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author Brian Neal <bgneal@gmail.com>
date Thu, 20 Feb 2014 22:23:49 -0600
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A better "Who's Online" with Redis & Python
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:date: 2011-04-25 12:00
:tags: Redis, Python
:slug: a-better-who-s-online-with-redis-python
:author: Brian Neal
:summary: Still trying to find a better "who's online" function. I ran with this method for a while, but later found a way to improve upon it.

**Updated on December 17, 2011:** I found a better solution. Head on over to
the `new post`_ to check it out.


Who's What?
-----------

My website, like many others, has a "who's online" feature. It displays the
names of authenticated users that have been seen over the course of the last ten
minutes or so. It may seem a minor feature at first, but I find it really does a lot to
"humanize" the site and make it seem more like a community gathering place.

My first implementation of this feature used the MySQL database to update a
per-user timestamp whenever a request from an authenticated user arrived.
Actually, this seemed excessive to me, so I used a strategy involving an "online"
cookie that has a five minute expiration time. Whenever I see an authenticated
user without the online cookie I update their timestamp and then hand them back
a cookie that will expire in five minutes. In this way I don't have to hit the
database on every single request.

This approach worked fine but it has some aspects that didn't sit right with me:

* It seems like overkill to use the database to store temporary, trivial information like
  this. It doesn't feel like a good use of a full-featured relational database
  management system (RDBMS).
* I am writing to the database during a GET request. Ideally, all GET requests should
  be idempotent. Of course if this is strictly followed, it would be
  impossible to create a "who's online" feature in the first place. You'd have
  to require the user to POST data periodically. However, writing to a RDBMS
  during a GET request is something I feel guilty about and try to avoid when I
  can.


Redis
-----

Enter Redis_. I discovered Redis recently, and it is pure, white-hot
awesomeness. What is Redis? It's one of those projects that gets slapped with
the "NoSQL" label. And while I'm still trying to figure that buzzword out, Redis makes
sense to me when described as a lightweight data structure server.
Memcached_ can store key-value pairs very fast, where the value is always a string.
Redis goes one step further and stores not only strings, but data
structures like lists, sets, and hashes. For a great overview of what Redis is
and what you can do with it, check out `Simon Willison's Redis tutorial`_.

Another reason why I like Redis is that it is easy to install and deploy.
It is straight C code without any dependencies. Thus you can build it from
source just about anywhere. Your Linux distro may have a package for it, but it
is just as easy to grab the latest tarball and build it yourself.

I've really come to appreciate Redis for being such a small and lightweight
tool. At the same time, it is very powerful and effective for filling those
tasks that a traditional RDBMS is not good at.

For working with Redis in Python, you'll need to grab Andy McCurdy's redis-py_
client library. It can be installed with a simple

.. sourcecode:: sh

   $ sudo pip install redis


Who's Online with Redis
-----------------------

Now that we are going to use Redis, how do we implement a "who's online"
feature? The first step is to get familiar with the `Redis API`_.

One approach to the "who's online" problem is to add a user name to a set
whenever we see a request from that user. That's fine but how do we know when
they have stopped browsing the site? We have to periodically clean out the
set in order to time people out. A cron job, for example, could delete the
set every five minutes.

A small problem with deleting the set is that people will abruptly disappear
from the site every five minutes. In order to give more gradual behavior we
could utilize two sets, a "current" set and an "old" set. As users are seen, we
add their names to the current set. Every five minutes or so (season to taste),
we simply overwrite the old set with the contents of the current set, then clear
out the current set. At any given time, the set of who's online is the union
of these two sets.

This approach doesn't give exact results of course, but it is perfectly fine for my site.

Looking over the Redis API, we see that we'll be making use of the following
commands:

* SADD_ for adding members to the current set.
* RENAME_ for copying the current set to the old, as well as destroying the
  current set all in one step.
* SUNION_ for performing a union on the current and old sets to produce the set
  of who's online.

And that's it! With these three primitives we have everything we need. This is
because of the following useful Redis behaviors:

* Performing a ``SADD`` against a set that doesn't exist creates the set and is
  not an error.
* Performing a ``SUNION`` with sets that don't exist is fine; they are simply
  treated as empty sets.

The one caveat involves the ``RENAME`` command. If the key you wish to rename
does not exist, the Python Redis client treats this as an error and an exception
is thrown.

Experimenting with algorithms and ideas is quite easy with Redis. You can either
use the Python Redis client in a Python interactive interpreter shell, or you can
use the command-line client that comes with Redis. Either way you can quickly
try out commands and refine your approach.


Implementation
--------------

My website is powered by Django_, but I am not going to show any Django specific
code here. Instead I'll show just the pure Python parts, and hopefully you can
adapt it to whatever framework, if any, you are using.

