Rewterz Threat Advisory – CVE-2023-3813 – WordPress Jupiter X Core Plugin Vulnerability
July 24, 2023Rewterz Threat Advisory – CVE-2023-3446 – OpenSSL Vulnerability
July 24, 2023Rewterz Threat Advisory – CVE-2023-3813 – WordPress Jupiter X Core Plugin Vulnerability
July 24, 2023Rewterz Threat Advisory – CVE-2023-3446 – OpenSSL Vulnerability
July 24, 2023Severity
Medium
Analysis Summary
Cobalt Strike first appeared in 2012 in response to alleged flaws in the Metasploit Framework, an existing red team (penetration testing) tool. Cobalt Strike 3.0 was released in 2015 as a stand-alone opponent emulation platform. However, researchers began observing threat actors using Cobalt Strike by 2016. Cobalt Strike’s use in hostile activities was previously connected with huge cybercriminal operations like TA3546 and APT40. Two-thirds of detected Cobalt hit efforts from 2016 to 2018 were attributable to well-resourced cybercrime organizations or APT groups, according to researchers.
As a multi-function tool, Cobalt Strike enables attackers to infiltrate networks, gain unauthorized access, and perform various malicious activities. It provides a range of features, including command-and-control (C2) communication, post-exploitation modules, privilege escalation, lateral movement, and the ability to launch sophisticated social engineering campaigns. Its flexibility and comprehensive functionality make it a potent weapon in the hands of attackers.
Cobalt Strike often serves as a dropper or initial infection vector for advanced persistent threats (APTs) and other cybercriminal groups. Attackers commonly use phishing emails, exploit kits, or other means to deliver the malware to targeted systems. Once installed, Cobalt Strike allows the attackers to establish a C2 channel and remotely control the compromised machines, enabling them to execute further malicious activities, exfiltrate data, or deploy additional malware.
Cobalt Strike lets the attacker install a ‘Beacon’ agent on the target PC which provides the attacker with a plethora of capabilities, including command execution, file transfer, keylogging, mimikatz, port scanning, and privilege escalation. Cobalt Strike includes a toolkit called Artifact Kit that is used to create shellcode loaders.
Researchers discovered a new wave of phishing attacks in September that infect job seekers in the United States and New Zealand with Cobalt Strike beacons. The malware campaign used the lure of a job in order to infect victims with leaked versions of Cobalt Strike beacons. It was observed that Cobalt Strike is not the only piece of malware used in the attacks. In certain situations, individuals were instead infected with a different type of information-stealing malware known as RedLine or an Amadey botnet executor.
One of the key aspects that make Cobalt Strike a powerful tool is its ability to evade detection by traditional security solutions. It employs obfuscation techniques, encryption, and other evasion mechanisms to bypass antivirus and intrusion detection systems, making it challenging to detect and mitigate. Additionally, Cobalt Strike provides attackers with a user-friendly interface and a wide range of attack vectors, enabling them to customize their campaigns and launch sophisticated attacks with relative ease.
Given its malicious usage, it is important for organizations and individuals to remain vigilant and implement robust security measures to protect against Cobalt Strike attacks. This includes deploying advanced threat detection and prevention solutions, conducting regular security assessments and penetration testing, educating users about phishing and social engineering techniques, and maintaining up-to-date security patches and software updates.
Impact
- Data Exfiltration
- Information Theft
Indicators of Compromise
MD5
- 6bafba4a43173045136e95abe78666e8
- 1b2ad89ff00089dc6407f1806cc6dc29
- 0e62dc80bb864551a01cdd70b96970f4
- 07ecd12de259e62383d687d8eac0b089
- 9528df47729c36939fb7df813d3a7984
- c2ef24ba11461cbffb1a6a81c36309bf
SHA-256
- 922b4ec35337016f806c0d8d2b9ee75ce4f5db550f1fe1021b8836d13cbaf379
- dd99e8480bfb4aec08c0186034b491ef54446b03303483cfe6c9f72ca647c2ca
- ea73ad2266d73da03328dfa1bdb5971203235e1dd2c53978955c85445e057365
- e01e05a89153f718942abf535480ac1d7f311a30f342c571e4c0d42f4785aa61
- a517ab612efd938a0a7347832b4d262447ea9c4a53c420b2bae210cb78eaf461
- c0545200569496754aa5a4c3000af185b56b819409a561f7a5cc5c6bb3015f8b
SHA-1
- 1e65992e0f870fc2c2df52559160b3c094c8afaf
- 1ac4c9b1c8fe7022b542e0537744455edbfc9475
- 2d933aaacee299ac4f9317972b082e86526d50b2
- d18d2cda774eb2ebb6ebe2cc82b01ea2e6396070
- 7d0daed988b0f47259899c1fa3a4b4936f0bfe4d
- fcb01e98c545261616b6f14bb91d5beb2ba25ca4
Remediation
- Block all threat indicators at your respective controls.
- Search for Indicator of compromise (IOCs) in your environment utilizing your respective security controls
- Emails from unknown senders should always be treated with caution.
- Never open links or attachments from unknown senders.
- Ensure that general security policies are employed including: implementing strong passwords, correct configurations, and proper administration security policies.
- Limit access to administrative accounts and portals to only relevant personnel and make sure they are not publicly accessible.
- Patch and upgrade any platforms and software timely and make it into a standard security policy. Prioritize patching known exploited vulnerabilities and zero-days.