13-August-2024
Welcome to the weekly threat detection update report from Stamus Networks. Each week, you will receive this email with a summary of the updates.
Current Stamus Threat Intelligence (STI) release version: 1120
This week, in addition to daily ruleset and IOC updates, we provided Stamus Security Platform customers with the following improved defense(s):
Note: a "method" as referenced below, is a discrete detection vector for a given threat.
The following detections were added to your Stamus Security Platform (SSP) this past week:
Recently, while investigating a new variant[1] of Zloader/SilentNight[2], an unknown Powershell backdoor and VBS downloader was uncovered. The malware was potentially utilized alongside the new Zloader variant, which CISA publicly linked to BlackBasta[3]. The Powershell backdoor appears to have been constructed to further access via recon activity and to deploy other malware samples including Zloader. Medium
Specula at its core is a C2 framework that operates via the Outlook home page feature. This is not anything specifically new, as other tooling (namely Ruler) exposes the functionality to create a home page that can attack this vector. The ability to abuse the Outlook home page was reported and listed as CVE-2017-11774. With that being the case, why are we releasing tooling related to the Outlook home page attack in 2024?
The Outlook home page was thought to have been patched in Knowledge Bases (KBs) listed under https://msrc.microsoft.com/update-guide/en-US/vulnerability/CVE-2017-11774. After the KB is installed, the UI elements related to Outlook's home page will be gone. This leads one to believe the associated functionality has been removed. Unfortunately, the Registry values that would have been set when the removed UI elements were used still get used by Outlook, even in current Office 365 installs. Trustedsec
Zebrocy is a Trojan that has been used by APT28 since at least November 2015. The malware comes in several programming language variants, including C++, Delphi, AutoIt, C#, VB.NET, and Golang. MITRE
Zebrocy - CERT-UA | Zebrocy - Malpedia |
Mandrake is a sophisticated Android espionage platform that has been active in the wild since at least 2016. Mandrake is very actively maintained, with sophisticated features and attacks that are executed with surgical precision.
Mandrake has gone undetected for several years by providing legitimate, ad-free applications with social media and real reviews to back the apps. The malware is only activated when the operators issue a specific command. MITRE
Mandrake - Securelist | Mandrake - Malpedia |
The following detections were updated this past week with changes to kill chain phase(s) or MITRE ATT&CK tactic(s)/technique(s):
Magic Hound is an Iranian-sponsored threat group that conducts long term, resource-intensive cyber espionage operations, likely on behalf of the Islamic Revolutionary Guard Corps. They have targeted U.S. and Middle Eastern government and military personnel, academics, journalists, and organizations such as the World Health Organization (WHO), via complex social engineering campaigns since at least 2014. MITRE
There are several malicious fake updates campaigns being run across thousands of compromised websites. This campaign appears to have started around July 19th, 2023. Based on a search on PublicWWW of the injection base64 there are at least 434 infected sites. The name is a reference to the majority of the Javascript being used without obfuscation. One noticeable difference from SocGholish is that there appears to be no tracking of visits by IP or cookies. As an analyst you can you go back to the compromised site over and over coming from the same IP and not clearing your browser cache. This also means the site owner is more likely to see the infection as well. When a user visits a compromised website with ClearFake, the page initially loads as normal before the whole page is taken over by a call to action to update Chrome.
On the index page of the compromised site there is a Javascript injection. The Javascript is base64 encoded. Presumably this is a dynamic injection and will change over time to reflect the new host for the initial payload. On the index page of the compromised site there is a Javascript injection. The Javascript is base64 encoded. Presumably this is a dynamic injection and will change over time to reflect the new host for the initial payload. The second web call returns a Javascript that creates an iframe to house the fake update UI. The iframe src is set to a Keitaro endpoint. The response from the Keitaro endpoint is the foundation for the HTML to be rendered within the iframe.
Attackers are utilizing hacked web sites that promote fake browser updates to infect targets with banking trojans. In some cases, post exploitation toolkits are later executed to encrypt the compromised network with ransomware.
Between May and September 2019, FireEye has conducted multiple incident response cases where enterprise customers were infected with malware through fake browser updates.
Hacked sites would display these "fakeupdates" through JavaScript alerts that state the user is using an old version of a web browser and that they should download an offered "update" to keep the browser running "smoothly and securely".
