""" The httplib2 algorithms ported for use with requests. """ import re import calendar import time from email.utils import parsedate_tz from requests.structures import CaseInsensitiveDict from .cache import DictCache from .serialize import Serializer URI = re.compile(r"^(([^:/?#]+):)?(//([^/?#]*))?([^?#]*)(\?([^#]*))?(#(.*))?") def parse_uri(uri): """Parses a URI using the regex given in Appendix B of RFC 3986. (scheme, authority, path, query, fragment) = parse_uri(uri) """ groups = URI.match(uri).groups() return (groups[1], groups[3], groups[4], groups[6], groups[8]) class CacheController(object): """An interface to see if request should cached or not. """ def __init__(self, cache=None, cache_etags=True, serializer=None): self.cache = cache or DictCache() self.cache_etags = cache_etags self.serializer = serializer or Serializer() @classmethod def _urlnorm(cls, uri): """Normalize the URL to create a safe key for the cache""" (scheme, authority, path, query, fragment) = parse_uri(uri) if not scheme or not authority: raise Exception("Only absolute URIs are allowed. uri = %s" % uri) scheme = scheme.lower() authority = authority.lower() if not path: path = "/" # Could do syntax based normalization of the URI before # computing the digest. See Section 6.2.2 of Std 66. request_uri = query and "?".join([path, query]) or path defrag_uri = scheme + "://" + authority + request_uri return defrag_uri @classmethod def cache_url(cls, uri): return cls._urlnorm(uri) def parse_cache_control(self, headers): """ Parse the cache control headers returning a dictionary with values for the different directives. """ retval = {} cc_header = 'cache-control' if 'Cache-Control' in headers: cc_header = 'Cache-Control' if cc_header in headers: parts = headers[cc_header].split(',') parts_with_args = [ tuple([x.strip().lower() for x in part.split("=", 1)]) for part in parts if -1 != part.find("=") ] parts_wo_args = [ (name.strip().lower(), 1) for name in parts if -1 == name.find("=") ] retval = dict(parts_with_args + parts_wo_args) return retval def cached_request(self, request): """ Return a cached response if it exists in the cache, otherwise return False. """ cache_url = self.cache_url(request.url) cc = self.parse_cache_control(request.headers) # non-caching states no_cache = True if 'no-cache' in cc else False if 'max-age' in cc and cc['max-age'] == 0: no_cache = True # Bail out if no-cache was set if no_cache: return False # It is in the cache, so lets see if it is going to be # fresh enough resp = self.serializer.loads(request, self.cache.get(cache_url)) # Check to see if we have a cached object if not resp: return False # If we have a cached 301, return it immediately. We don't # need to test our response for other headers b/c it is # intrinsically "cacheable" as it is Permanent. # See: # https://tools.ietf.org/html/rfc7231#section-6.4.2 # # Client can try to refresh the value by repeating the request # with cache busting headers as usual (ie no-cache). if resp.status == 301: return resp headers = CaseInsensitiveDict(resp.headers) if not headers or 'date' not in headers: # With date or etag, the cached response can never be used # and should be deleted. if 'etag' not in headers: self.cache.delete(cache_url) return False now = time.time() date = calendar.timegm( parsedate_tz(headers['date']) ) current_age = max(0, now - date) # TODO: There is an assumption that the result will be a # urllib3 response object. This may not be best since we # could probably avoid instantiating or constructing the # response until we know we need it. resp_cc = self.parse_cache_control(headers) # determine freshness freshness_lifetime = 0 # Check the max-age pragma in the cache control header if 'max-age' in resp_cc and resp_cc['max-age'].isdigit(): freshness_lifetime = int(resp_cc['max-age']) # If there isn't a max-age, check for an expires header elif 'expires' in headers: expires = parsedate_tz(headers['expires']) if expires is not None: expire_time = calendar.timegm(expires) - date freshness_lifetime = max(0, expire_time) # determine if we are setting freshness limit in the req if 'max-age' in cc: try: freshness_lifetime = int(cc['max-age']) except ValueError: freshness_lifetime = 0 if 'min-fresh' in cc: try: min_fresh = int(cc['min-fresh']) except ValueError: min_fresh = 0 # adjust our current age by our min fresh current_age += min_fresh # see how fresh we actually are fresh = (freshness_lifetime > current_age) if fresh: return resp # we're not fresh. If we don't have an Etag, clear it out if 'etag' not in headers: self.cache.delete(cache_url) # return the original handler return False def conditional_headers(self, request): cache_url = self.cache_url(request.url) resp = self.serializer.loads(request, self.cache.get(cache_url)) new_headers = {} if resp: headers = CaseInsensitiveDict(resp.headers) if 'etag' in headers: new_headers['If-None-Match'] = headers['ETag'] if 'last-modified' in headers: new_headers['If-Modified-Since'] = headers['Last-Modified'] return new_headers def cache_response(self, request, response, body=None): """ Algorithm for caching requests. This assumes a requests Response object. """ # From httplib2: Don't cache 206's since we aren't going to # handle byte range requests if response.status not in [200, 203, 300, 301]: return response_headers = CaseInsensitiveDict(response.headers) cc_req = self.parse_cache_control(request.headers) cc = self.parse_cache_control(response_headers) cache_url = self.cache_url(request.url) # Delete it from the cache if we happen to have it stored there no_store = cc.get('no-store') or cc_req.get('no-store') if no_store and self.cache.get(cache_url): self.cache.delete(cache_url) # If we've been given an etag, then keep the response if self.cache_etags and 'etag' in response_headers: self.cache.set( cache_url, self.serializer.dumps(request, response, body=body), ) # Add to the cache any 301s. We do this before looking that # the Date headers. elif response.status == 301: self.cache.set( cache_url, self.serializer.dumps(request, response) ) # Add to the cache if the response headers demand it. If there # is no date header then we can't do anything about expiring # the cache. elif 'date' in response_headers: # cache when there is a max-age > 0 if cc and cc.get('max-age'): if int(cc['max-age']) > 0: self.cache.set( cache_url, self.serializer.dumps(request, response, body=body), ) # If the request can expire, it means we should cache it # in the meantime. elif 'expires' in response_headers: if response_headers['expires']: self.cache.set( cache_url, self.serializer.dumps(request, response, body=body), ) def update_cached_response(self, request, response): """On a 304 we will get a new set of headers that we want to update our cached value with, assuming we have one. This should only ever be called when we've sent an ETag and gotten a 304 as the response. """ cache_url = self.cache_url(request.url) cached_response = self.serializer.loads( request, self.cache.get(cache_url) ) if not cached_response: # we didn't have a cached response return response # Lets update our headers with the headers from the new request: # http://tools.ietf.org/html/draft-ietf-httpbis-p4-conditional-26#section-4.1 # # The server isn't supposed to send headers that would make # the cached body invalid. But... just in case, we'll be sure # to strip out ones we know that might be problmatic due to # typical assumptions. excluded_headers = [ "content-length", ] cached_response.headers.update( dict((k, v) for k, v in response.headers.items() if k.lower() not in excluded_headers) ) # we want a 200 b/c we have content via the cache cached_response.status = 200 # update our cache self.cache.set( cache_url, self.serializer.dumps(request, cached_response), ) return cached_response