Kaspersky Releases Overview Of IoT-related Threats In 2023

Kaspersky has released a new report delving into the evolving threats targeting the Internet of Things (IoT) sector. The research uncovered a thriving underground economy on the dark web focused on IoT-related services, particularly for DDoS attacks.

With IoT devices, such as routers and smart home components, projected to exceed 29 billion by 2030, Kaspersky’s research offers critical insights into attack methods, dark web activities, and prevalent malware types.

Distributed Denial of Service (DDoS) attacks orchestrated through IoT botnets were found to be in high demand among hackers. In the first half of 2023, Kaspersky’s Digital Footprint Intelligence service analysts identified over 700 ads for DDoS attack services on various dark web forums.

The cost of these services varies depends on factors like DDoS protection, CAPTCHA, and JavaScript verification on the victim’s side, ranging from $20 per day to $10,000 per month. On average, the ads offered these services at $63.50 per day or $1,350 per month.

In addition, the dark web marketplace offers exploits for zero-day vulnerabilities in IoT devices, as well as IoT malware bundled with infrastructure and supporting utilities.

In the realm of IoT malware, a variety of families exist, with many originating from the 2016 Mirai malware. Fierce competition among cybercriminals has driven the development of features designed to thwart rival malware. These strategies include implementing firewall rules, disabling remote device management, and terminating processes linked to competing malware.

The primary method for infecting IoT devices continues to be through brute-forcing weak passwords, followed by exploiting vulnerabilities in network services. Brute-force attacks on devices are commonly directed at Telnet, a widely used unencrypted protocol. Hackers use this method to gain unauthorized access by cracking passwords, allowing them to execute arbitrary commands and malware. Although SSH, a more secure protocol, is also susceptible, it presents a greater resource challenge for attackers.

In the first half of 2023, Kaspersky’s honeypots recorded that 97.91% of password brute-force attempts focused on Telnet, with only 2.09% directed at SSH. These attacks were primarily focused on China, India, and the United States, while China, Pakistan, and Russia were the most active attackers.

Furthermore, IoT devices face vulnerabilities due to exploits in the services they use. These attacks often involve execution of malicious commands by exploiting vulnerabilities in IoT web interfaces, resulting in significant consequences, such as the spread of malware like Mirai.

“Kaspersky urges vendors to prioritize cybersecurity in both consumer and industrial IoT devices,” said Yaroslav Shmelev, a security expert at Kaspersky. “We believe that they must make changing default passwords on IoT devices mandatory and consistently release patches to fix vulnerabilities. In a nutshell, the IoT world is filled with cyber dangers, including DDoS attacks, ransomware, and security issues in both smart home and industrial devices. Kaspersky’s report stresses the need for a responsible approach to IoT security, obliging vendors to enhance product security from the get-go and proactively protect users.”

Types of IoT malware

IoT devices are susceptible to various types of malware, each serving distinct purposes:

1. DDoS Botnets: These malicious programs take control of IoT devices to launch Distributed Denial of Service (DDoS) attacks on a wide range of services.

2. Ransomware: Targeting IoT devices, particularly those containing user data like NAS boxes, ransomware encrypts files and demands ransoms for decryption.

3. Miners: Despite their limited processing power, some cybercriminals attempt to use IoT devices for cryptocurrency mining.

4. DNS Changers: Certain malware alters DNS settings on Wi-Fi routers, redirecting users to malicious websites.

5. Proxy Bots: Infected IoT devices are employed as proxy servers to reroute malicious traffic, making it difficult to trace and mitigate such attacks.