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test / bt-source /panel /class /cachelib /file.py

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feat: deploy Gemma 4 to hf space

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	import errno
	import logging
	import os
	import platform
	import stat
	import struct
	import tempfile
	import typing as _t
	from contextlib import contextmanager
	from hashlib import md5
	from pathlib import Path
	from time import sleep
	from time import time

	from cachelib.base import BaseCache
	from cachelib.serializers import FileSystemSerializer
	from cachelib.simple import SimpleCache


	class FileSystemCache(BaseCache):
	"""A cache that stores the items on the file system. This cache depends
	on being the only user of the `cache_dir`. Make absolutely sure that
	nobody but this cache stores files there or otherwise the cache will
	randomly delete files therein.

	:param cache_dir: the directory where cache files are stored.
	:param threshold: the maximum number of items the cache stores before
	it starts deleting some. A threshold value of 0
	indicates no threshold.
	:param default_timeout: the default timeout that is used if no timeout is
	specified on :meth:`~BaseCache.set`. A timeout of
	0 indicates that the cache never expires.
	:param mode: the file mode wanted for the cache files, default 0600
	:param hash_method: Default hashlib.md5. The hash method used to
	generate the filename for cached results.
	"""

	#: used for temporary files by the FileSystemCache
	_fs_transaction_suffix = ".__wz_cache"
	#: keep amount of files in a cache element
	_fs_count_file = "__wz_cache_count"

	serializer = FileSystemSerializer()

	def __init__(
	self,
	cache_dir: str,
	threshold: int = 500,
	default_timeout: int = 300,
	mode: _t.Optional[int] = None,
	hash_method: _t.Any = md5,
	):
	BaseCache.__init__(self, default_timeout)
	self._path = cache_dir
	self._threshold = threshold
	self._hash_method = hash_method
	# 当出现磁盘空间不足时，触发使用内存进行会话存储的能力，保证用户可登录，操作删除垃圾文件
	self._mem_cache = SimpleCache(threshold=threshold, default_timeout=default_timeout)

	# Mode set by user takes precedence. If no mode has
	# been given, we need to set the correct default based
	# on user platform.
	self._mode = mode
	if self._mode is None:
	self._mode = self._get_compatible_platform_mode()

	try:
	os.makedirs(self._path)
	except OSError as ex:
	if ex.errno != errno.EEXIST:
	raise

	# If there are many files and a zero threshold,
	# the list_dir can slow initialisation massively
	if self._threshold != 0:
	self._update_count(value=len(list(self._list_dir())))

	def _get_compatible_platform_mode(self) -> int:
	mode = 0o600 # nix systems
	if platform.system() == "Windows":
	mode = stat.S_IWRITE
	return mode

	@property
	def _file_count(self) -> int:
	return self.get(self._fs_count_file) or 0

	def _update_count(
	self, delta: _t.Optional[int] = None, value: _t.Optional[int] = None
	) -> None:
	# If we have no threshold, don't count files
	if self._threshold == 0:
	return
	if delta:
	new_count = self._file_count + delta
	else:
	new_count = value or 0
	self.set(self._fs_count_file, new_count, mgmt_element=True)

	def _normalize_timeout(self, timeout: _t.Optional[int]) -> int:
	timeout = BaseCache._normalize_timeout(self, timeout)
	if timeout != 0:
	timeout = int(time()) + timeout
	return int(timeout)

	def _is_mgmt(self, name: str) -> bool:
	fshash = self._get_filename(self._fs_count_file).split(os.sep)[-1]
	return name == fshash or name.endswith(self._fs_transaction_suffix)

	def _list_dir(self) -> _t.Generator[str, None, None]:
	"""return a list of (fully qualified) cache filenames"""
	return (
	os.path.join(self._path, fn)
	for fn in os.listdir(self._path)
	if not self._is_mgmt(fn)
	)

	def _over_threshold(self) -> bool:
	return self._threshold != 0 and self._file_count > self._threshold

	def _remove_expired(self, now: float) -> None:
	for fname in self._list_dir():
	try:
	with self._safe_stream_open(fname, "rb") as f:
	expires = struct.unpack("I", f.read(4))[0]
	if expires != 0 and expires < now:
	os.remove(fname)
	self._update_count(delta=-1)
	except FileNotFoundError:
	pass
	except (OSError, EOFError, struct.error):
	logging.warning(
	"Exception raised while handling cache file '%s'",
	fname,
	exc_info=True,
	)

	def _remove_older(self) -> bool:
	exp_fname_tuples = []
	for fname in self._list_dir():
	try:
	with self._safe_stream_open(fname, "rb") as f:
	timestamp = struct.unpack("I", f.read(4))[0]
	exp_fname_tuples.append((timestamp, fname))
	except FileNotFoundError:
	pass
	except (OSError, EOFError, struct.error):
	logging.warning(
	"Exception raised while handling cache file '%s'",
	fname,
	exc_info=True,
	)
	fname_sorted = (
	fname
	for _, fname in sorted(
	exp_fname_tuples, key=lambda item: item[0] # type: ignore
	)
	)
	for fname in fname_sorted:
	try:
	os.remove(fname)
	self._update_count(delta=-1)
	except FileNotFoundError:
	pass
	except OSError:
	logging.warning(
	"Exception raised while handling cache file '%s'",
	fname,
	exc_info=True,
	)
	return False
	if not self._over_threshold():
	break
	return True

