‘Matrix’ Hackers Launch Large-scale IoT Botnet for DDoS Attacks

Aqua Nautilus researchers have uncovered a significant Distributed Denial of Service (DDoS) campaign attributed to a threat actor known as Matrix, which appears to have Russian affiliations. This investigation highlights the vulnerabilities that are being exploited, the techniques employed, and the potential repercussions for businesses globally.

The newly identified DDoS activities leverage easily accessible tools and require minimal technical knowledge, enabling Matrix—described by researchers as script kiddies—to target a vast array of internet-connected devices. This includes Internet of Things (IoT) devices, security cameras, routers, Digital Video Recorders (DVRs), and various enterprise systems, indicating a shift in the operational focus of DDoS attacks.

Utilizing techniques mapped to the MITRE ATT&CK framework, Matrix predominantly relies on brute-force attacks, identifying and exploiting weak default credentials and configurations to gain unauthorized access. After breaching a device, it becomes part of a larger botnet, allowing attackers to amplify their assault by deploying various public scripts and tools, which facilitate the scanning for additional vulnerable systems and the execution of attacks using malware.

Despite initial indicators suggesting a Russian connection, Aqua Nautilus’s analysis shows a notable absence of Ukrainian targets, implying that the motivations may align more closely with financial gain rather than geopolitical objectives. The campaign is marked by the establishment of the Kraken Autobuy Telegram bot, which facilitates the sale of DDoS attack services targeting key layers of network communication, reinforcing the trend toward the commercialization of such cyber activities.

The exploits leverage both recent and older vulnerabilities, contributing to an expansive attack surface for malicious actors. Observations indicate that approximately 95% of the attack traffic occurs on weekdays, suggesting a methodical approach to these DDoS assaults. Matrix maintains a repository on GitHub that houses various malicious scripts and tools, primarily written in Python, Shell, and Golang, facilitating the design and execution of attacks.

Tools identified in this campaign, as reported by Virus Total, include DDoS Agent, SSH Scan Hacktool, PyBot, and the Homo Network, among others. These tools allow attackers comprehensive control over compromised devices, enabling the execution of large-scale DDoS attacks while utilizing Discord for streamlined communication and coordination.

The implications of this campaign are substantial, with millions of internet-connected devices possibly at risk. Researchers estimate that nearly 35 million devices are susceptible, which means that if even a small percentage were to be compromised, the resulting botnet could rival some of the most significant DDoS attacks to date.

The primary effect of these attacks is the denial-of-service to targeted servers, which disrupts essential business operations and online services. Businesses depending on compromised servers might face service interruptions, leading to operational shutdowns. Additionally, while some cryptocurrency mining operations targeting systems like ZEPHYR have been observed, the financial returns from such activities remain minimal.

To mitigate risks, organizations must adopt stringent cybersecurity measures, including regular updates and patching, robust password policies, network segmentation, and the implementation of intrusion detection systems and web application firewalls. Regular security audits are also crucial to reduce vulnerability to DDoS attacks and other cyber threats.

In summary, the Matrix DDoS campaign exemplifies a growing trend of cybercriminals exploiting vulnerabilities within IoT ecosystems and leveraging accessible tools to launch widespread attacks. Understanding the tactics and techniques employed in such campaigns is essential for businesses aiming to fortify their cybersecurity defenses.

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