So when we reached a surprising dead-end in our quest to find a reverse proxy that could block HTTP clients using too much bandwidth, or too many connections, we were happy to approach Willy with the idea of sponsoring this feature in HAProxy.
I’m pleased to announce that this new HAProxy feature we sponsored is now available to everyone as of August 26th!
Geoff Dalgas and Jeff Atwood described to me in great details what they needed to do : perform request throttling per IP address, possibly based on various criteria, in order to limit risks of service abuse. That was very interesting, because that feature was being thought about for about 4 years without enough time to completely develop it …
The last words naturally go to the really cool guys at Stack Overflow. It’s very nice to see some sites and companies involve time and money and take risks to make Open Source products better. Of course they benefit from this work, but at no point during the whole development did they try to reduce the focus to their specific needs, quite the opposite. From the very first exchanges, their goal clearly was to make the product better, and that must be outlined. That’s now achieved and I really appreciate their involvement. Thank you guys!
If you’d like more details, Kyle Brandt, our sysadmin extraordinaire, documented the details of how this new HTTP connection and bandwidth limiting feature works over at the Server Fault Blog. Kyle also worked extensively with Willy to make sure everything went smoothly, and it’s a credit to both of them, because it absolutely did. This big new feature worked more or less as advertised right out of the gate.
We hope to be able to sponsor more open source projects in this manner. Our specific goal is to “make the internet a better place to get expert answers to your questions”, but I believe this is still secondary to our primary goal: make the internet better. And having a freely available open source reverse proxy that lets you run a site of our size (top 500 on the internet by some accounts) without being accidentally undermined by abusive or poorly written HTTP clients, is a win for not just us — but everyone!
Our hosting provider, PEAK, let us know that they had a cooling compressor fail in the facility.
The primary database server was apparently taken offline at 2:53 AM Pacific Time by this thermal event.
The backup database server is still online and has the most recent (12 AM) backups restored to it; we’re currently just waiting to hear if db1 is rebootable/alive before bringing db2 online.
db1 came back OK, and we’re resuming site service now at 3:57 AM.
Checking the logs, db1 apparently shut down from heat at 2:44 AM:
The previous system shutdown at 2:44:21 AM on 2/7/2010 was unexpected.
I suspect db1 shut down because it’s on top of the rack (highest = more heat) and it is the only server using the High Performance power plan — which operates all CPUs at 100% speed all the time — instead of the default Balanced power plan which allows the CPUs to reduce speed and consume less power when they are lightly loaded.
We’ll be following up with PEAK to figure out why this wasn’t handled before temperatures became dangerously high.
Obligatory video link.
Geoff went down to the datacenter, and he confirmed it really was quite hot down there — doors were open, fans were placed blowing air in, etc.
Update: PEAK official statement
The PEAK HVAC system consist of two cooling systems which both operate to provide cooling to the pressurized floor of data center. One system is a 5-ton and the second is a 10-ton unit.
At around 2:30am on Sunday morning (2/7) the PEAK Data Center experienced a failure of one of our air conditioning units on the roof. Our monitoring systems notified the PEAK support center when the AIR temperature exceeded 80 degrees F. At some point we measured temps of 83+ degrees F in the Data Center.
Engineers arrived on-site around 3:00am and deployed portable fans to exhaust warm air. This brought down the air temperature in the Data Center to under 80 degrees.
Our HVAC vendor was dispatched and arrived on-site by 4:00am. The vendor located a failed heat exchanger fan motor in their in-stock inventory and performed an emergency replacement. By 7:00am the HVAC system was operating with the repaired equipment. At 7:30 4lbs of coolant was added to the system. By 9:00am, the temperature in the Data Center returned to normal levels.
PEAK Engineers are looking into why this failure caused a significant rise in the Data Center temperature. Based on our findings, PEAK will take the necessary actions to ensure a failure of one systems does not cause a significant change in the Data Center temperature. We will provide this information once it becomes available.
Scary how fast temperatures rose!
Remember Joel Spolsky’s fine article “Five Whys”? Sure you do! It contained this paragraph:
Michael spent some time doing a post-mortem, and discovered that the problem was a simple configuration problem on the switch. There are several possible speeds that a switch can use to communicate (10, 100, or 1000 megabits/second). You can either set the speed manually, or you can let the switch automatically negotiate the highest speed that both sides can work with. The switch that failed had been set to autonegotiate. This usually works, but not always, and on the morning of January 10th, it didn’t.
Guess what we woke up this morning (well, you don’t really “wake up” at 3 AM, unless you’re a vampire, but you know what I mean) to find?
My, that looks familiar. Where have I read about this before? Oh yes, the article I just quoted twenty seconds ago!
