The size and volume of distributed denial-of-service attacks has exploded in the past year, with a 389 percent increase in average attack bandwidth between the third quarter of 2013 and the third quarter of 2014, according to an Internet security report from Akamai Technologies.
This should make companies consider using cloud-based security services, such as the DDoS filtering technology Akamai provides, said John Summers, vice president of the company's security business unit.
During the past quarter, Akamai defended against 17 DDoS attacks flooding targets with traffic greater than 100 Gbps, with the largest at 321 Gbps, the cloud services vendor said in its Q3 2014 State of the Internet report, released Thursday.
A typical corporate connection to the Internet is between 1 to 10 Gbps, Summers said. "We've seen a remarkable increase in the number of very large attacks," he said. "If you do not have a way to defend [against a 100 Gbps attack], other than at the access into your infrastructure, you're going down, there's nothing you can do."
Defending against DDoS attacks in the cloud gives companies the ability to "fight and deflect these attacks with a distributed infrastructure," he added. "Instead of fighting one fire roaring at the edge of your data center, you're able to fight it with 1,000 smaller fires, all scattered around the edges of the Internet."
One extended campaign targeting a gaming site featured 39 distinct DDoS attacks over a two-month period, with eight of the attacks peaking at over 100 Gbps, Summers said.
The record-setting increases in DDoS attacks' size and volume were fueled by the availability of attack toolkits with easy-to-use interfaces, a growing DDoS-for-hire criminal industry and a mass exploitation of Web vulnerabilities that allowed attackers to build huge botnets of compromised computers used to generate traffic, Akamai said.
Akamai saw a 22 percent increase in the number of DDoS attacks between the third quarter of 2013 and the third quarter of this year, but those attacks included a huge 366 percent increase in average peak packets per second in the traffic used to flood targeted websites.
The company is also seeing botnet farmers targeting a wider range of devices beyond PCs and servers, Summers said. Akamai, in past quarters, had already seen smartphones used in botnets, but for the first time this past quarter, the company saw botnet attacks coming from devices using the ARM microprocessor, he said. The ARM chip is used in embedded devices, digital TVs, smartphones, gaming consoles and smart sensors, among other devices.
Many people aren't frequently updating the firmware or running malware protection on cable modems and smartphones, making those devices attractive to botnet farmers, Summers said.
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