bugs if the main dol use AFS relative file offsets.")
self.__patch_file_len(i, new_file_len)
if self.__filenamedirectory:
self.__patch_fdlasts(i, fd_last_attribute_type)
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# If there is a filenamedirectory we update mtime:
if self.__filenamedirectory:
self.__patch_file_mtime(i, round(file_path.stat().st_mtime))
logging.debug(f"Packing {file_path} 0x{file_offset:x}:0x{file_offset+new_file_len:x} in AFS.")
afs_file.seek(file_offset)
afs_file.write(self.__pad(file_path.read_bytes()))
if self.__filenamedirectory:
afs_file.seek(self.__filenamedirectory_offset)
afs_file.write(self.__pad(self.__filenamedirectory))
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logging.debug(f"Packing {sys_path / 'tableofcontent.bin'} at the beginning of the AFS.")
afs_file.seek(0)
afs_file.write(self.__tableofcontent)
def rebuild(self, folder_path:Path):
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config = ConfigParser()
root_path = folder_path / "root"
sys_path = folder_path / "sys"
config.read(sys_path / "afs_rebuild.conf")
if config["Default"]["AFS_MAGIC"] not in ["0x41465300", "0x41465320"]:
raise AfsInvalidMagicNumberError("Error - Invalid [Default] AFS_MAGIC: must be 0x41465300 or 0x41465320.")
if config["Default"]["files_rebuild_strategy"] not in ["index", "offset", "mixed", "auto"]:
raise AfsInvalidFilesRebuildStrategy("Error - Invalid [Default] files_rebuild_strategy: must be index, offset, mixed or auto.")
if config["Default"]["filename_directory"] not in ["True", "False"]:
raise AfsFilenameDirectoryValueError("Error - Invalid [Default] filename_directory: must be True or False.")
for path in [sys_path / "tableofcontent.bin", sys_path / "filenamedirectory.bin", sys_path / "filename_resolver.csv"]:
if path.is_file():
logging.info(f"Removing {path}.")
path.unlink()
files_paths = list(root_path.glob("*"))
self.__file_count = len(files_paths)
max_offset = None
if config["Default"]["filename_directory"] == "True":
if config["FilenameDirectory"]["toc_offset_of_fd_offset"] != "auto":
if config["FilenameDirectory"]["toc_offset_of_fd_offset"][:2] != "0x" or len(config["FilenameDirectory"]["toc_offset_of_fd_offset"]) < 3:
raise AfsFdOffsetOffsetValueError("Error - Invalid [FilenameDirectory] toc_offset_of_fd_offset: must use hex format 0xabcdef or auto.")
self.__filenamedirectory_offset_offset = int(config["FilenameDirectory"]["toc_offset_of_fd_offset"][2:], 16)
else:
self.__filenamedirectory_offset_offset = self.__file_count*8 + 8
max_offset = int(ceil((self.__filenamedirectory_offset_offset + 8) / Afs.ALIGN)) * Afs.ALIGN # TOC length
self.__filenamedirectory_len = self.__file_count * Afs.FILENAMEDIRECTORY_ENTRY_LEN
if config["FilenameDirectory"]["fd_offset"] != "auto":
if config["FilenameDirectory"]["fd_offset"][:2] != "0x" or len(config["FilenameDirectory"]["fd_offset"]) < 3:
raise AfsFdOffsetValueError("Error - Invalid [FilenameDirectory] fd_offset: must use hex format 0xabcdef or auto.")
self.__filenamedirectory_offset = int(config["FilenameDirectory"]["fd_offset"][2:], 16)
if config["FilenameDirectory"]["fd_last_attribute_type"] not in ["length", "offset-length", "unknown"]:
if config["FilenameDirectory"]["fd_last_attribute_type"][0:2] != "0x" or len(config["FilenameDirectory"]["fd_last_attribute_type"]) < 3:
raise AfsFdLastAttributeTypeValueError("Error - Invalid [FilenameDirectory] fd_last_attribute_type: must be length, offset-length, 0xabcdef offset or unknown.")
