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Is there an easy way to cache things when using urllib2 that I am over-looking, or do I have to roll my own?

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up vote 7 down vote accepted

You could use a decorator function such as:

class cache(object):
    def __init__(self, fun): = fun
        self.cache = {}

    def __call__(self, *args, **kwargs):
        key  = str(args) + str(kwargs)
            return self.cache[key]
        except KeyError:
            self.cache[key] = rval =*args, **kwargs)
            return rval
        except TypeError: # incase key isn't a valid key - don't cache
            return*args, **kwargs)

and define a function along the lines of:

def get_url_src(url):
    return urllib.urlopen(url).read()

This is assuming you're not paying attention to HTTP Cache Controls, but just want to cache the page for the duration of the application

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I implemented this, but with an sqlite backend and customizable cache duration. Thank you :) – Yuvi Apr 25 '09 at 14:08
@Yuvi Posting this somewhere would be nice :) – Stuart Axon Feb 11 '10 at 0:13
It is not valid to cache resources like this unless you check their headers per the instructions in the RFC. Or perhaps you are suggesting this solution for something like assembling a single view of one web page, and not for use over repeated reloads? – Brandon Rhodes Oct 28 '10 at 21:28

If you don't mind working at a slightly lower level, httplib2 ( is an excellent HTTP library that includes caching functionality.

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Please fix typo: httlib2 -> httplib2 – tzot Sep 29 '08 at 16:28
Just remember that you will lose support for other schemes (file, ftp, ...) when using httplib2. – Jason R. Coombs Nov 8 '10 at 18:33

This ActiveState Python recipe might be helpful:

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I've always been torn between using httplib2, which does a solid job of handling HTTP caching and authentication, and urllib2, which is in the stdlib, has an extensible interface, and supports HTTP Proxy servers.

The ActiveState recipe starts to add caching support to urllib2, but only in a very primitive fashion. It fails to allow for extensibility in storage mechanisms, hard-coding the file-system-backed storage. It also does not honor HTTP cache headers.

In an attempt to bring together the best features of httplib2 caching and urllib2 extensibility, I've adapted the ActiveState recipe to implement most of the same caching functionality as is found in httplib2. The module is in as The link points to the module as it exists at the time of this writing. While that module is currently part of the larger package, it has no intra-package dependencies, so feel free to pull the module out and use it in your own projects.

Alternatively, if you have Python 2.6 or later, you can easy_install>=1.3 and then utilize the CachingHandler with something like the code in caching.quick_test().

"""Quick test/example of CacheHandler"""
import logging
import urllib2
from httplib2 import FileCache
from import CacheHandler

store = FileCache(".cache")
opener = urllib2.build_opener(CacheHandler(store))
response ="")
print response.headers
print "Response:",[:100], '...\n'

print response.headers
print "After reload:",[:100], '...\n'

Note that jaraco.util.http.caching does not provide a specification for the backing store for the cache, but instead follows the interface used by httplib2. For this reason, the httplib2.FileCache can be used directly with urllib2 and the CacheHandler. Also, other backing caches designed for httplib2 should be usable by the CacheHandler.

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I was looking for something similar, and came across "Recipe 491261: Caching and throttling for urllib2" which danivo posted. The problem is I really dislike the caching code (lots of duplication, lots of manually joining of file paths instead of using os.path.join, uses staticmethods, non very PEP8'sih, and other things that I try to avoid)

The code is a bit nicer (in my opinion anyway) and is functionally much the same, with a few additions - mainly the "recache" method (example usage can be seem here, or in the if __name__ == "__main__": section at the end of the code).

