Recently disclosed critical Spring4Shell vulnerabilities are being actively exploited by threat actors to spread the Mirai botnet malware throughout Singapore, specifically since April 2022.
Using this exploit, threat actors can download the Mirai sample to the ‘/tmp’ folder and execute it after changing permissions using ‘chmod,'”
Trend Micro researchers Deep Patel, Nitesh Surana, and Ashish Verma wrote in a report released Friday.
Tracked as CVE-2022-22965 (CVSS score: 9.8), the vulnerability could allow malicious actors to achieve remote code execution in Spring Core applications under non-default circumstances, granting the attackers full control over the compromised devices.
The development comes as the U.S. Cybersecurity and Infrastructure Security Agency (CISA) earlier this week added the Spring4Shell vulnerability to its Known Exploited Vulnerabilities Catalog based on “evidence of active exploitation.”
This is far from the first time the botnet operators have quickly moved to add newly publicized flaws to their exploit toolset. In December 2021, multiple botnets including Mirai and Kinsing were uncovered leveraging the Log4Shell vulnerability to breach susceptible servers on the internet.
Mirai, meaning “future” in Japanese, is the name given to a Linux malware that has continued to target networked smart home devices such as IP cameras and routers and link them together into a network of infected devices known as a botnet.
The IoT botnet, using the herd of hijacked hardware, can be then used to commit further attacks, including large-scale phishing attacks, cryptocurrency mining, click fraud, and distributed denial-of-service (DDoS) attacks.
To make matters worse, the leak of Mirai’s source code in October 2016 has given birth to numerous variants such as Okiru, Satori, Masuta, and Reaper, making it an ever-mutating threat.
Earlier this January, cybersecurity firm CrowdStrike noted that malware hitting Linux systems increased by 35% in 2021 compared to 2020, with XOR DDoS, Mirai, and Mozi malware families accounting for more than 22% of Linux-targeted threats observed in the year.
“The primary purpose of these malware families is to compromise vulnerable internet-connected devices, amass them into botnets, and use them to perform distributed denial-of-service (DDoS) attacks,” the researchers said.