In late May, the Federal Bureau of Investigation (FBI) warned the public of cyberattacks that involve compromising home and office routers as well as networked devices. The culprit: VPNFilter (detected by Trend Micro as Trojan.Linux.VPNFILT.AA), which has reportedly affected over 500,000 routers in at least 54 countries.
A multistage and modular malware, VPNFilter can steal and harvest information, intercept or block network traffic, monitor Supervisory Control and Data Acquisition (SCADA) protocols, and render infected routers inoperable.
[From TrendLabs Security Intelligence Blog: VPNFilter-affected devices still riddled with 19 vulnerabilities]
Fortunately, the FBI managed to sinkhole a domain/command-and-control (C&C) server that was used by VPNFilter. More recently, security researchers further shed light on VPNFilter’s additional modules whose capabilities could’ve been used for future attacks:
VPNFilter exploited various vulnerabilities in several models and brands of routers and network-attached storage (NAS) devices. Trend Micro’s research also revealed that the devices, including IP cameras and printers, weren’t just susceptible to VPNFilter, but to other publicly known security flaws — and in turn, a host of other attacks, such as remote code execution, command injection, and information leak/disclosure among others.
VPNFilter is just among the spate of recent threats affecting IoT. In late September, security researchers also came across a new IoT botnet they’ve named Torii (which, in Japanese, refers to an iconic, traditional gate) based on how its attacks came from Tor exit nodes.
So far, Torii hasn’t been observed with routines typical in botnets like Mirai and its offshoots, Gafgyt, Satori, and Reaper, such as distributed denial of service and cryptocurrency mining. However, Torii can exfiltrate data, transfer files, execute code, and delete files.
Similar to VPNFilter, it has a modular architecture, retrieving and running executables and commands through layers of encryption. Torii can affect devices based on x86_64, x86, Advanced RISC Machine (ARM), Microprocessor without Interlocked Pipeline Stages (MIPS), PowerPC (PPC), SuperH, and Motorola 68k architectures. Torii sports a two-pronged infection chain and anti-analysis techniques (i.e., sleeping for 60 seconds, randomizing its process names).
[BEST PRACTICES: Securing Your Routers Against Mirai and Other Home Network Attacks]
Given the ubiquity of internet-of-things (IoT) devices in homes and workplaces, the relative ease of exploiting their vulnerabilities and its apparently far-reaching impact are a daunting combination.
While there’s no silver bullet for securing them, adopting best practices helps mitigate risks: keep the devices and its firmware updated, strengthen the device’s credentials, avoid unsecure hotspots or access points whenever possible, and be wary of suspicious unsolicited and suspicious URLs or attachments that may lead to malware infection. Manufacturers and vendors also play vital roles in ensuring the security of the IoT ecosystem.
The Trend Micro™ Home Network Security solution can check internet traffic between the router and all connected devices. Our IoT scanning tool has been integrated into the Home Network Security solution and HouseCall™ for Home Networks scanner. Enterprises can also monitor all ports and network protocols for advanced threats and thwart targeted attacks with the Trend Micro™ Deep Discovery™ Inspector network appliance.
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