Report uncovers hackers now use emojis to command malware
The discovery emphasises the need for robust cybersecurity measures to counter such sophisticated threats.
Researchers from the cybersecurity firm Volexity have uncovered a sophisticated cyber threat that uses the popular Discord messaging service for command and control (C2) purposes. That was discovered during a targeted cyber attack on the Indian government this year, where a malicious software named Disgomoji was deployed. The attack was attributed to a suspected Pakistani threat actor known as UTA0137. The group uses emojis for C2 communication on the Discord platform, showcasing a new covert approach to conduct espionage campaigns against Indian government entities.
The Disgomoji malware, tailored to target Linux systems, specifically the custom BOSS distribution used by the Indian government is highly sophisticated in its design and execution. Initial access to the targeted systems was believed to have been gained through phishing attacks, leveraging decoy documents as bait. Once infiltrated, the malware established dedicated channels within Discord servers, with each channel representing an individual victim. That setup allowed the threat actor to interact with each victim separately, enhancing the precision and effectiveness of the attack.
Upon activation, Disgomoji initiated a check-in process, transmitting crucial system information such as IP address, username, hostname, operating system details, and current working directory to the attacker. The malware exhibited persistence mechanisms which ensured its survival through system reboots and allowed it to maintain a covert presence within the compromised systems. Communication between the attacker and the malware was facilitated through an emoji-based protocol or in other words, with commands issued via emojis. For instance, as Disgomoji executes the command, it responds with a “⏰” emoji, and upon completion, it shows the “✅.”
Why does it matter?
The malware’s capabilities extended beyond basic communication, including advanced functionalities such as network scanning using tools like Nmap, network tunnelling through Chisel and Ligolo, and data exfiltration via file sharing services. Disgomoji also employed deceptive tactics, masquerading as a Firefox update to deceive victims into sharing sensitive information like passwords.
Volexity’s attribution to a Pakistan-based threat actor was supported by various indicators, including Pakistani time zones in the malware sample, infrastructure links to known threat actors in Pakistan, the use of the Punjabi language, and the selection of targets aligned with Pakistan’s strategic interests. The detailed analysis stresses the evolving sophistication of cyber threats and the critical importance of robust cybersecurity measures to safeguard against such malicious activities.