Cyber criminals violated the law TDS (Traffic Direction System) platform Keitaro and used it to redirect them users in exploit kits RIG and Fallout in order to infect them with malicious software.
TDS platforms are designed for redirection of users in particular sites. Legitimate TDS platforms, such as Keitaro, are mainly used by individuals and companies that want to advertise services or their products. Platforms drive users to the pages that companies want, targeting specific customers and promoting an ad campaign. techbizweb
Lumma is an information stealer written in C, sold as a Malware-as-a-Service by LummaC on Russian-speaking underground forums and Telegram since at least August 2022. Lumma's capabilities are those of a classic stealer, with a focus on cryptocurrency wallets, and file grabber capabilities. Malpedia
The MS-ISAC has recently observed an increase in malware that is most often disseminated through malvertising. Malvertising, or malicious advertising, is the use of online, malicious advertisements to spread malware and compromise systems. Generally this occurs through the injection of unwanted or malicious code into ads. Malicious actors then pay legitimate online advertising networks to display the infected ads on various websites, exposing every user visiting these sites to the potential risk of infection. Generally, the legitimate advertising networks and websites are not aware they are serving malicious content. CIS
Remote Access Trojans are programs that provide the capability to allow covert surveillance or the ability to gain unauthorized access to a victim PC. Remote Access Trojans often mimic similar behaviors of keylogger applications by allowing the automated collection of keystrokes, usernames, passwords, screenshots, browser history, emails, chat lots, etc. Remote Access Trojans differ from keyloggers in that they provide the capability for an attacker to gain unauthorized remote access to the victim machine via specially configured communication protocols which are set up upon initial infection of the victim computer. This backdoor into the victim machine can allow an attacker unfettered access, including the ability to monitor user behavior, change computer settings, browse and copy files, utilize the bandwidth (Internet connection) for possible criminal activity, access connected systems, and more. Malwarebytes
Parrot TDS acts as a gateway for further malicious campaigns to reach potential victims. In this particular case, the infected sites’ appearances are altered by a campaign called FakeUpdate (also known as SocGholish), which uses JavaScript to display fake notices for users to update their browser, offering an update file for download. The file observed being delivered to victims is a remote access tool. Avast
Remote Access Trojans are programs that provide the capability to allow covert surveillance or the ability to gain unauthorized access to a victim PC. Remote Access Trojans often mimic similar behaviors of keylogger applications by allowing the automated collection of keystrokes, usernames, passwords, screenshots, browser history, emails, chat lots, etc. Remote Access Trojans differ from keyloggers in that they provide the capability for an attacker to gain unauthorized remote access to the victim machine via specially configured communication protocols which are set up upon initial infection of the victim computer. This backdoor into the victim machine can allow an attacker unfettered access, including the ability to monitor user behavior, change computer settings, browse and copy files, utilize the bandwidth (Internet connection) for possible criminal activity, access connected systems, and more. Malwarebytes
An actor mainly targeting Pakistan military targets, active since at least 2012. We have low confidence that this malware might be authored by an Indian company. To spread the malware, they use unique implementations to leverage the exploits of known vulnerabilities (such as CVE-2017-11882) and later deploy a Powershell payload in the final stages. Malpedia
It leverages compromised websites and performs some of the most creative fingerprinting checks we’ve seen, before delivering its payload (NetSupport RAT). Malwarebytes
An advanced persistent threat (APT) is a stealthy computer network threat actor, typically a nation state or state-sponsored group, which gains unauthorized access to a computer network and remains undetected for an extended period. In recent times, the term may also refer to non-state sponsored groups conducting large-scale targeted intrusions for specific goals.
Such threat actors' motivations are typically political or economic. To date, every major business sector has recorded instances of attacks by advanced actors with specific goals seeking to steal, spy or disrupt. These include government, defense, financial services, legal services, industrial, telecoms, consumer goods, and many more. Some groups utilize traditional espionage vectors, including social engineering, human intelligence and infiltration to gain access to a physical location to enable network attacks. The purpose of these attacks is to place custom malicious code on one or multiple computers for specific tasks.
