LodaRAT, a remote access tool active since 2016, has resurfaced in a new campaign that’s taking the cybersecurity world by storm. Originally designed for basic information theft, this tool has transformed into a sophisticated malware capable of carrying out global cyber-espionage operations. What’s alarming is that while LodaRAT hasn’t been updated since 2021, its reach and effectiveness have grown, making it a pressing concern for individuals and organisations worldwide.
A Global Campaign with Far-Reaching Impact
What sets this latest campaign apart is its global nature. Unlike previous efforts that targeted specific regions, LodaRAT is now aiming at victims across the world. Around 30% of related malware samples uploaded to VirusTotal came from the United States, suggesting widespread infection. This shift indicates that LodaRAT is no longer confined to limited geographic boundaries, and its operators are adapting to target more diverse networks and systems.
How LodaRAT Works
LodaRAT’s tactics have become more complex, allowing it to infiltrate systems and operate undetected. Its distribution relies on a mix of phishing emails, system vulnerabilities, and other malware like DonutLoader and Cobalt Strike. It also disguises itself as trusted software such as Skype, Discord, or Windows Update to trick users into installing it.
Once installed, the malware carries out a variety of harmful activities, including:
Increased Risks for Organizations
This new campaign has heightened risks for businesses and organisations. LodaRAT is capable of spreading within internal networks by exploiting specific vulnerabilities, particularly via port 445. This allows attackers to move laterally, targeting multiple devices in the same network. Such breaches can lead to stolen data, operational disruptions, and significant financial losses.
Protecting Against LodaRAT
To defend against LodaRAT, organisations and individuals need to take proactive measures:
1. Strengthen security systems by using advanced endpoint protection tools.
2. Monitor network activity to detect unusual behaviours that could indicate malware presence.
3. Educate users on phishing tactics to prevent accidental downloads.
4. Adopt strong authentication practices to make credential theft harder.
5. Use tools like Rapid7’s Insight Agent to identify potential threats and weak points.
The return of LodaRAT shows how minor tweaks to existing malware can make it highly effective. This campaign is a reminder that even older threats can evolve and remain dangerous. Staying vigilant and updating cybersecurity measures regularly are key to staying ahead of such attacks.
By understanding how LodaRAT operates and taking the necessary precautions, organisations and individuals can better protect themselves in an increasingly complex digital ecosystem.
SpyNote, a dangerous malware targeting Android users, has been discovered posing as a legitimate antivirus app. Disguised as "Avast Mobile Security," it deceives users into downloading it under the guise of device protection, according to a report by cybersecurity firm Cyfirma.
Once installed, SpyNote requests permissions typical for antivirus applications, such as Accessibility Services. With these permissions, it secretly grants itself further access without notifying the user. Additionally, it excludes itself from battery optimization, allowing it to run uninterrupted in the background.
How SpyNote Tricks Users
SpyNote employs deceptive tactics to maintain its presence on infected devices. It mimics user gestures to stay active and displays fake system update notifications. When users interact with these alerts, they are redirected back to the malicious app, effectively trapping them in a loop. This method ensures the malware remains undetected and difficult to uninstall.
Focus on Cryptocurrency Theft
SpyNote is specifically designed to steal sensitive information, with a strong focus on cryptocurrency accounts. It extracts private keys and balance details for digital currencies such as Bitcoin, Ethereum, and Tether. The malware also monitors network activity to maintain a constant connection with its command-and-control servers, ensuring seamless data transmission.
Stolen credentials are stored on the device’s SD card. Once sufficient data is collected, SpyNote erases the evidence by overwriting the card, leaving no trace of its malicious activities.
Advanced Evasion Tactics
SpyNote is highly skilled at avoiding detection. It uses techniques like code obfuscation and custom packaging to hide its true nature, making it difficult for security experts to analyze. The malware also identifies virtual environments, such as emulators, to evade research and detection.
If users attempt to uninstall it, SpyNote blocks their efforts by simulating actions that prevent deactivation. For instance, it forces the device to return to the home screen whenever users try to access the app’s settings.
Distributed Through Fake Antivirus Sites
SpyNote spreads through phishing websites designed to look like Avast’s official download page. The malicious file, named "Avastavv.apk," is specifically targeted at Android devices. However, the phishing sites also redirect iOS users to the legitimate App Store download page for AnyDesk. Similarly, they offer AnyDesk downloads for Windows and Mac users, broadening their attack range.
How to Stay Safe
To avoid falling victim to SpyNote, only download apps from trusted sources like the Google Play Store. Be cautious of apps asking for unnecessary permissions, and verify download links before proceeding. Regularly updating your antivirus software and monitoring your device for unusual activity can also help protect against threats.
SpyNote highlights the increasing complexity of malware targeting mobile users, emphasizing the importance of vigilance and proactive cybersecurity measures.
Advanced hacking toolkit Winos4.0 spreads across the globe, security experts warn. Originally reported by Trend Micro, this new toolkit-just like known kits Cobalt Strike and Sliver-was connected to a string of recent cyber attacks in China, having initially spread through fake software downloads. This year, Fortinet reported that the toolkit is also disseminated through game-themed files, which now tends to expand and might pose a risk to a larger user base.
