import bsdiff4
import yaml
import os
import lzma
import hashlib
import threading
import concurrent.futures
import zipfile
import sys
from typing import Tuple, Optional
import Utils
from worlds.alttp.Rom import JAP10HASH
current_patch_version = 1
def get_base_rom_path(file_name: str = "") -> str:
options = Utils.get_options()
if not file_name:
file_name = options["lttp_options"]["rom_file"]
if not os.path.exists(file_name):
file_name = Utils.local_path(file_name)
return file_name
def get_base_rom_bytes(file_name: str = "") -> bytes:
from worlds.alttp.Rom import read_rom
base_rom_bytes = getattr(get_base_rom_bytes, "base_rom_bytes", None)
if not base_rom_bytes:
file_name = get_base_rom_path(file_name)
base_rom_bytes = bytes(read_rom(open(file_name, "rb")))
basemd5 = hashlib.md5()
basemd5.update(base_rom_bytes)
if JAP10HASH != basemd5.hexdigest():
raise Exception('Supplied Base Rom does not match known MD5 for JAP(1.0) release. '
'Get the correct game and version, then dump it')
get_base_rom_bytes.base_rom_bytes = base_rom_bytes
return base_rom_bytes
def generate_yaml(patch: bytes, metadata: Optional[dict] = None) -> bytes:
patch = yaml.dump({"meta": metadata,
"patch": patch,
"game": "alttp",
"compatible_version": 1,
# minimum version of patch system expected for patching to be successful
"version": current_patch_version,
"base_checksum": JAP10HASH})
return patch.encode(encoding="utf-8-sig")
def generate_patch(rom: bytes, metadata: Optional[dict] = None) -> bytes:
if metadata is None:
metadata = {}
patch = bsdiff4.diff(get_base_rom_bytes(), rom)
return generate_yaml(patch, metadata)
def create_patch_file(rom_file_to_patch: str, server: str = "", destination: str = None) -> str:
bytes = generate_patch(load_bytes(rom_file_to_patch),
{
"server": server}) # allow immediate connection to server in multiworld. Empty string otherwise
target = destination if destination else os.path.splitext(rom_file_to_patch)[0] + ".apbp"
write_lzma(bytes, target)
return target
def create_rom_bytes(patch_file: str, ignore_version: bool = False) -> Tuple[dict, str, bytearray]:
data = Utils.parse_yaml(lzma.decompress(load_bytes(patch_file)).decode("utf-8-sig"))
if not ignore_version and data["compatible_version"] > current_patch_version:
raise RuntimeError("Patch file is incompatible with this patcher, likely an update is required.")
patched_data = bsdiff4.patch(get_base_rom_bytes(), data["patch"])
rom_hash = patched_data[int(0x7FC0):int(0x7FD5)]
data["meta"]["hash"] = "".join(chr(x) for x in rom_hash)
target = os.path.splitext(patch_file)[0] + ".sfc"
return data["meta"], target, patched_data
def create_rom_file(patch_file: str) -> Tuple[dict, str]:
data, target, patched_data = create_rom_bytes(patch_file)
with open(target, "wb") as f:
f.write(patched_data)
return data, target
def update_patch_data(patch_data: bytes, server: str = "") -> bytes:
data = Utils.parse_yaml(lzma.decompress(patch_data).decode("utf-8-sig"))
data["meta"]["server"] = server
bytes = generate_yaml(data["patch"], data["meta"])
return lzma.compress(bytes)
def load_bytes(path: str) -> bytes:
with open(path, "rb") as f:
return f.read()
def write_lzma(data: bytes, path: str):
with lzma.LZMAFile(path, 'wb') as f:
f.write(data)
if __name__ == "__main__":
host = Utils.get_public_ipv4()
options = Utils.get_options()['server_options']
if options['host']:
host = options['host']
address = f"{host}:{options['port']}"
ziplock = threading.Lock()
print(f"Host for patches to be created is {address}")
with concurrent.futures.ThreadPoolExecutor() as pool:
for rom in sys.argv:
try:
if rom.endswith(".sfc"):
print(f"Creating patch for {rom}")
result = pool.submit(create_patch_file, rom, address)
result.add_done_callback(lambda task: print(f"Created patch {task.result()}"))
elif rom.endswith(".apbp"):
print(f"Applying patch {rom}")
data, target = create_rom_file(rom)
romfile, adjusted = Utils.get_adjuster_settings(target)
if adjusted:
try:
os.replace(romfile, target)
romfile = target
except Exception as e:
print(e)
print(f"Created rom {romfile if adjusted else target}.")
if 'server' in data:
Utils.persistent_store("servers", data['hash'], data['server'])
print(f"Host is {data['server']}")
elif rom.endswith(".archipelago"):
import json
import zlib
with open(rom, 'rb') as fr:
multidata = zlib.decompress(fr.read()).decode("utf-8")
with open(rom + '.txt', 'w') as fw:
fw.write(multidata)
multidata = json.loads(multidata)
for romname in multidata['roms']:
Utils.persistent_store("servers", "".join(chr(byte) for byte in romname[2]), address)
from Utils import get_options
multidata["server_options"] = get_options()["server_options"]
multidata = zlib.compress(json.dumps(multidata).encode("utf-8"), 9)
with open(rom + "_updated.archipelago", 'wb') as f:
f.write(multidata)
elif rom.endswith(".zip"):
print(f"Updating host in patch files contained in {rom}")
def _handle_zip_file_entry(zfinfo: zipfile.ZipInfo, server: str):
data = zfr.read(zfinfo)
if zfinfo.filename.endswith(".apbp"):
data = update_patch_data(data, server)
with ziplock:
zfw.writestr(zfinfo, data)
return zfinfo.filename
futures = []
with zipfile.ZipFile(rom, "r") as zfr:
updated_zip = os.path.splitext(rom)[0] + "_updated.zip"
with zipfile.ZipFile(updated_zip, "w", compression=zipfile.ZIP_DEFLATED,
compresslevel=9) as zfw:
for zfname in zfr.namelist():
futures.append(pool.submit(_handle_zip_file_entry, zfr.getinfo(zfname), address))
for future in futures:
print(f"File {future.result()} added to {os.path.split(updated_zip)[1]}")
except:
import traceback
traceback.print_exc()
input("Press enter to close.")