Source: Wikipedia
An advanced persistent threat (APT) is a stealthy computer network threat actor, typically a nation state or state-sponsored group, which gains unauthorized access to a computer network and remains undetected for an extended period. In recent times, the term may also refer to non-state sponsored groups conducting large-scale targeted intrusions for specific goals.
Such threat actors' motivations are typically political or economic. To date, every major business sector has recorded instances of attacks by advanced actors with specific goals seeking to steal, spy or disrupt. These include government, defense, financial services, legal services, industrial, telecoms, consumer goods, and many more. Some groups utilize traditional espionage vectors, including social engineering, human intelligence and infiltration to gain access to a physical location to enable network attacks. The purpose of these attacks is to place custom malicious code on one or multiple computers for specific tasks.
Source: Wikipedia
During a routine threat-hunting exercise, Cyble research labs discovered a dark web post where a malware developer was advertising a powerful Windows RAT. Cyble
The following threat detection(s) were improved this past week with new or updated threat methods.
| Name of threat | New coverage | Total coverage | Last updated | ||||
|---|---|---|---|---|---|---|---|
| New Detection methods | Kill chain phases | Protocols involved | Detection methods | Kill chain phases | Protocols involved | ||
| APT35 | 27 | delivery | dns, tls, http | 849 | command and control, delivery | dns, ftp, http, tcp, tls, udp | 2024-08-08 |
| ClearFake | 9 | command and control | dns, tls, http | 207 | command and control, exploitation | dns, http, tls | 2024-08-09 |
| Fake Browser | 21 | exploitation, command and control | dns, tls, http | 830 | command and control, delivery, exploitation | dns, http, tls | 2024-08-10 |
| Keitaro | 1 | exploitation | http | 384 | command and control, delivery, exploitation | dns, http, tls | 2024-08-06 |
| Lumma | 87 | command and control | dns, tls, http | 1514 | actions on objectives, command and control, installation | dns, http, tls | 2024-08-10 |
| Malvertising Domain | 27 | command and control | dns, tls, http | 168 | command and control | dns, http, tls | 2024-08-06 |
| Mandrake | 18 | command and control | dns, tls, http | 19 | command and control | dns, tls, http | 2024-08-08 |
| NetSupport RAT | 2 | command and control | http | 47 | actions on objectives, command and control, exploitation, installation | dns, http, tls | 2024-08-09 |
| Parrot TDS | 6 | command and control | dns, tls, http | 78 | command and control, delivery | dns, http, tls | 2024-08-10 |
| PshellBkdr | 1 | command and control | http | 1 | command and control | http | 2024-08-08 |
| RAT Generic | 3 | command and control | tcp | 142 | actions on objectives, command and control, delivery, installation | dns, http, tcp, tcp-pkt, tls, udp | 2024-08-10 |
| SideWinder | 176 | command and control | dns, tls, http | 401 | actions on objectives, command and control, delivery | dns, http, tls | 2024-08-09 |
| SocGholish | 3 | command and control | dns, tls, http | 1011 | actions on objectives, command and control, delivery, exploitation, reconnaissance | dns, http, tcp, tcp-pkt, tls | 2024-08-06 |
| Specula | 2 | command and control | http | 2 | command and control | http | 2024-08-08 |
| TA4903 | 21 | delivery | dns, tls, http | 959 | delivery | dns, http, tls | 2024-08-07 |
| TA582 | 12 | command and control | dns, http, tls | 190 | command and control | dns, http, tls | 2024-08-07 |
| XWorm | 82 | command and control | tcp-pkt | 1398 | command and control, delivery | dns, http, tcp, tcp-pkt, tls | 2024-08-09 |
| Zebrocy | 16 | command and control, actions on objectives, delivery | http, dns, tls | 32 | command and control, actions on objectives, delivery | http, dns, tls | 2024-08-08 |
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Stamus Networks believes in a world where defenders are heroes, and a future where those they protect remain safe. As organizations face threats from well-funded adversaries, we relentlessly pursue solutions that make the defender’s job easier and more impactful. The global leader in Suricata-based network security solutions, Stamus Networks helps enterprise security teams know more, respond sooner and mitigate their risk with insights gathered from cloud and on-premise network activity. Our Stamus Security Platform combines the best of intrusion detection (IDS), network security monitoring (NSM), and network detection and response (NDR) systems into a single solution that exposes serious and imminent threats to critical assets and empowers rapid response.
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