Attack Framework
Winso4.0 is a post-exploitation toolkit: after successfully gaining initial access to a system, the attackers use it for further invasion and domination. First, it was discovered inside the applications downloaded by users who considered it software in their interest, including VPNs or Google Chrome downloads for the Chinese market. Under the aliases Void Arachne or Silver Fox, the attackers entice users with these very popular applications full of malicious components designed to compromise their systems.
New strategies involve attackers using game applications, via which they have broadcasted Winos4.0, again targeting Chinese users mainly. This way, hackers change and utilise attractive downloads to penetrate devices.
Infection Stages
When one of such benign-looking files is downloaded by a victim, the Winos4.0 toolkit initiates a four-phase infection:
1. Stage 1: After installation, a DLL file you.dll, was retrieved from a remote domain. This file installed persistence on the device by setting values in the Windows Registry such that the malware would persist after the system restarts:.
2. Stage 2: At this step, the injected shellcode is loaded to download necessary APIs and communicate with a C2 server, which enables hackers to send commands and retrieve files from the infected device.
3. Stage 3: It fetches more encoded data from the C2 server in a second DLL file named上线模块.dll which saves to the Windows Registry to be used later, apart from updating server addresses to maintain an active link between the malware and its operators.
4. Final Stage: The last stage (login module.dll) will activate all main functions of the toolkit, including detailed system data gathering (like IP address and type of OS), detection of security tools, searching for crypto-wallets, and keeping a hidden backdoor. Through this backdoor connection, hackers can exfiltrate data, execute commands, and sustain their activity monitoring.
Evasion Techniques
Winos4.0 already has an inbuilt scanner for the detection of security products, including commercial products by Kaspersky, Avast, Bitdefender, and Malwarebytes. It will then change its behaviour to avoid detection or even quit if the toolkit finds itself running in an environment that is under surveillance. This versatility makes the tool very dangerous when it gets into cybercriminals' hands.
Emerging Menace
The fact that the toolkit Winos4.0 is still being used and fine-tuned points towards the growing importance of this toolkit in cyberattack strategies. As explained by Fortinet, it is a versatile and powerful framework "designed for remote control of compromised systems." Ongoing activity like this indicates that Winos4.0 is becoming a tool hackers like to use to gain control over Windows machines.
Preventive Actions
Always ready for downloading is a constant warning from the security experts to users, especially when it comes to free softwares or games which seem popular.
Avoid downloading applications and other forms of files from unknown sources. Even verifying if the software or file is coming from a legitimate source may also save it from infection. Moreover, one's security software must be updated frequently.
Knowing the threats of Winos4.0 would prevent many users from this malicious software by making them aware of this sophisticated malware.
A much more potent version of the Qilin ransomware has been found, according to cybersecurity experts, showing a new and revamped kind that is ready to attack core systems using advanced encryption along with improved stealth techniques.
A Rebranding with a Twist: Qilin's Evolution
The Qilin ransomware operation, which first appeared in July 2022, has now morphed into a more formidable opponent with a new version dubbed "Qilin.B." Known previously as "Agenda," the malware was rebranded and rewritten in Rust, a programming language harder to detect and often used for high-performance systems. The Qilin group is notorious for demanding multi-million dollar ransoms, focusing on high-stakes sectors such as healthcare, where operational disruptions can be particularly severe.
Qilin's latest incarnation has been a powerful tool in mass-attack campaigns. Just last year, a significant cyber attack was launched against Synnovis, a pathology firm providing services to the United Kingdom's NHS, which resulted in the cancellation of thousands of hospital and family doctor appointments. In return for collaborating on campaigns, Qilin partners are promised a large percentage of ransom payments, up to 85% — an arrangement that is structured to encourage high-paying ransomware attacks with the highest payoffs.
Improved Encryption and Obfuscation
This variant, Qilin.B, has the following methods that make their detection a hard nut to crack by the standard systems of security. According to Halcyon, a research firm specialising in cybersecurity, enhanced encryption, such as AES-256-CTR systems that support AESNI, together with RSA-4096 and OAEP padding have been seen in this particular variant. Such standards ensure that decrypting files from this threat is impossible minus the private key, as the case of preventive actions being the only way forward.
Further, the obfuscation technique is available in Qilin.B with which the developers hide the coding language of malware in order to prevent detection via signature-based detection systems. Such evasion mechanisms make the detection and quick response even more difficult by the cyber security teams in case of infections. As reported by the researchers from Halcyon, who had studied malware upgrades, increasing sophistication can be seen in ransomware tactics, specifically Qilin.B was developed to resist reverse engineering as well as delay incident response.
New Tactics to Dodge System Defences
Qilin.B disables important system services such as backup and removes volume shadow copy to prevent rollback of the infected systems. In addition, it disables restarts and self-cleans up by removing the ransomware after a successful attack to minimise digital artefacts. All these features make it more robust for defence against evolving ransomware groups that will continue to change their approach to remain at least a step ahead of security patches.