	def _prune(self) -> None:
	if self._over_threshold():
	now = time()
	self._remove_expired(now)
	# if still over threshold
	if self._over_threshold():
	self._remove_older()

	def clear(self) -> bool:
	for i, fname in enumerate(self._list_dir()):
	try:
	os.remove(fname)
	except FileNotFoundError:
	pass
	except OSError:
	logging.warning(
	"Exception raised while handling cache file '%s'",
	fname,
	exc_info=True,
	)
	self._update_count(delta=-i)
	return False
	self._update_count(value=0)
	self._mem_cache.clear()
	return True

	def _get_filename(self, key: str) -> str:
	if isinstance(key, str):
	bkey = key.encode("utf-8") # XXX unicode review
	bkey_hash = self._hash_method(bkey).hexdigest()
	else:
	raise TypeError(f"Key must be a string, received type {type(key)}")
	return os.path.join(self._path, bkey_hash)

	def get(self, key: str) -> _t.Any:
	if not isinstance(key, str): return False
	filename = self._get_filename(key)
	try:
	with self._safe_stream_open(filename, "rb") as f:
	pickle_time = struct.unpack("I", f.read(4))[0]
	if pickle_time == 0 or pickle_time >= time():
	return self.serializer.load(f)
	except FileNotFoundError:
	pass
	except (OSError, EOFError, struct.error):
	logging.warning(
	"Exception raised while handling cache file '%s'",
	filename,
	exc_info=True,
	)
	if self._mem_cache.has(key):
	return self._mem_cache.get(key)
	return None

	def add(self, key: str, value: _t.Any, timeout: _t.Optional[int] = None) -> bool:
	if not isinstance(key, str): return False
	type_list = (int, float, bool, str, list, dict, tuple, set, bytes)
	value_type = type(value)
	if value_type not in type_list:
	return False
	filename = self._get_filename(key)
	if not os.path.exists(filename):
	return self.set(key, value, timeout)
	return False

	def set(
	self,
	key: str,
	value: _t.Any,
	timeout: _t.Optional[int] = None,
	mgmt_element: bool = False,
	) -> bool:
	if not isinstance(key, str): return False
	type_list = (int, float, bool, str, list, dict, tuple, set, bytes)
	value_type = type(value)
	if value_type not in type_list:
	return False
	# Management elements have no timeout
	if mgmt_element:
	timeout = 0
	# Don't prune on management element update, to avoid loop
	else:
	self._prune()

	timeout = self._normalize_timeout(timeout)
	filename = self._get_filename(key)
	overwrite = os.path.isfile(filename)

	try:
	fd, tmp = tempfile.mkstemp(
	suffix=self._fs_transaction_suffix, dir=self._path
	)
	with os.fdopen(fd, "wb") as f:
	f.write(struct.pack("I", timeout))
	self.serializer.dump(value, f)

	self._run_safely(os.replace, tmp, filename)
	self._run_safely(os.chmod, filename, self._mode)

	fsize = Path(filename).stat().st_size
	except OSError as e:
	if "No space left on device" in str(e):
	return self._mem_cache.set(key, value, timeout)
	logging.warning(
	"Exception raised while handling cache file '%s'",
	filename,
	exc_info=True,
	)
	return False
	else:
	# Management elements should not count towards threshold
	if not overwrite and not mgmt_element:
	self._update_count(delta=1)
	return fsize > 0 # function should fail if file is empty

	def delete(self, key: str, mgmt_element: bool = False) -> bool:
	if self._mem_cache.has(key):
	self._mem_cache.delete(key)
	try:
	os.remove(self._get_filename(key))
	except FileNotFoundError: # if file doesn't exist we consider it deleted
	return True
	except OSError:
	logging.warning("Exception raised while handling cache file", exc_info=True)
	return False
	else:
	# Management elements should not count towards threshold
	if not mgmt_element:
	self._update_count(delta=-1)
	return True

	def has(self, key: str) -> bool:
	if self._mem_cache.has(key):
	return True
	filename = self._get_filename(key)
	try:
	with self._safe_stream_open(filename, "rb") as f:
	pickle_time = struct.unpack("I", f.read(4))[0]
	if pickle_time == 0 or pickle_time >= time():
	return True
	else:
	return False
	except FileNotFoundError: # if there is no file there is no key
	return False
	except (OSError, EOFError, struct.error):
	logging.warning(
	"Exception raised while handling cache file '%s'",
	filename,
	exc_info=True,
	)
	return False

	def _run_safely(self, fn: _t.Callable, args: _t.Any, *kwargs: _t.Any) -> _t.Any:
	"""On Windows os.replace, os.chmod and open can yield
	permission errors if executed by two different processes."""
	if platform.system() == "Windows":
	output = None
	wait_step = 0.001
	max_sleep_time = 10.0
	total_sleep_time = 0.0

	while total_sleep_time < max_sleep_time:
	try:
	output = fn(args, *kwargs)
	except PermissionError:
	sleep(wait_step)
	total_sleep_time += wait_step
	wait_step *= 2
	else:
	break
	else:
	output = fn(args, *kwargs)

	return output

	@contextmanager
	def _safe_stream_open(self, path: str, mode: str) -> _t.Generator:
	fs = self._run_safely(open, path, mode)
	if fs is None:
	raise OSError
	try:
	yield fs
	finally:
	fs.close()