else:
max_offset = int(ceil((self.__file_count*8 + 8) / Afs.ALIGN)) * Afs.ALIGN # TOC length
self.__tableofcontent = bytearray.fromhex( config["Default"]["AFS_MAGIC"][2:] ) + self.__file_count.to_bytes(4, "little")
files_rebuild_strategy = config["Default"]["files_rebuild_strategy"]
csv_files_lists = []
reserved_indexes = []
empty_blocks_list = []
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# We parse the file csv and verify entries retrieving length for files
if (sys_path / "afs_rebuild.csv").is_file():
for line in (sys_path / "afs_rebuild.csv").read_text().split('\n'):
line_splited = line.split('/')
if len(line_splited) == 4:
unpacked_filename = line_splited[0]
index = None
if files_rebuild_strategy in ["index", "mixed"]:
if line_splited[1] != "auto":
index = line_splited[1]
if index[:2] != "0x" or len(index) < 3:
raise AfsIndexValueError(f"Error - Invalid entry index in afs_rebuild.csv: {index} - \"{line}\"")
index = int(index[2:], 16)
if index >= self.__file_count:
raise AfsIndexOverflowError(f"Error - Invalid entry index in afs_rebuild.csv: 0x{index:x} - \"{line}\" - index must be < files_count.")
if index in reserved_indexes:
raise AfsIndexCollisionError("Error - Multiple files using same index: 0x{index:x}")
reserved_indexes.append( index )
file_path = root_path / unpacked_filename
if not file_path.is_file():
raise AfsInvalidFilePathError(f"Error - File {file_path} doesn't exist.")
file_length = file_path.stat().st_size
offset = None
if files_rebuild_strategy in ["offset", "mixed"]:
if line_splited[2] != "auto":
offset = line_splited[2]
if offset[:2] != "0x" or len(offset) < 3:
raise AfsOffsetValueError(f"Error - Invalid entry offset in afs_rebuild.csv: {offset} - \"{line}\"")
offset = int(offset[2:], 16)
if offset % Afs.ALIGN > 0:
raise AfsOffsetAlignError(f"Error - Invalid entry offset in afs_rebuild.csv: 0x{offset:x} - \"{line}\" - offset must be aligned to 0x800.")
csv_files_lists.append( [unpacked_filename, index, offset, line_splited[3], file_length] )
files_paths.remove( root_path / unpacked_filename )
elif len(line_splited) == 2: # empty block
if line_splited[0][:2] != "0x" or line_splited[1][:2] != "0x" or len(line_splited[0]) < 3 or len(line_splited[1]) < 3:
raise AfsEmptyBlockValueError(f"Error - Invalid empty block values: \"{line}\"")
offset = int(line_splited[0][2:], 16)
length = int(line_splited[1][2:], 16)
if offset % Afs.ALIGN > 0 or length % Afs.ALIGN > 0:
raise AfsEmptyBlockAlignError(f"Error - Invalid empty block offset or length in afs_rebuild.csv: \"{line}\" - offset and length must be aligned to 0x800.")
empty_blocks_list.append([None, None, offset, None, length])
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else:
raise AfsInvalidFieldsCountError(f"Error - Invalid entry fields count in afs_rebuild.csv: \"{line}\"")
# We generate file memory map with offsets:
# available_space_ranges is then used to put files that have an adapted length
# max_offset is used here to find memory collisions between files and next available space
available_space_ranges = []
tmp_ranges = empty_blocks_list
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if files_rebuild_strategy in ["offset", "mixed"]:
tmp_ranges += csv_files_lists
# We have to sort offsets before merging to avoid complex algorithm
# TOC is already present with max_offset
for file_tuple in sorted(tmp_ranges, key=lambda x: (x[2] is not None, x[2])):
offset = file_tuple[2]
if offset is None:
continue
if offset < max_offset:
raise AfsOffsetCollisionError(f"Error - Offsets collision with offset \"0x{offset:x}\".")