I created a Python module to hold this functionality:
``whos_online.py``. Throughout this module I use a lot of exception handling,
mainly because if the Redis server has crashed (or if I forgot to start it, say
in development) I don't want my website to be unusable. If Redis is unavailable,
I simply log an error and drive on. Note that in my limited experience Redis is
very stable and has not crashed on me once, but it is good to be defensive.

The first important function used throughout this module is a function to obtain
a connection to the Redis server:

.. sourcecode:: python

   import logging
   import redis

   logger = logging.getLogger(__name__)

   def _get_connection():
       """
       Create and return a Redis connection. Returns None on failure.
       """
       try:
           conn = redis.Redis(host=HOST, port=PORT, db=DB)
           return conn
       except redis.RedisError, e:
           logger.error(e)

       return None

The ``HOST``, ``PORT``, and ``DB`` constants can come from a
configuration file or they could be module-level constants. In my case they are set in my
Django ``settings.py`` file. Once we have this connection object, we are free to
use the Redis API exposed via the Python Redis client.

To update the current set whenever we see a user, I call this function:

.. sourcecode:: python

   # Redis key names:
   USER_CURRENT_KEY = "wo_user_current"
   USER_OLD_KEY = "wo_user_old"

   def report_user(username):
    """
    Call this function when a user has been seen. The username will be added to
    the current set.
    """
    conn = _get_connection()
    if conn:
        try:
            conn.sadd(USER_CURRENT_KEY, username)
        except redis.RedisError, e:
            logger.error(e)

If you are using Django, a good spot to call this function is from a piece
of `custom middleware`_. I kept my "5 minute cookie" algorithm to avoid doing this on
every request although it is probably unnecessary on my low traffic site.

Periodically you need to "age out" the sets by destroying the old set, moving
the current set to the old set, and then emptying the current set. 

.. sourcecode:: python

   def tick():
       """
       Call this function to "age out" the old set by renaming the current set
       to the old.
       """
       conn = _get_connection()
       if conn:
          # An exception may be raised if the current key doesn't exist; if that
          # happens we have to delete the old set because no one is online.
          try:
              conn.rename(USER_CURRENT_KEY, USER_OLD_KEY)
          except redis.ResponseError:
              try:
                  del conn[old]
              except redis.RedisError, e:
                  logger.error(e)
          except redis.RedisError, e:
              logger.error(e)

As mentioned previously, if no one is on your site, eventually your current set
will cease to exist as it is renamed and not populated further. If you attempt to 
rename a non-existent key, the Python Redis client raises a ``ResponseError`` exception. 
If this occurs we just manually delete the old set. In a bit of Pythonic cleverness,
the Python Redis client supports the ``del`` syntax to support this operation.

The ``tick()`` function can be called periodically by a cron job, for example. If you are using Django,
you could create a `custom management command`_ that calls ``tick()`` and schedule cron 
to execute it. Alternatively, you could use something like Celery_ to schedule a
job to do the same. (As an aside, Redis can be used as a back-end for Celery, something that I hope
to explore in the near future).

Finally, you need a way to obtain the current "who's online" set, which again is
a union of the current and old sets.

.. sourcecode:: python

   def get_users_online():
       """
       Returns a set of user names which is the union of the current and old
       sets.
       """
       conn = _get_connection()
       if conn:
           try:
               # Note that keys that do not exist are considered empty sets
               return conn.sunion([USER_CURRENT_KEY, USER_OLD_KEY])
           except redis.RedisError, e:
               logger.error(e)

       return set()

In my Django application, I calling this function from a `custom inclusion template tag`_
.


Conclusion
----------

I hope this blog post gives you some idea of the usefulness of Redis. I expanded
on this example to also keep track of non-authenticated "guest" users. I simply added
another pair of sets to track IP addresses.

If you are like me, you are probably already thinking about shifting some functions that you
awkwardly jammed onto a traditional database to Redis and other "NoSQL"
technologies.

.. _Redis: http://redis.io/
.. _Memcached: http://memcached.org/
.. _Simon Willison's Redis tutorial: http://simonwillison.net/static/2010/redis-tutorial/
.. _redis-py: https://github.com/andymccurdy/redis-py
.. _Django: http://djangoproject.com
.. _Redis API: http://redis.io/commands
.. _SADD: http://redis.io/commands/sadd
.. _RENAME: http://redis.io/commands/rename
.. _SUNION: http://redis.io/commands/sunion
.. _custom middleware: http://docs.djangoproject.com/en/1.3/topics/http/middleware/
.. _custom management command: http://docs.djangoproject.com/en/1.3/howto/custom-management-commands/
.. _Celery: http://celeryproject.org/
.. _custom inclusion template tag: http://docs.djangoproject.com/en/1.3/howto/custom-template-tags/#inclusion-tags
.. _new post: http://deathofagremmie.com/2011/12/17/who-s-online-with-redis-python-a-slight-return/