Blog – Stack Overflow

We noticed something unusual on our Cacti graphs today. Can you spot it?

Yes! The light gray of the graph background does seem a few shades lighter than normal! I see it too!

No, no, of course I’m talking about that massive traffic spike from 06:00 to 15:00 PST (server time). In the words of The Office’s David Brent:

I think there’s been a rape up there!

Bandwidth isn’t usually a problem for us, as we are heavily text-oriented and go to great lengths to make sure all our text content is served up compressed. This is almost 3x our normal peak traffic level. And for what?

Geoff ran a few queries in Log Parser and found that this is yet another instance of a perfect web spider storm. Here are the top 3 bandwidth consumers in the logs for that day:

As I mentioned, this has happened to us before — and we’ve considered dynamically blocking excessive HTTP bandwidth use. But first we politely asked the Yahoo and Google web spider bots to play a bit nicer:

1. We updated our robots.txt to include the Crawl-delay directive, like so:

   User-agent: Slurp
   Crawl-delay: 1
   
   User-agent: msnbot
   Crawl-delay: 1
   

2. We went to Google Webmaster Tools and told Google to send no more than 2 Googlebot search engine spider requests per second.

That was a week ago. Obviously, it isn’t working.

Now we’ll have to do this the hard way. Fortunately, Geoff (aka Valued Stack Overflow Associate #00003) has a “spare” Cisco PIX 515E laying around that we plan to put in front of the web servers, so we can dynamically throttle the offenders. But we can’t do that for a week or so.

In the meantime, since Yahoo (via Slurp!) is about 0.3% of our traffic, but insists on rudely consuming a huge chunk of our prime-time bandwidth, they’re getting IP banned and blocked. I’m a bit more sympathetic to Google, since they deliver almost 90% of our traffic, but it sure would be nice if they’d allow me to at least schedule the massive web spider storms for off-peak hours…

We had a brief outage early Tuesday morning from 3 AM – 5 AM PST, because the database server was doing this:

Oh noes! Not …

!!! CRITICAL ERROR: Memory retention failure, unflushed cache lost !!!

There are six exclamation points so you know it’s serious. Also, you have to press ENTER. Because it’s a CRITICAL ERROR !!!

(we didn’t know this at the time, we only belatedly found out later — once Geoff got up in the morning and had time to head down to the data center.)

One of the pieces of advice I got on server hosting was to have extra servers on hand just in case. We currently have three web tier servers, though we’re only using one (and soon two), so one of those was quickly pressed into service as our temporary database server.

We have a reasonable backup scheme in place using our little NAS; full database backups occur at 2AM, and incremental backups every four hours. This problem happened at 3AM so we did lose about an hour of data. Our apologies for that.

Our contingency planning isn’t what it should be. We went back and forth with the datacenter for a bit trying to figure out what had happened, and that wasn’t smooth due to our lack of planning and the late hour (~1 hour). After I realized a quick power cycle wasn’t going to fix the issue, I had to reconfigure one of the web servers. This meant downloading the SQL Server 2008 ISO (25 minutes), installing a hotfix and reboot (5 minutes), then completing the installation (20 minutes). I could then, finally, restore the latest backup from 2 AM (10 minutes). So we were down longer than I would’ve liked.

What’s unnerving about this problem, though, is that the RAID controller on the Lenovo RD120 — an Adaptec card that has been rebranded the “IBM ServeRaid 8k” — has had three BIOS updates since I built the machine in late January, with the (then) latest BIOS! The good news is that the latest BIOS for the ServeRaid-8k fixes this specific ‘press ENTER’ problem, in fact. So Geoff burned it to bootable CD and installed it.

(On a related note, I discovered that the lower-end LSI 1064e RAID card on our web servers has also had a driver update which fixes the “bluescreen on drive eject” problem I observed while building them — and assumed was the norm. I guess not.)

We know why the server didn’t come back after the reboot. But we still don’t know what triggered this server reboot in the first place. The event logs and SQL logs look clean, with no hints on rebooting. Now, the Adaptec / ServeRaid 8k card has always been a little wonky for us, causing oddball hard drive incompatibilities with its factory shipped BIOS, and leaving us unable to turn write-back caching on without suffering from bizarre I/O pauses under heavy writes even with the (then) absolute latest firmware, bios, and drivers. So I am tempted to blame it, in the absence of any other evidence.

If I’ve learned anything from this experience, it is:

1. Never skimp on your RAID controller. Invest in something quality.
2. Pick a RAID controller with good community buzz, and a proven track record of support and reliable performance.

I thought when I bought Lenovo / IBM, I’d be getting decent RAID controllers with the servers. This is at least partially true. Those rebranded entry-level LSI 1064e RAID controllers on the Lenovo RS110 servers have been solid and reliable performers. The fancier Adaptec/ServeRaid 8k RAID controller on the Lenovo RD120 has been … uh, less so. But at the rate they’re releasing new BIOS updates for the ServeRaid 8k, maybe they’ll get there eventually? Or at least let us turn write-back caching on without crippling I/O pauses under load? At this point I’ll settle for please don’t corrupt all our data..

As part of our new backup strategy, I decided to invest in an inexpensive Network Attached Storage (NAS) unit — the QNAP TS-409U.

The TS-409U has the following specs:

• 1u rack mountable
• 4 SATA drive bays
• 500 MHz embedded CPU, 8 MB flash RAM, 512 MB RAM, Linux based
• Supports RAID 0, 1, 5, 6 with hot-plugging drives
• Gigabit ethernet network interface w/ web UI
• Mac, Windows, Linux filesystem support

Being Linux, you can also do lots of other cool stuff on it, like run Apache+PHP, MySQL server, FTP server, BitTorrent server, Multimedia Server (whatever the heck Twonky is), and iTunes compatible media sharing. But for our purposes, it’s an inexpensive RAID-based filesystem. It’s a minimalistic set of hardware, as you can see in this Techware Labs review:

I populated our TS-409U with four of the best price/capacity hard drives I could source. As of today, at least, the sweet spot is 640 GB drives. Total price was $799 for the device, and $60 each for the drives, so around $1,200 total with tax and shipping.

