On Thursday evening, KrebsOnSecurity was the subject of a rather massive (and mercifully brief) distributed denial-of-service (DDoS) attack. The assault came from “Meris,” the same new “Internet of Things” (IoT) botnet behind record-shattering attacks against Russian search giant Yandex this week and internet infrastructure firm Cloudflare earlier this summer.
Cloudflare recently wrote about its attack, which clocked in at 17.2 million bogus requests-per-second. To put that in perspective, Cloudflare serves over 25 million HTTP requests per second on average.
In its Aug. 19 writeup, Cloudflare neglected to assign a name to the botnet behind the attack. But on Thursday DDoS protection firm Qrator Labs identified the culprit — “Meris” — a new IoT monster that first emerged at the end of June 2021.
Qrator says Meris has launched even bigger attacks since: A titanic and ongoing DDoS that hit Russian Internet search giant Yandex last week is estimated to have been launched by roughly 250,000 malware-infected devices globally, sending 21.8 million bogus requests-per-second.
While last night’s Meris attack on this site was far smaller than the recent Cloudflare DDoS, there were likely many times more IoT bots involved than were responsible for the Mirai DDoS attack in 2016 that held KrebsOnSecurity offline for nearly four days.
Also, the traffic deluge from Thursday’s attack on this site was was more than four times what Mirai threw at this site five years ago. This latest attack involved more than two million requests-per-second. By comparison, the 2016 Mirai DDoS generated approximately 450,000 requests-per-second.
According to Qrator, which is working with Yandex on combating the attack, Meris appears to be made up of Internet routers produced by MikroTik. Qrator says the United States is by far the largest country with MikroTik routers that are potentially vulnerable to compromise by Meris — with more than 42 percent of the world’s MikroTik systems connected to the Internet (followed by China — 18.9 percent– and a long tail of one- and two-percent countries).
It’s not immediately clear which security vulnerabilities led to these estimated 250,000 MikroTik routers getting hacked by Meris.
“The spectrum of RouterOS versions we see across this botnet varies from years old to recent,” the company wrote. “The largest share belongs to the version of firmware previous to the current stable one.”
It’s fitting that Meris would rear its head on the five-year anniversary of the emergence of Mirai, an IoT botnet strain that was engineered to out-compete all other IoT botnet strains at the time. Mirai was extremely successful at crowding out this competition, and quickly grew to infect tens of thousands of IoT devices made by dozens of manufacturers.
The biggest contributor to the IoT botnet problem — a plethora of companies white-labeling IoT devices that were never designed with security in mind and are often shipped to the customer in default-insecure states — hasn’t changed much, mainly because these devices tend to be far cheaper than more secure alternatives.
The good news is that over the past five years, large Internet infrastructure companies like Akamai, Cloudflare and Google (which protects this site with its Project Shield initiative) have heavily invested in ramping up their ability to withstand these outsized attacks [full disclosure: Akamai is an advertiser on this site].
More importantly, the Internet community at large has gotten better at putting their heads together to fight DDoS attacks, by disrupting the infrastructure abused by these enormous IoT botnets, said Richard Clayton, director of Cambridge University’s Cybercrime Centre.
“It would be fair to say we’re currently concerned about a couple of botnets which are larger than we have seen for some time,” Clayton said. “But equally, you never know they may peter out. There are a lot of people who spend their time trying to make sure these things are hard to keep stable. So there are people out there defending us all.”