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233 lines
8.3 KiB
233 lines
8.3 KiB
from __future__ import annotations
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import os
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import pickle
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import time
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from typing import TYPE_CHECKING
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from fsspec.utils import atomic_write
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try:
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import ujson as json
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except ImportError:
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if not TYPE_CHECKING:
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import json
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if TYPE_CHECKING:
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from typing import Any, Dict, Iterator, Literal
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from typing_extensions import TypeAlias
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from .cached import CachingFileSystem
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Detail: TypeAlias = Dict[str, Any]
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class CacheMetadata:
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"""Cache metadata.
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All reading and writing of cache metadata is performed by this class,
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accessing the cached files and blocks is not.
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Metadata is stored in a single file per storage directory in JSON format.
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For backward compatibility, also reads metadata stored in pickle format
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which is converted to JSON when next saved.
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"""
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def __init__(self, storage: list[str]):
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"""
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Parameters
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----------
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storage: list[str]
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Directories containing cached files, must be at least one. Metadata
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is stored in the last of these directories by convention.
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"""
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if not storage:
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raise ValueError("CacheMetadata expects at least one storage location")
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self._storage = storage
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self.cached_files: list[Detail] = [{}]
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# Private attribute to force saving of metadata in pickle format rather than
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# JSON for use in tests to confirm can read both pickle and JSON formats.
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self._force_save_pickle = False
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def _load(self, fn: str) -> Detail:
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"""Low-level function to load metadata from specific file"""
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try:
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with open(fn, "r") as f:
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loaded = json.load(f)
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except ValueError:
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with open(fn, "rb") as f:
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loaded = pickle.load(f)
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for c in loaded.values():
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if isinstance(c.get("blocks"), list):
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c["blocks"] = set(c["blocks"])
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return loaded
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def _save(self, metadata_to_save: Detail, fn: str) -> None:
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"""Low-level function to save metadata to specific file"""
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if self._force_save_pickle:
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with atomic_write(fn) as f:
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pickle.dump(metadata_to_save, f)
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else:
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with atomic_write(fn, mode="w") as f:
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json.dump(metadata_to_save, f)
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def _scan_locations(
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self, writable_only: bool = False
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) -> Iterator[tuple[str, str, bool]]:
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"""Yield locations (filenames) where metadata is stored, and whether
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writable or not.
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Parameters
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----------
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writable: bool
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Set to True to only yield writable locations.
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Returns
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-------
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Yields (str, str, bool)
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"""
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n = len(self._storage)
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for i, storage in enumerate(self._storage):
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writable = i == n - 1
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if writable_only and not writable:
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continue
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yield os.path.join(storage, "cache"), storage, writable
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def check_file(
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self, path: str, cfs: CachingFileSystem | None
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) -> Literal[False] | tuple[Detail, str]:
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"""If path is in cache return its details, otherwise return ``False``.
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If the optional CachingFileSystem is specified then it is used to
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perform extra checks to reject possible matches, such as if they are
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too old.
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"""
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for (fn, base, _), cache in zip(self._scan_locations(), self.cached_files):
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if path not in cache:
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continue
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detail = cache[path].copy()
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if cfs is not None:
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if cfs.check_files and detail["uid"] != cfs.fs.ukey(path):
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# Wrong file as determined by hash of file properties
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continue
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if cfs.expiry and time.time() - detail["time"] > cfs.expiry:
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# Cached file has expired
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continue
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fn = os.path.join(base, detail["fn"])
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if os.path.exists(fn):
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return detail, fn
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return False
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def clear_expired(self, expiry_time: int) -> tuple[list[str], bool]:
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"""Remove expired metadata from the cache.
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Returns names of files corresponding to expired metadata and a boolean
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flag indicating whether the writable cache is empty. Caller is
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responsible for deleting the expired files.
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"""
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expired_files = []
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for path, detail in self.cached_files[-1].copy().items():
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if time.time() - detail["time"] > expiry_time:
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fn = detail.get("fn", "")
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if not fn:
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raise RuntimeError(
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f"Cache metadata does not contain 'fn' for {path}"
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)
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fn = os.path.join(self._storage[-1], fn)
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expired_files.append(fn)
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self.cached_files[-1].pop(path)
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if self.cached_files[-1]:
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cache_path = os.path.join(self._storage[-1], "cache")
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self._save(self.cached_files[-1], cache_path)
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writable_cache_empty = not self.cached_files[-1]
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return expired_files, writable_cache_empty
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def load(self) -> None:
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"""Load all metadata from disk and store in ``self.cached_files``"""
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cached_files = []
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for fn, _, _ in self._scan_locations():
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if os.path.exists(fn):
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# TODO: consolidate blocks here
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cached_files.append(self._load(fn))
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else:
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cached_files.append({})
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self.cached_files = cached_files or [{}]
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def on_close_cached_file(self, f: Any, path: str) -> None:
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"""Perform side-effect actions on closing a cached file.
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The actual closing of the file is the responsibility of the caller.
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"""
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# File must be writeble, so in self.cached_files[-1]
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c = self.cached_files[-1][path]
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if c["blocks"] is not True and len(c["blocks"]) * f.blocksize >= f.size:
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c["blocks"] = True
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def pop_file(self, path: str) -> str | None:
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"""Remove metadata of cached file.
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If path is in the cache, return the filename of the cached file,
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otherwise return ``None``. Caller is responsible for deleting the
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cached file.
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"""
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details = self.check_file(path, None)
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if not details:
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return None
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_, fn = details
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if fn.startswith(self._storage[-1]):
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self.cached_files[-1].pop(path)
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self.save()
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else:
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raise PermissionError(
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"Can only delete cached file in last, writable cache location"
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)
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return fn
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def save(self) -> None:
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"""Save metadata to disk"""
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for (fn, _, writable), cache in zip(self._scan_locations(), self.cached_files):
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if not writable:
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continue
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if os.path.exists(fn):
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cached_files = self._load(fn)
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for k, c in cached_files.items():
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if k in cache:
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if c["blocks"] is True or cache[k]["blocks"] is True:
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c["blocks"] = True
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else:
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# self.cached_files[*][*]["blocks"] must continue to
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# point to the same set object so that updates
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# performed by MMapCache are propagated back to
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# self.cached_files.
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blocks = cache[k]["blocks"]
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blocks.update(c["blocks"])
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c["blocks"] = blocks
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c["time"] = max(c["time"], cache[k]["time"])
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c["uid"] = cache[k]["uid"]
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# Files can be added to cache after it was written once
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for k, c in cache.items():
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if k not in cached_files:
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cached_files[k] = c
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else:
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cached_files = cache
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cache = {k: v.copy() for k, v in cached_files.items()}
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for c in cache.values():
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if isinstance(c["blocks"], set):
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c["blocks"] = list(c["blocks"])
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self._save(cache, fn)
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self.cached_files[-1] = cached_files
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def update_file(self, path: str, detail: Detail) -> None:
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"""Update metadata for specific file in memory, do not save"""
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self.cached_files[-1][path] = detail
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