# -*- coding: iso-8859-1 -*- from os import stat from time import time, mktime from rfc822 import parsedate from calendar import timegm import urllib2 import re import weakref import new try: from threading import Lock except ImportError: from dummy_threading import Lock NOT_INITIALIZED = object() class Entry(object): """ A cache entry, mostly an internal object. """ def __init__(self, key): object.__init__(self) self._key=key self._value=NOT_INITIALIZED self._lock=Lock() class Cache(object): """ An abstract, multi-threaded cache object. """ def __init__(self, max_size=0): """ Builds a cache with a limit of max_size entries. If this limit is exceeded, the Least Recently Used entry is discarded. if max_size==0, the cache is unbounded (no LRU rule is applied). """ object.__init__(self) self._maxsize=max_size self._dict={} self._lock=Lock() # Header of the access list if self._maxsize: self._head=Entry(None) self._head._previous=self._head self._head._next=self._head def __setitem__(self, name, value): """ Populates the cache with a given name and value. """ key = self.key(name) entry = self._get_entry(key) entry._lock.acquire() try: self._pack(entry,value) self.commit() finally: entry._lock.release() def __getitem__(self, name): """ Gets a value from the cache, builds it if required. """ return self._checkitem(name)[2] def __delitem__(self, name): self._lock.acquire() try: key = self.key(name) del self._dict[key] finally: self._lock.release() def _get_entry(self,key): self._lock.acquire() try: entry = self._dict.get(key) if not entry: entry = Entry(key) self._dict[key]=entry if self._maxsize: entry._next = entry._previous = None self._access(entry) self._checklru() elif self._maxsize: self._access(entry) return entry finally: self._lock.release() def _checkitem(self, name): """ Gets a value from the cache, builds it if required. Returns a tuple is_new, key, value, entry. If is_new is True, the result had to be rebuilt. """ key = self.key(name) entry = self._get_entry(key) entry._lock.acquire() try: value = self._unpack(entry) is_new = False if value is NOT_INITIALIZED: opened = self.check(key, name, entry) value = self.build(key, name, opened, entry) is_new = True self._pack(entry, value) self.commit() else: opened = self.check(key, name, entry) if opened is not None: value = self.build(key, name, opened, entry) is_new = True self._pack(entry, value) self.commit() return is_new, key, value, entry finally: entry._lock.release() def mru(self): """ Returns the Most Recently Used key """ if self._maxsize: self._lock.acquire() try: return self._head._previous._key finally: self._lock.release() else: return None def lru(self): """ Returns the Least Recently Used key """ if self._maxsize: self._lock.acquire() try: return self._head._next._key finally: self._lock.release() else: return None def key(self, name): """ Override this method to extract a key from the name passed to the [] operator """ return name def commit(self): """ Override this method if you want to do something each time the underlying dictionary is modified (e.g. make it persistent). """ pass def clear(self): """ Clears the cache """ self._lock.acquire() try: self._dict.clear() if self._maxsize: self._head._next=self._head self._head._previous=self._head finally: self._lock.release() def check(self, key, name, entry): """ Override this method to check whether the entry with the given name is stale. Return None if it is fresh or an opened resource if it is stale. The object returned will be passed to the 'build' method as the 'opened' parameter. Use the 'entry' parameter to store meta-data if required. Don't worry about multiple threads accessing the same name, as this method is properly isolated. """ return None def build(self, key, name, opened, entry): """ Build the cached value with the given name from the given opened resource. Use entry to obtain or store meta-data if needed. Don't worry about multiple threads accessing the same name, as this method is properly isolated. """ raise NotImplementedError() def _access(self, entry): " Internal use only, must be invoked within a cache lock. Updates the access list. """ if entry._next is not self._head: if entry._previous is not None: # remove the entry from the access list entry._previous._next=entry._next entry._next._previous=entry._previous # insert the entry at the end of the access list entry._previous=self._head._previous entry._previous._next=entry entry._next=self._head entry._next._previous=entry if self._head._next is self._head: self._head._next=entry def _checklru(self): " Internal use only, must be invoked within a cache lock. Removes the LRU entry if needed. """ if len(self._dict)>self._maxsize: lru=self._head._next lru._previous._next=lru._next lru._next._previous=lru._previous del self._dict[lru._key] def _pack(self, entry, value): """ Store the value in the entry. """ entry._value=value def _unpack(self, entry): """ Recover the value from the entry, returns NOT_INITIALIZED if it is not OK. """ return entry._value class WeakCache(Cache): """ This cache holds weak references to the values it stores. Whenever a value is not longer normally referenced, it is removed from the cache. Useful for sharing the result of long computations but letting them go as soon as they are not needed by anybody. """ def _pack(self, entry, value): entry._value=weakref.ref(value, lambda ref: self.__delitem__(entry._key)) def _unpack(self, entry): if entry._value is NOT_INITIALIZED: return NOT_INITIALIZED value = entry._value() if value is None: return NOT_INITIALIZED else: return value class FileCache(Cache): """ A file cache. Returns the content of the files as a string, given their filename. Whenever the files are modified (according to their modification time) the cache is updated. Override the build method to obtain more interesting behaviour. """ def __init__(self, max_size=0, mode='rb'): Cache.__init__(self, max_size) self.mode=mode def check(self, key, name, entry): timestamp = stat(key).st_mtime if entry._value is NOT_INITIALIZED: entry._timestamp = timestamp return file(key, self.mode) else: if entry._timestamp != timestamp: entry._timestamp = timestamp return file(key, self.mode) else: return None def build(self, key, name, opened, entry): """ Return the content of the file as a string. Override this for better behaviour. """ try: return opened.read() finally: opened.close() def parseRFC822Time(t): return mktime(parsedate(t)) re_max_age=re.compile('max-age\s*=\s*(\d+)', re.I) class HTTPEntity(object): def __init__(self, entity, metadata): self.entity=entity self.metadata=metadata def __repr__(self): return 'HTTPEntity(%s, %s)'%(repr(self.entity), self.metadata) def __str__(self): return self.entity class HTTPCache(Cache): """ An HTTP cache. Returns the entity found at the given URL. Uses Expires, ETag and Last-Modified headers to minimize bandwidth usage. Partial Cache-Control support (only max-age is supported). """ def check(self, key, name, entry): request = urllib2.Request(key) try: if time()