Growing Need for Cross-Platform Security
As Qilin ransomware is becoming more agile, security experts say the cybersecurity posture of organisations must be more offensive-minded. Qilin.B is rebuilt in Rust and can be executed properly across different environments-from Linux to VMware's ESXi hypervisor. The required security monitoring needs to recognize stealthy methods identified with Qilin.B, including detection of code compiled in Rust because traditional systems would fail to counter it.
Advanced Configurations and Control
Qilin.B. This is another notable configuration option from the attackers so that one can personalise his attack. Thus, this version comes along with new names for some functions, encrypted strings and other complex code, in order to take more time for defence activities and forensic analysis of an incident. According to researchers of the Halcyon company, the best behaviour-based detecting systems should be implemented and it can easily find out what malware does, without the outdated method of searching for signatures by which malware has successfully dodged, in this case.
With the advancements of Qilin.B in terms of encryption and evasion, the security firm Halcyon recommends that organisations supplement their security infrastructure with cross-platform monitoring and backup solutions which are designed to fight against ransomware attacks' newest variations. A more complete system in detecting and responding to threats will still be an asset as ransomware advances through networks well-protected.
Continuous improvement in ransomware-as-a-service (RaaS) points to the intensifying threat that organisations have to grapple with as they secure sensitive data from increasingly sophisticated adversaries. The Qilin operation exemplifies how ransomware groups continue to adapt themselves to avoid defences, so proactive and adaptive security measures are justified in industries.
Cyble Research and Intelligence Lab recently unearthed an elaborate, multi-stage malware attack targeting not only job seekers but also digital marketing professionals. The hackers are a Vietnamese threat actor who was utilising different sophisticated attacks on systems by making use of a Quasar RAT tool that gives a hacker complete control of an infected computer.
Phishing emails and LNK files as entry points
The attack initiates with phishing emails claiming an attached archive file. Inside the archive is a malicious LNK, disguised as a PDF. Once the LNK is launched, it executes PowerShell commands, which download additional malicious scripts from a third-party source, thus avoiding most detection solutions. The method proves very potent in non-virtualized environments in which malware remains undiscovered inside the system.
Quasar RAT Deployment
Then, the attackers decrypt the malware payload with hardcoded keys. Quasar RAT - a kind of RAT allowing hackers to obtain total access over the compromised system - is started up. Data can be stolen, other malware can be planted, and even the infected device can be used remotely by the attackers.
The campaign targets digital marketers primarily in the United States, using Meta (Facebook, Instagram) advertisements. The malware files utilised in the attack were designed for this type of user, which has amplified its chances.
Spread using Ducktail Malware
In July 2022, the same Vietnamese threat actors expanded their activities through the launch of Ducktail malware that specifically targeted digital marketing professionals. The group included information stealers and other RATs in its attacks. The group has used MaaS platforms to scale up and make their campaign versatile over time.
Evasion of Detection in Virtual Environments
Its superiority in evading virtual environment detection makes this malware attack all the more sophisticated. Here, attackers use the presence of the "output.bat" file to determine whether it's running in a virtual environment or not by scanning for several hard drive manufacturers and virtual machine signatures like "QEMU," "VirtualBox," etc. In case malware detects it's been run from a virtual machine, it lets execution stop analysis right away.
It proceeds with the attack if no virtual environment is detected. Here, it decodes more scripts, to which include a fake PDF and a batch file. These are stored in the victim's Downloads folder using seemingly innocent names such as "PositionApplied_VoyMedia.pdf."
Decryption and Execution Methods
Once the PowerShell script is fully executed, then decrypted strings from the "output.bat" file using hardcoded keys and decompressed through GZip streams. Then, it will produce a .NET executable running in the memory which will be providing further evasion for the malware against detection by antivirus software.
But the malware itself, also performs a whole cycle of checks to determine whether it is running in a sandbox or emulated environment. It can look for some known file names and DLL modules common in virtualized settings as well as measure discrepancies in time to detect emulation. If these checks return a result that suggests a virtual environment, then the malware will throw an exception, bringing all subsequent activity to a halt.
Once the malware has managed to infect a system, it immediately looks for administrative privileges. If they are not found, then it uses PowerShell commands for privilege escalation. Once it gains administrative control, it ensures persistence in the sense that it copies itself to a hidden folder inside the Windows directory. It also modifies the Windows registry so that it can execute automatically at startup.
Defence Evasion and Further Damage
For the same purpose, the malware employs supplementary defence evasion techniques to go unnoticed. It disables Windows event tracing functions which makes it more difficult to track its activities by security software. In addition to this, it encrypts and compresses key components in a way that their actions are even more unidentifiable.
This last stage of the attack uses Quasar RAT. Both data stealing and long-term access to the infected system are done through the use of a remote access tool. This adapted version of Quasar RAT is less detectable, so the attackers will not easily have it identified or removed by security software.
This is a multi-stage malware attack against digital marketing professionals, especially those working in Meta advertising. It's a very sophisticated and dangerous operation with phishing emails, PowerShell commands combined with advanced evasion techniques to make it even harder to detect and stop. Security experts advise on extreme caution while handling attachment files from emails, specifically in a non-virtualized environment; all the software and systems must be up to date to prevent this kind of threat, they conclude.