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""" This module contains helper functions for controlling caching. It does so by managing the "Vary" header of responses. It includes functions to patch the header of response objects directly and decorators that change functions to do that header-patching themselves. For information on the Vary header, see: https://tools.ietf.org/html/rfc7231#section-7.1.4 Essentially, the "Vary" HTTP header defines which headers a cache should take into account when building its cache key. Requests with the same path but different header content for headers named in "Vary" need to get different cache keys to prevent delivery of wrong content. An example: i18n middleware would need to distinguish caches by the "Accept-language" header. """ import hashlib import re import time from django.conf import settings from django.core.cache import caches from django.http import HttpResponse, HttpResponseNotModified from django.utils.encoding import iri_to_uri from django.utils.http import ( http_date, parse_etags, parse_http_date_safe, quote_etag, ) from django.utils.log import log_response from django.utils.timezone import get_current_timezone_name from django.utils.translation import get_language cc_delim_re = re.compile(r'\s*,\s*') def patch_cache_control(response, **kwargs): """ Patch the Cache-Control header by adding all keyword arguments to it. The transformation is as follows: * All keyword parameter names are turned to lowercase, and underscores are converted to hyphens. * If the value of a parameter is True (exactly True, not just a true value), only the parameter name is added to the header. * All other parameters are added with their value, after applying str() to it. """ def dictitem(s): t = s.split('=', 1) if len(t) > 1: return (t[0].lower(), t[1]) else: return (t[0].lower(), True) def dictvalue(t): if t[1] is True: return t[0] else: return '%s=%s' % (t[0], t[1]) if response.get('Cache-Control'): cc = cc_delim_re.split(response['Cache-Control']) cc = dict(dictitem(el) for el in cc) else: cc = {} # If there's already a max-age header but we're being asked to set a new # max-age, use the minimum of the two ages. In practice this happens when # a decorator and a piece of middleware both operate on a given view. if 'max-age' in cc and 'max_age' in kwargs: kwargs['max_age'] = min(int(cc['max-age']), kwargs['max_age']) # Allow overriding private caching and vice versa if 'private' in cc and 'public' in kwargs: del cc['private'] elif 'public' in cc and 'private' in kwargs: del cc['public'] for (k, v) in kwargs.items(): cc[k.replace('_', '-')] = v cc = ', '.join(dictvalue(el) for el in cc.items()) response['Cache-Control'] = cc def get_max_age(response): """ Return the max-age from the response Cache-Control header as an integer, or None if it wasn't found or wasn't an integer. """ if not response.has_header('Cache-Control'): return cc = dict(_to_tuple(el) for el in cc_delim_re.split(response['Cache-Control'])) try: return int(cc['max-age']) except (ValueError, TypeError, KeyError): pass def set_response_etag(response): if not response.streaming: response['ETag'] = quote_etag(hashlib.md5(response.content).hexdigest()) return response def _precondition_failed(request): response = HttpResponse(status=412) log_response( 'Precondition Failed: %s', request.path, response=response, request=request, ) return response def _not_modified(request, response=None): new_response = HttpResponseNotModified() if response: # Preserve the headers required by Section 4.1 of RFC 7232, as well as # Last-Modified. for header in ('Cache-Control', 'Content-Location', 'Date', 'ETag', 'Expires', 'Last-Modified', 'Vary'): if header in response: new_response[header] = response[header] # Preserve cookies as per the cookie specification: "If a proxy server # receives a response which contains a Set-cookie header, it should # propagate the Set-cookie header to the client, regardless of whether # the response was 304 (Not Modified) or 200 (OK). # https://curl.haxx.se/rfc/cookie_spec.html new_response.cookies = response.cookies return new_response def get_conditional_response(request, etag=None, last_modified=None, response=None): # Only return conditional responses on successful requests. if response and not (200 <= response.status_code < 300): return response # Get HTTP request headers. if_match_etags = parse_etags(request.META.get('HTTP_IF_MATCH', '')) if_unmodified_since = request.META.get('HTTP_IF_UNMODIFIED_SINCE') if_unmodified_since = if_unmodified_since and parse_http_date_safe(if_unmodified_since) if_none_match_etags = parse_etags(request.META.get('HTTP_IF_NONE_MATCH', '')) if_modified_since = request.META.get('HTTP_IF_MODIFIED_SINCE') if_modified_since = if_modified_since and parse_http_date_safe(if_modified_since) # Step 1 of section 6 of RFC 7232: Test the If-Match precondition. if if_match_etags and not _if_match_passes(etag, if_match_etags): return _precondition_failed(request) # Step 2: Test the If-Unmodified-Since precondition. if (not if_match_etags and if_unmodified_since and not _if_unmodified_since_passes(last_modified, if_unmodified_since)): return _precondition_failed(request) # Step 3: Test the If-None-Match precondition. if if_none_match_etags and not _if_none_match_passes(etag, if_none_match_etags): if request.method in ('GET', 'HEAD'): return _not_modified(request, response) else: return _precondition_failed(request) # Step 4: Test the If-Modified-Since precondition. if (not if_none_match_etags and if_modified_since and not _if_modified_since_passes(last_modified, if_modified_since)): if request.method in ('GET', 'HEAD'): return _not_modified(request, response) # Step 5: Test the If-Range precondition (not supported). # Step 6: Return original response since there isn't a conditional response. return response def _if_match_passes(target_etag, etags): """ Test the If-Match comparison as defined in section 3.1 of RFC 7232. """ if not target_etag: # If there isn't an ETag, then there can't be a match. return False elif etags == ['*']: # The existence of an ETag means that there is "a current # representation for the target resource", even if the ETag is weak, # so there is a match to '*'. return True elif target_etag.startswith('W/'): # A weak ETag can never strongly match another ETag. return False else: # Since the ETag is strong, this will only return True if there's a # strong match. return target_etag in etags def _if_unmodified_since_passes(last_modified, if_unmodified_since): """ Test the If-Unmodified-Since comparison as defined in section 3.4 of RFC 7232. """ return last_modified and last_modified <= if_unmodified_since def _if_none_match_passes(target_etag, etags): """ Test the If-None-Match comparison as defined in section 3.2 of RFC 7232. """ if not target_etag: # If there isn't an ETag, then there isn't a match. return True elif etags == ['*']: # The existence of an ETag means that there is "a current # representation for the target resource", so there is a match to '*'. return False else: # The comparison should be weak, so look for a match after stripping # off any weak indicators. target_etag = target_etag.strip('W/') etags = (etag.strip('W/') for etag in etags) return target_etag not in etags def _if_modified_since_passes(last_modified, if_modified_since): """ Test the If-Modified-Since comparison as defined in section 3.3 of RFC 7232. """ return not last_modified or last_modified > if_modified_since def patch_response_headers(response, cache_timeout=None): """ Add HTTP caching headers to the given HttpResponse: Expires and Cache-Control. Each header is only added if it isn't already set. cache_timeout is in seconds. The CACHE_MIDDLEWARE_SECONDS setting is used by default. """ if cache_timeout is None: cache_timeout = settings.CACHE_MIDDLEWARE_SECONDS if cache_timeout < 0: cache_timeout = 0 # Can't have max-age negative if not response.has_header('Expires'): response['Expires'] = http_date(time.time() + cache_timeout) patch_cache_control(response, max_age=cache_timeout) def add_never_cache_headers(response): """ Add headers to a response to indicate that a page should never be cached. """ patch_response_headers(response, cache_timeout=-1) patch_cache_control(response, no_cache=True, no_store=True, must_revalidate=True) def patch_vary_headers(response, newheaders): """ Add (or update) the "Vary" header in the given HttpResponse object. newheaders is a list of header names that should be in "Vary". Existing headers in "Vary" aren't removed. """ # Note that we need to keep the original order intact, because cache # implementations may rely on the order of the Vary contents in, say, # computing an MD5 hash. if response.has_header('Vary'): vary_headers = cc_delim_re.split(response['Vary']) else: vary_headers = [] # Use .lower() here so we treat headers as case-insensitive. existing_headers = {header.lower() for header in vary_headers} additional_headers = [newheader for newheader in newheaders if newheader.lower() not in existing_headers] response['Vary'] = ', '.join(vary_headers + additional_headers) def has_vary_header(response, header_query): """ Check to see if the response has a given header name in its Vary header. """ if not response.has_header('Vary'): return False vary_headers = cc_delim_re.split(response['Vary']) existing_headers = {header.lower() for header in vary_headers} return header_query.lower() in existing_headers def _i18n_cache_key_suffix(request, cache_key): """If necessary, add the current locale or time zone to the cache key.""" if settings.USE_I18N or settings.USE_L10N: # first check if LocaleMiddleware or another middleware added # LANGUAGE_CODE to request, then fall back to the active language # which in turn can also fall back to settings.LANGUAGE_CODE cache_key += '.%s' % getattr(request, 'LANGUAGE_CODE', get_language()) if settings.USE_TZ: cache_key += '.%s' % get_current_timezone_name() return cache_key def _generate_cache_key(request, method, headerlist, key_prefix): """Return a cache key from the headers given in the header list.""" ctx = hashlib.md5() for header in headerlist: value = request.META.get(header) if value is not None: ctx.update(value.encode()) url = hashlib.md5(iri_to_uri(request.build_absolute_uri()).encode('ascii')) cache_key = 'views.decorators.cache.cache_page.%s.%s.%s.%s' % ( key_prefix, method, url.hexdigest(), ctx.hexdigest()) return _i18n_cache_key_suffix(request, cache_key) def _generate_cache_header_key(key_prefix, request): """Return a cache key for the header cache.""" url = hashlib.md5(iri_to_uri(request.build_absolute_uri()).encode('ascii')) cache_key = 'views.decorators.cache.cache_header.%s.%s' % ( key_prefix, url.hexdigest()) return _i18n_cache_key_suffix(request, cache_key) def get_cache_key(request, key_prefix=None, method='GET', cache=None): """ Return a cache key based on the request URL and query. It can be used in the request phase because it pulls the list of headers to take into account from the global URL registry and uses those to build a cache key to check against. If there isn't a headerlist stored, return None, indicating that the page needs to be rebuilt. """ if key_prefix is None: key_prefix = settings.CACHE_MIDDLEWARE_KEY_PREFIX cache_key = _generate_cache_header_key(key_prefix, request) if cache is None: cache = caches[settings.CACHE_MIDDLEWARE_ALIAS] headerlist = cache.get(cache_key) if headerlist is not None: return _generate_cache_key(request, method, headerlist, key_prefix) else: return None def learn_cache_key(request, response, cache_timeout=None, key_prefix=None, cache=None): """ Learn what headers to take into account for some request URL from the response object. Store those headers in a global URL registry so that later access to that URL will know what headers to take into account without building the response object itself. The headers are named in the Vary header of the response, but we want to prevent response generation. The list of headers to use for cache key generation is stored in the same cache as the pages themselves. If the cache ages some data out of the cache, this just means that we have to build the response once to get at the Vary header and so at the list of headers to use for the cache key. """ if key_prefix is None: key_prefix = settings.CACHE_MIDDLEWARE_KEY_PREFIX if cache_timeout is None: cache_timeout = settings.CACHE_MIDDLEWARE_SECONDS cache_key = _generate_cache_header_key(key_prefix, request) if cache is None: cache = caches[settings.CACHE_MIDDLEWARE_ALIAS] if response.has_header('Vary'): is_accept_language_redundant = settings.USE_I18N or settings.USE_L10N # If i18n or l10n are used, the generated cache key will be suffixed # with the current locale. Adding the raw value of Accept-Language is # redundant in that case and would result in storing the same content # under multiple keys in the cache. See #18191 for details. headerlist = [] for header in cc_delim_re.split(response['Vary']): header = header.upper().replace('-', '_') if header != 'ACCEPT_LANGUAGE' or not is_accept_language_redundant: headerlist.append('HTTP_' + header) headerlist.sort() cache.set(cache_key, headerlist, cache_timeout) return _generate_cache_key(request, request.method, headerlist, key_prefix) else: # if there is no Vary header, we still need a cache key # for the request.build_absolute_uri() cache.set(cache_key, [], cache_timeout) return _generate_cache_key(request, request.method, [], key_prefix) def _to_tuple(s): t = s.split('=', 1) if len(t) == 2: return t[0].lower(), t[1] return t[0].lower(), True