elif offset > max_offset:
available_space_ranges.append( [max_offset, offset] )
max_offset = int(ceil((offset + file_tuple[4]) / Afs.ALIGN)) * Afs.ALIGN
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for file_path in files_paths:
csv_files_lists.append( [file_path.name, None, None, file_path.name, file_path.stat().st_size] )
# sort by filename
csv_files_lists.sort(key=lambda x: x[3])
current_offset = max_offset
# if index==None -> Assign an index not in reserved_indexes
reserved_indexes.sort()
next_index = 0
for i in range(len(csv_files_lists)):
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if csv_files_lists[i][1] is None and files_rebuild_strategy in ["index", "mixed"] or files_rebuild_strategy in ["auto", "offset"]:
for j in range(next_index, len(csv_files_lists)):
if j not in reserved_indexes:
next_index = j + 1
csv_files_lists[i][1] = j
break
# sort by index
csv_files_lists.sort(key=lambda x: x[1])
# if offset==None -> Assign an offset in available_space_ranges or at the end of file allocated space
for i in range(len(csv_files_lists)):
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if files_rebuild_strategy in ["offset", "mixed"] and csv_files_lists[i][2] is None or files_rebuild_strategy in ["auto", "index"]:
block_len = int(ceil(csv_files_lists[i][4] / Afs.ALIGN)) * Afs.ALIGN
for j in range(len(available_space_ranges)):
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available_block_len = int(ceil((available_space_ranges[j][1] - available_space_ranges[j][0]) / Afs.ALIGN)) * Afs.ALIGN
if block_len <= available_block_len:
csv_files_lists[i][2] = available_space_ranges[j][0]
if block_len == available_block_len:
del available_space_ranges[j]
else:
available_space_ranges[j][0] += block_len
break
else:
# Here we have a bigger file than available ranges so we pick current_offset at the end of allocated space
csv_files_lists[i][2] = current_offset
current_offset += block_len
if self.__filenamedirectory_offset_offset:
self.__filenamedirectory = b""
fd_last_attribute_type = config["FilenameDirectory"]["fd_last_attribute_type"]
if fd_last_attribute_type[:2] == "0x":
fd_last_attribute_type = int(fd_last_attribute_type[2:], 16)
# Have to be sorted by index
# current_offset contains now fd offset if not already set
resolver = FilenameResolver(sys_path)
for i in range(len(csv_files_lists)):
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self.__tableofcontent += csv_files_lists[i][2].to_bytes(4, "little") + csv_files_lists[i][4].to_bytes(4, "little")
# unpacked_filename, index, offset, filename, file_length
if self.__filenamedirectory_offset_offset:
mtime = b"\x00" * 12 # will be patched next pack
fd_last_attribute = None
if type(fd_last_attribute_type) == int:
fd_last_attribute = fd_last_attribute_type.to_bytes(4, "little")
elif fd_last_attribute_type == "length":
fd_last_attribute = csv_files_lists[i][4].to_bytes(4, "little")
elif fd_last_attribute_type == "offset-length":
fd_last_attribute = self.__tableofcontent[8+i*4:8+i*4+4]
else: # == unknown
fd_last_attribute = b"\x00"*4
self.__filenamedirectory += bytes(csv_files_lists[i][3], "utf-8").ljust(32, b"\x00") + mtime + fd_last_attribute
# if unpacked_filename != filename we store it into the resolver
if csv_files_lists[i][0] != csv_files_lists[i][3] or not self.__filenamedirectory_offset_offset:
resolver.add(i, csv_files_lists[i][0])
resolver.save()
if self.__filenamedirectory:
if not self.__filenamedirectory_offset:
self.__filenamedirectory_offset = current_offset
elif self.__filenamedirectory_offset < current_offset:
raise AfsFdOffsetCollisionError(f"Error - Invalid FD offset 0x{self.__filenamedirectory_offset:x} < last used file block end 0x{current_offset:x}.")
