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"""HTTP cache implementation.
"""
import os
from contextlib import contextmanager
from datetime import datetime
from typing import BinaryIO, Generator, Optional, Union
from pip._vendor.cachecontrol.cache import SeparateBodyBaseCache
from pip._vendor.cachecontrol.caches import SeparateBodyFileCache
from pip._vendor.requests.models import Response
from pip._internal.utils.filesystem import adjacent_tmp_file, replace
from pip._internal.utils.misc import ensure_dir
def is_from_cache(response: Response) -> bool:
return getattr(response, "from_cache", False)
@contextmanager
def suppressed_cache_errors() -> Generator[None, None, None]:
"""If we can't access the cache then we can just skip caching and process
requests as if caching wasn't enabled.
"""
try:
yield
except OSError:
pass
class SafeFileCache(SeparateBodyBaseCache):
"""
A file based cache which is safe to use even when the target directory may
not be accessible or writable.
There is a race condition when two processes try to write and/or read the
same entry at the same time, since each entry consists of two separate
files (https://github.com/psf/cachecontrol/issues/324). We therefore have
additional logic that makes sure that both files to be present before
returning an entry; this fixes the read side of the race condition.
For the write side, we assume that the server will only ever return the
same data for the same URL, which ought to be the case for files pip is
downloading. PyPI does not have a mechanism to swap out a wheel for
another wheel, for example. If this assumption is not true, the
CacheControl issue will need to be fixed.
"""
def __init__(self, directory: str) -> None:
assert directory is not None, "Cache directory must not be None."
super().__init__()
self.directory = directory
def _get_cache_path(self, name: str) -> str:
# From cachecontrol.caches.file_cache.FileCache._fn, brought into our
# class for backwards-compatibility and to avoid using a non-public
# method.
hashed = SeparateBodyFileCache.encode(name)
parts = list(hashed[:5]) + [hashed]
return os.path.join(self.directory, *parts)
def get(self, key: str) -> Optional[bytes]:
# The cache entry is only valid if both metadata and body exist.
metadata_path = self._get_cache_path(key)
body_path = metadata_path + ".body"
if not (os.path.exists(metadata_path) and os.path.exists(body_path)):
return None
with suppressed_cache_errors():
with open(metadata_path, "rb") as f:
return f.read()
def _write(self, path: str, data: bytes) -> None:
with suppressed_cache_errors():
ensure_dir(os.path.dirname(path))
with adjacent_tmp_file(path) as f:
f.write(data)
replace(f.name, path)
def set(
self, key: str, value: bytes, expires: Union[int, datetime, None] = None
) -> None:
path = self._get_cache_path(key)
self._write(path, value)
def delete(self, key: str) -> None:
path = self._get_cache_path(key)
with suppressed_cache_errors():
os.remove(path)
with suppressed_cache_errors():
os.remove(path + ".body")
def get_body(self, key: str) -> Optional[BinaryIO]:
# The cache entry is only valid if both metadata and body exist.
metadata_path = self._get_cache_path(key)
body_path = metadata_path + ".body"
if not (os.path.exists(metadata_path) and os.path.exists(body_path)):
return None
with suppressed_cache_errors():
return open(body_path, "rb")
def set_body(self, key: str, body: bytes) -> None:
path = self._get_cache_path(key) + ".body"
self._write(path, body)