Tag Archives: pound

Load Balancer Update

28 Apr

A while back, I posted about some testing we were doing of various software load balancers for WordPress.com.  We chose to use Pound and have been using it past 2-ish years.  We started to run into some issues, however, so we starting looking elsewhere.  Some of these problems were:

  • Lack of true configuration reload support made managing our 20+ load balancers cumbersome.  We had a solution (hack) in place, but it was getting to be a pain.
  • When something would break on the backend and cause 20-50k connections to pile up, the thread creation would cause huge load spikes and sometimes render the servers useless.
  • As we started to push 700-1000 requests per second per load balancer, it seemed things started to slow down.  Hard to get quantitative data on this because page load times are dependent on so many things.

So…  A couple weeks ago we finished converting all our load balancers to Nginx.  We have been using Nginx for Gravatar for a few months and have been impressed by its performance, so moving WordPress.com over was the obvious next step.  Here is a graph that shows CPU usage before and after the switch.  Pretty impressive!

Before choosing nginx, we looked at HAProxy, Perlbal, and LVS. Here are some of the reasons we chose Nginx:

  • Easy and flexible configuration (true config “reload” support has made my life easier)
  • Can also be used as a web server, which allows us to simplify our software stack (we are not using nginx as a web server currently, but may switch at some point).
  • Only software we tested which could handle 8000 (live traffic, not benchmark) requests/second on a single server
We are currently using Nginx 0.6.29 with the upstream hash module which gives us the static hashing we need to proxy to varnish.  We are regularly serving about 8-9k requests/second  and about 1.2Gbit/sec through a few Nginx instances and have plenty of room to grow!

Static hostname hashing in Pound

1 Nov

WordPress.com just surpassed her 300th server today. How do we distribute requests to all those servers? We use Pound of course. For those of you not familiar with Pound, it is an open source software load balancer that is easy to setup and maintain, flexible, and fast!

In general, we do not stick individual sessions to particular backend servers because WordPress uses HTTP cookies to keep track of users and is therefore not dependent on server sessions. Any web server can process any request in any given point of time and the correct data will be returned. This is important since serve traffic in real time across three data centers.

There is one exception to this rule, however, and it has to do with the way we serve images. As Demitrious explained in his detailed post, when a request for an image is made, pound sends the request to a cache server running Varnish. How does it decide which server to send the request to? Well, it looks at the hostname of the request, hashes it, and then assigns that to a particular cache server. By default Pound supports sessions based on any HTTP header, so we could easily use the hostname as the determining factor, but the mapping is not static. In other words, when we restart pound, all the hostname assignments would be reset and we would effectively invalidate a large portion of our cache.

To circumvent this problem, please see the following patch. What the patch does is statically hash hostnames so a given hostname is sent to the same server all the time, even across restarts. If the backend server happens to go down, the requests will be sent to another server in the pool until the server is back up, at which point the requests will be sent to the original server. This allows us to restart pound without invalidating our image cache. We have been using this in production for a couple months now and everything is working great. The patch is written against Pound 2.3.2 and to use the static mapping you would add the following to the end of the Service directive in your Pound configuration file:

Type hostname

One thing to keep in mind is that if you add or remove servers from the Service definition, you will change the mapping, so I would recommend adding a few more backend directives than you need right away to allow for future growth without complete cache invalidation. For example, we currently have 4 caching servers, but 16 BackEnds listed (4 instances of each server). This will allow us to add more cache servers and only invalidate a small portion of the cache each time.

Of course this works for us because each blog has a unique hostname from which images are served (mine is barry.files.wordpress.com). If all of your traffic is served from a single domain name, this strategy won’t do you much good.

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