self.__tableofcontent = self.__tableofcontent.ljust(self.__filenamedirectory_offset_offset+8, b"\x00") # Add pad if needed
self.__tableofcontent[self.__filenamedirectory_offset_offset:self.__filenamedirectory_offset_offset+8] = self.__filenamedirectory_offset.to_bytes(4, "little") + self.__filenamedirectory_len.to_bytes(4, "little")
logging.info(f"Writting {Path('sys/filenamedirectory.bin')}")
(sys_path / "filenamedirectory.bin").write_bytes(self.__filenamedirectory)
logging.info(f"Writting {Path('sys/tableofcontent.bin')}")
(sys_path / "tableofcontent.bin").write_bytes(self.__tableofcontent)
def stats(self, path:Path):
if path.is_file():
with path.open("rb") as afs_file:
self.__loadsys_from_afs(afs_file, path.stat().st_size)
else:
self.__loadsys_from_folder(path / "sys")
files_map = self.__get_formated_map()
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files_map.sort(key=lambda x: x[1]) # sort by offset (str with fixed len=8)
# Offsets intersect
dup_offsets_tuples = []
last_tuple = (-1, "-1", "0") # empty space search init
new_set = True
# Filenames duplicates
dup_names_dict = {} # tmp dict for grouping by filename
dup_names_tuples = []
# For empty blocks
empty_space_tuples = []
for file_tuple in files_map:
# Filenames duplicates
if not file_tuple[6] in dup_names_dict:
dup_names_dict[file_tuple[6]] = [file_tuple]
else:
dup_names_dict[file_tuple[6]].append(file_tuple)
# Offsets intersect
if file_tuple[1] < last_tuple[1]:
if new_set:
dup_offsets_tuples.append("Files sharing same offsets:\n")
new_set = False
dup_offsets_tuples.append(file_tuple)
else:
new_set = True
# Empty blocks
last_block_end = ceil(int(last_tuple[2], base=16) / Afs.ALIGN) * Afs.ALIGN
if int(file_tuple[1], base=16) - last_block_end >= Afs.ALIGN:
empty_space_tuples.append( (last_tuple[2], file_tuple[1], f"{int(file_tuple[1], base=16) - int(last_tuple[2], base=16):08x}", file_tuple[6]) )
last_tuple = file_tuple
for filename in dup_names_dict:
if len(dup_names_dict[filename]) > 1:
dup_names_tuples += ["Files sharing same name:\n"] + [file_tuple for file_tuple in dup_names_dict[filename]]
dup_offsets = "Yes" if len(dup_offsets_tuples) > 1 else "No"
dup_names = "Yes" if len(dup_names_tuples) > 1 else "No"
empty_space = "Yes" if len(empty_space_tuples) > 1 else "No"
files_info = f"AFS Magic/Version : {str(self.__get_magic())[2:-1]}\n"
files_info += f"TOC offset of the FD offset : 0x{self.__filenamedirectory_offset_offset:x}\n" if self.__filenamedirectory else ""
files_info += f"Multiple files using same offsets: {dup_offsets}\n"
files_info += f"Multiple files using same name : {dup_names}\n" if self.__filenamedirectory else ""
files_info += f"Empty blocks : {empty_space}\n"
self.__print("Global infos and AFS space mapping:", files_map, infos=files_info)
if dup_offsets_tuples:
self.__print("Files sharing same AFS offsets:", dup_offsets_tuples)
if dup_names_tuples:
self.__print("Files using same filenames:", dup_names_tuples)
if empty_space_tuples:
self.__print("Empty blocks between files (filename = name of the previous file):", empty_space_tuples, columns=[1,2,3,6])
def get_argparser():
import argparse
parser = argparse.ArgumentParser(description='AFS packer & unpacker - [GameCube] 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)
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group.add_argument('-p', '--pack', action='store_true', help="-p source_folder (dest_file.afs): Pack source_folder in new file source_folder.afs or dest_file.afs if specified.")
group.add_argument('-u', '--unpack', action='store_true', help="-u source_afs.afs (dest_folder): Unpack the AFS in new folder source_afs or dest_folder if specified.")
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group.add_argument('-s', '--stats', action='store_true', help="-s source_afs.afs or source_folder: Get stats about AFS, files, memory, lengths and offsets.")
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group.add_argument('-r', '--rebuild', action='store_true', help="-r source_folder: Rebuild AFS tableofcontent (TOC) and filenamedirectory (FD) using afs_rebuild.conf file and afs_rebuild.csv.")
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)
afs = Afs()
if args.verbose:
logging.getLogger().setLevel(logging.DEBUG)
if args.pack:
logging.info("### Pack in new AFS")
if(p_output == Path(".")):
p_output = Path(p_input.with_suffix(".afs"))
logging.info(f"packing folder {p_input} in {p_output}")
afs.pack( p_input, p_output )
elif args.unpack:
logging.info("### Unpack AFS in new folder")
if p_output == Path("."):
p_output = p_input.parent / p_input.stem
logging.info(f"unpacking AFS {p_input} in {p_output}")
afs.unpack( p_input, p_output )
elif args.stats:
afs.stats(p_input)
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elif args.rebuild:
if not (p_input / "sys").is_dir():
raise AfsInvalidAfsFolderError(f"Error - Invalid unpacked AFS: {p_input}.")
logging.info(f"rebuilding {p_input}")
afs.rebuild(p_input)