To be fair to NetGear, we never had any port speed negotiation problems with our old 8-port GS108T switches, but we recently upgraded to the 24-port GS724T. I guess this model is more sensitive and brooding, or something.
Geoff “the Malice from Corvallis” Dalgas was all over this one and got all the web tier servers in our network set to a fixed, non-negotiable ethernet speed of 1 Gigabit.
And I ask myself … why? why? why? why? why?
It’s because I can’t read, apparently, and that’s why.
I think we’ve finally arrived at a semi-stable network layout for running Stack Overflow and the rest of the trilogy.
Here’s a diagram of our current network layout:
The most recent changes were all in the name of redundancy:
- move to dual HAProxy routing instances
- add a third Stack Overflow server to the HAProxy rotation to handle steadily growing site traffic
- push our static content (sstatic.net), which is shared amongst all Trilogy sites, to five different servers
- take advantage of our datacenter’s ability to deliver dual switched connections to the internet
The last part is in reference to an unfortunate recent switch outage at PEAK, our datacenter provider. It was handled swiftly, but now there is no longer a single point of failure upstream of us at PEAK — we’re being served by two different switches on two different internet connections. Kudos to PEAK for not only handling this rapidly at the time, but also more permanently fixing it in a way that makes it less likely to happen next time.
What motivated a lot of this was a little scare we had about a week ago. The single server that hosted our single HAProxy instance and the sstatic.net content experienced some kind of bizarre, one-time, and still-unexplainable (edit: now explained) networking issue. This sounds minor, and it should have been, but it was a major bummer in actuality because having that one server become unavailable on the network effectively took out every single site we run with the exception of Careers. We sure lost the server lottery on that one.
Not good, obviously.
We redoubled our efforts to become more redundant. We recently added a sixth 1U web tier machine so our server rack is now completely full. We have way, way more server power than we need. That’s 6 very capable web tier boxes and 2 beefy database tier boxes all told. Each ready and willing to dynamically share whatever load we want them to. We just had to figure out how to do it.
We’re big fans of HAProxy, which the guys at Reddit turned us on to. It has been working flawlessly for us in load balancing Stack Overflow between two — and now three — servers. We currently use IP-hash based routing to determine which server visitors to stackoverflow.com end up on. This helps improve local server cache hit ratios, as users “stick” to the same server for as long as they hold the same IP address. (No, we don’t use a shared server farm memory cache like Memcached or Velocity quite yet.) While this works, it does lead to some slightly imbalanced loads, particularly when single-IP whales like Google thunder through your neighborhood. We found that going from two to three servers produced a surprisingly large improvement in server load balance, even with our less-than-optimal IP hash routing choice.
HAProxy is a proven solution for us. But we needed some way of using two HAProxies — on two different servers.
Geoff did some research and came up with Heartbeat, which is a part of Linux-HA. This works by “sharing” one IP between two machines (in this case, two Linux virtual machines). It dynamically switches the IP from one server to the other when the heartbeat times out. We now have this set up and it works brilliantly; shut down one of the two VMs and within two
ping -t cycles, that IP address is automagically and seamlessly switched to the other VM. There is a very brief interruption of service during this switchover, but it’s no more than a few seconds.
We also moved our sstatic.net shared content from living on a single webserver, to living on five different webservers. Our dual HAProxy instance is also responsible for routing sstatic.net traffic — as visitors request sstatic.net files, those requests are served in perfect round-robin fashion by whichever of the 5 webservers HAProxy sees as alive at the moment.
Given that these HAProxy instances are super-critical not only to Stack Overflow but every site in the trilogy (because they serve shared static content), we need constant reassurance that they’re healthy. We already use Pingdom as an external monitor and alert service for our existing websites, so we added our HAProxy instances to the mix with an aggressive ping schedule. If something bad happens to either HAProxy instance, we should know about it within a few minutes.
There might have been some momentary interruptions in service while we set this all up, so our apologies for that. But the net result is a more resilient, more reliable Stack Overflow and friends for you!
This Saturday, December 19th, from 4 PM to 8 PM PST, all trilogy sites and the blog will be down for a spot of maintenance.
What are we doing? A few things, several of which were inspired by comments on our Server Rack Glamour Shots:
- Upgrading one server which does a lot of VM utility work to Windows Server 2008 R2.
- Installing shorter power cables.
- Installing shorter ethernet cables.
- Installing a 24-port gigabit switch, which we will reverse 1U mount.
- Adding dual redundant daily USB hard drive backups, as suggested by Joel.
This probably won’t take 4 full hours, but we figured it was better to warn about more than we needed, just in case!
All done; behold the beautiful results of Geoff’s hard work — and compare with the old setup.