The latest version can be found at, and I'll paste it here for posterity (with my application specific headers removed):

#!/usr/bin/env python
urllib2 caching handler
Modified from by dbr

import os
import time
import httplib
import urllib2
import StringIO
from hashlib import md5

def calculate_cache_path(cache_location, url):
    """Checks if [cache_location]/[hash_of_url].headers and .body exist
    thumb = md5(url).hexdigest()
    header = os.path.join(cache_location, thumb + ".headers")
    body = os.path.join(cache_location, thumb + ".body")
    return header, body

def check_cache_time(path, max_age):
    """Checks if a file has been created/modified in the [last max_age] seconds.
    False means the file is too old (or doesn't exist), True means it is
    up-to-date and valid"""
    if not os.path.isfile(path):
        return False
    cache_modified_time = os.stat(path).st_mtime
    time_now = time.time()
    if cache_modified_time < time_now - max_age:
        # Cache is old
        return False
        return True

def exists_in_cache(cache_location, url, max_age):
    """Returns if header AND body cache file exist (and are up-to-date)"""
    hpath, bpath = calculate_cache_path(cache_location, url)
    if os.path.exists(hpath) and os.path.exists(bpath):
            check_cache_time(hpath, max_age)
            and check_cache_time(bpath, max_age)
        # File does not exist
        return False

def store_in_cache(cache_location, url, response):
    """Tries to store response in cache."""
    hpath, bpath = calculate_cache_path(cache_location, url)
        outf = open(hpath, "w")
        headers = str(

        outf = open(bpath, "w")
    except IOError:
        return True
        return False

class CacheHandler(urllib2.BaseHandler):
    """Stores responses in a persistant on-disk cache.

    If a subsequent GET request is made for the same URL, the stored
    response is returned, saving time, resources and bandwidth
    def __init__(self, cache_location, max_age = 21600):
        """The location of the cache directory"""
        self.max_age = max_age
        self.cache_location = cache_location
        if not os.path.exists(self.cache_location):

    def default_open(self, request):
        """Handles GET requests, if the response is cached it returns it
        if request.get_method() is not "GET":
            return None # let the next handler try to handle the request

        if exists_in_cache(
            self.cache_location, request.get_full_url(), self.max_age
            return CachedResponse(
                set_cache_header = True
            return None

    def http_response(self, request, response):
        """Gets a HTTP response, if it was a GET request and the status code
        starts with 2 (200 OK etc) it caches it and returns a CachedResponse
        if (request.get_method() == "GET"
            and str(response.code).startswith("2")
            if 'x-local-cache' not in
                # Response is not cached
                set_cache_header = store_in_cache(
                set_cache_header = True
            #end if x-cache in response

            return CachedResponse(
                set_cache_header = set_cache_header
            return response

class CachedResponse(StringIO.StringIO):
    """An urllib2.response-like object for cached responses.

    To determine if a response is cached or coming directly from
    the network, check the x-local-cache header rather than the object type.
    def __init__(self, cache_location, url, set_cache_header=True):
        self.cache_location = cache_location
        hpath, bpath = calculate_cache_path(cache_location, url)

        StringIO.StringIO.__init__(self, file(bpath).read())

        self.url     = url
        self.code    = 200
        self.msg     = "OK"
        headerbuf = file(hpath).read()
        if set_cache_header:
            headerbuf += "x-local-cache: %s\r\n" % (bpath)
        self.headers = httplib.HTTPMessage(StringIO.StringIO(headerbuf))

    def info(self):
        """Returns headers
        return self.headers

    def geturl(self):
        """Returns original URL
        return self.url

    def recache(self):
        new_request = urllib2.urlopen(self.url)
        set_cache_header = store_in_cache(
        CachedResponse.__init__(self, self.cache_location, self.url, True)

if __name__ == "__main__":
    def main():
        """Quick test/example of CacheHandler"""
        opener = urllib2.build_opener(CacheHandler("/tmp/"))
        response ="")
        print response.headers
        print "Response:",

        print response.headers
        print "After recache:",
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This article on Yahoo Developer Network - - describes how to cache http calls made through urllib to either memory or disk.

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@dbr: you may need to add also https responses caching with :

def https_response(self, request, response):
    return self.http_response(request,response)
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