Posts Tagged: SEC Consult


6
Dec 16

Researchers Find Fresh Fodder for IoT Attack Cannons

New research published this week could provide plenty of fresh fodder for Mirai, a malware strain that enslaves poorly-secured Internet of Things (IoT) devices for use in powerful online attacks. Researchers in Austria have unearthed a pair of backdoor accounts in more than 80 different IP camera models made by Sony Corp. Separately, Israeli security experts have discovered trivially exploitable weaknesses in nearly a half-million white-labeled IP camera models that are not currently sought out by Mirai.

A Sony IPELA camera. Image: Sony.

A Sony IPELA camera. Image: Sony.

In a blog post published today, Austrian security firm SEC Consult said it found two apparent backdoor accounts in Sony IPELA Engine IP Cameras  devices mainly used by enterprises and authorities. According to SEC Consult, the two previously undocumented user accounts — named “primana” and “debug” — could be used by remote attackers to commandeer the Web server built into these devices, and then to enable “telnet” on them.

Telnet — a protocol that allows remote logons over the Internet — is the very same communications method abused by Mirai, which constantly scours the Web for IoT devices with telnet enabled and protected by factory-default passwords.

“We believe that this backdoor was introduced by Sony developers on purpose (maybe as a way to debug the device during development or factory functional testing) and not an ‘unauthorized third party’ like in other cases (e.g. the Juniper ScreenOS Backdoor, CVE-2015-7755),” SEC Consult wrote.

It’s unclear precisely how many Sony IP cameras may be vulnerable, but a scan of the Web using Censys.io indicates there are at least 4,250 that are currently reachable over the Internet.

“Those Sony IPELA ENGINE IP camera devices are definitely reachable on the Internet and a potential target for Mirai-like botnets, but of course it depends on the network/firewall configuration,” said Johannes Greil, head of SEC Consult Vulnerability Lab. “From our point of view, this is only the tip of the iceberg because it’s only one search string from the device we have.”

Greil said there are other undocumented functionalities in the Sony IP cameras that could be maliciously used by malware or miscreants, such as commands that can be invoked to distort images and/or video recorded by the cameras, or a camera heating feature that could be abused to overheat the devices.

Sony did not respond to multiple requests for comment. But the researchers said Sony has quietly made available to its users an update that disables the backdoor accounts on the affected devices. However, users still need to manually update the firmware using a program called SNC Toolbox.

Greil said it seems likely that the backdoor accounts have been present in Sony cameras for at least four years, as there are signs that someone may have discovered the hidden accounts back in 2012 and attempted to crack the passwords then. SEC Consult’s writeup on their findings is available here.

In other news, researchers at security firm Cybereason say they’ve found at least two previously unknown security flaws in dozens of IP camera families that are white-labeled under a number of different brands (and some without brands at all) that are available for purchase via places like eBay and Amazon. The devices are all administered with the password “888888,” and may be remotely accessible over the Internet if they are not protected behind a firewall. KrebsOnSecurity has confirmed that while the Mirai botnet currently includes this password in the combinations it tries, the username for this password is not part of Mirai’s current configuration.

But Cybereason’s team found that they could easily exploit these devices even if they were set up behind a firewall. That’s because all of these cameras ship with a factory-default peer-to-peer (P2P) communications capability that enables remote “cloud” access to the devices via the manufacturer’s Web site — provided a customer visits the site and provides the unique camera ID stamped on the bottom of the devices.

Although it may seem that attackers would need physical access to the vulnerable devices in order to derive those unique camera IDs, Cybereason’s principal security researcher Amit Serper said the company figured out a simple way to enumerate all possible camera IDs using the manufacturer’s Web site.

“We reverse engineered these cameras so that we can use the manufacturer’s own infrastructure to access them and do whatever we want,” Serper said. “We can use the company’s own cloud network and from there jump onto the customer’s network.” Continue reading →


18
Feb 14

Time to Harden Your Hardware?

Most Internet users are familiar with the concept of updating software that resides on their computers. But this past week has seen alerts about an unusual number of vulnerabilities and attacks against some important and ubiquitous hardware devices, from consumer-grade Internet routers, data storage and home automation products to enterprise-class security solutions.

ciscomoon Last week, the SANS Internet Storm Center began publishing data about an ongoing attack from self-propagating malware that infects some home and small-office wireless routers from Linksys.  The firewall built into routers can be a useful and hearty first line of protection against online attacks, because its job is to filter out incoming traffic that the user behind the firewall did not initiate. But things get dicier when users enable remote administration capability on these powerful devices, which is where this malware comes in.

The worm — dubbed “The Moon” — bypasses the username and password prompt on affected devices. According to Ars Technica’s Dan Goodin, The Moon has infected close to 1,000 Linksys E1000, E1200 and E2400 routers, although the actual number of hijacked devices worldwide could be higher and is likely to climb. In response, Linksys said the worm affects only those devices that have the Remote Management Access feature enabled, and that Linksys ships these products with that feature turned off by default. The Ars Technica story includes more information about how to tell whether your router may be impacted. Linksys says it’s working on an official fix for the problem, and in the meantime users can block this attack by disabling the router’s remote management feature.

Similarly, it appears that some ASUS routers — and any storage devices attached to them — may be exposed to anyone online without the need of login credentials if users have taken advantage of remote access features built into the routers, according to this Ars piece from Feb. 17. The danger in this case is with Asus router models including RT-AC66R, RT-AC66U, RT-N66R, RT-N66U, RT-AC56U, RT-N56R, RT-N56U, RT-N14U, RT-N16, and RT-N16R. Enabling any of the (by-default disabled) “AiCloud” options on the devices — such as “Cloud Disk” and “Smart Access” — opens up a potentially messy can of worms. More details on this vulnerability are available at this SecurityFocus writeup.

ASUS reportedly released firmware updates last week to address these bugs. Affected users can find the latest firmware updates and instructions for updating their devices by entering the model name/number of the device here. Alternatively, consider dumping the stock router firmware in favor of something more flexible, less buggy amd most likely more secure (see this section at the end of this post for more details).

YOUR LIGHTSWITCH DOES WHAT?

Belkin WeMo Switch

Belkin WeMo Switch

Outfitting a home or office with home automation tools that let you control and remotely monitor electronics can quickly turn into a fun and addictive (if expensive) hobby. But things get somewhat more interesting when the whole setup is completely exposed to anyone on the Internet. That’s basically what experts at IOActive found is the case with Belkin‘s WeMo family of home automation devices.

According to research released today, multiple vulnerabilities in these WeMo Home Automation tools give malicious hackers the ability to remotely control the devices over the Internet, perform malicious firmware updates, and access an internal home network. From IOActive’s advisory (PDF):

Continue reading →