Our Database Ninja^tm, Brent Ozar, gave me a little flak for investing in such a low-end NAS device. It’s true, for around $1,400 I could have built yet another quad-core, 2 drive mirror Lenovo RS110 server. However, I felt that having an embedded device dedicated to backups — and one with four drive bays that can do better than RAID 0 or 1 — was the more logical choice. But I agree, it would have been nice to have another full-blown server to pinch hit for scalability or anything else. It’s a grey area.

As for setting up the QNAP TS-409U, I was a little annoyed that you have to run a Windows or Mac executable for the initial setup, instead of just booting it and configuring everything through the comprehensive (and very nice) web UI. But it detected my drives and configured OK, at which point I could use the web UI for everything else:

Seventeen (!) hours later, the array was fully synced and ready for benchmarking. RAID 6 is just like RAID 5, but with one more parity block, so it can survive two drive failures instead of just one.

The downside of picking a low end NAS is speed. The relatively anemic 500 MHz embedded CPU, combined with software-only RAID and the inherent write penalty of RAID 6’s dual parity calculation, means … well, this is not what I would call a “fast device”. Here are some quick benchmarks I ran:

For our intended use, storing a bunch of large single file daily database backups, blazing speed isn’t particularly important. Now that we have a 1+ TB backup device on the local network, we can store a huge history of daily backups. These check in at about 5GB per day currently, with a growth rate of 50 – 100 MB per day. This also takes some write pressure off the database server, since whatever backups we take will be spooled to the NAS over ethernet.

We plan to complement our onsite daily backups with informal offsite “sneakernet” backups. As I’ve mentioned before, we are fortunate to have Stack Overflow team member Geoff Dalgas live about a mile from the data center. We bought him a 500 GB 2.5″ USB drive, so he can head over the data center every 2 months or so and copy some backups off to keep in the (hopefully) unlikely event something terrible happens to our data center.

We just finished migrating our new servers over to the new datacenter at PEAK Internet.

The installation was aided greatly by Stack Overflow team member Geoff Dalgas, who happens to live about a mile from PEAK in Corvallis, Oregon. He visited the facility before the servers arrived, and also helped with their installation. Having Geoff as our “Remote Human Access Card” wasn’t the deciding factor in our choice of datacenter — but it definitely helped!

Geoff recently had his first child, Caleb, and we thought it’d be fun to juxtapose his baby with.. our babies. Aww. So cute! The servers, I mean! You did a fantastic job on both, Geoff.

PEAK internet impressed us with their detailed technical responses to our requests (yeah, we’re picky), and their outstanding dedicated business hosting rates.

Note that we have moved a bit further to the west coast of the USA in this migration (from Arizona to Oregon), so you may see a tad more latency depending on where in the world you live. Not much we can do about that.

“There’s nothing you can do about latency,” says John Romero, referring to physical restraints that slow down network play. “It’s inherent in the system.”

“Yeah,” says John Carmack wistfully, “the speed of light sucks.”

We believe the speed increase of the new servers will more than offset any latency differences. Here’s to a long and harmonious relationship with our new hosts, PEAK Internet!

We now have the new servers set up in the data center, and configured with copies of the Stack Overflow website and database. We excitedly ran a few quick speed comparisons with the live site and found.. the new site was two times slower than the old one.

(insert sound of analog record needle being ripped off a record, here.)

Er.. what?

That was our reaction too. These servers have 2 – 4x the memory, 1.5x the processing power, and faster drive arrays. How could they possibly be slower?

Through a process of elimination, we deduced the following:

1. Lightweight pages on the new site indeed load faster. This means the web tier is probably OK.
2. A long-ish running SQL query extracted from the old database server, runs faster when executed manually against the new database server. This means the database tier is probably OK.
3. The more heavyweight the page, the more pronounced the slowdown. This led us to believe the network was the culprit.

We double and triple checked all our network settings, and verified our little NetGear GS108T managed switch was configured properly and had the latest firmware. We couldn’t find a single thing wrong or misconfigured. This was turning into a real mystery. We were pondering whether we’d have to eliminate the switch and try a direct crossover ethernet connection between the web tier and database tier.

While we were discussing it, I figured I’d update the network drivers from the default provided with Windows to the latest versions from Broadcom’s website. It’s a little risky when done remotely, but it worked.

To my utter amazement, once the network drivers were updated on both tiers, our performance magically went from 2x slower to 2x faster! Here’s a firebug network trace of me retrieving my user page on both servers.

Existing site:

New site:

For context, prior to the network driver update, this page was taking over 900 milliseconds to load on the new servers. Just the page itself, mind you, everything else was on top of that. The overall time was around 1.35 seconds average. Ouch!

Going from 715ms to 560ms user page load time is the kind of performance increase we expected from the new hardware. Note that I cherry-picked the best page load time from the old server here, versus an average page load time from the new server. In the typical case it’d be even faster. We expect a lot of the heavier pages on Stack Overflow will load anywhere from 50% to 100% faster. We’re planning to switch over to the new servers on Sunday, if everything goes as planned.

I guess the lesson here is the same one I learned last time: always update your drivers to the absolute latest versions, or you’ll be sorry. Really sorry! I had no idea out-of-date network drivers could cause such catastrophically bad performance. I guess I do now.