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EOCC Hit by Security Breach Due to Contractor's Unauthorised Access

The Equal Employment Opportunity Commission (EOCC) was hit by an internal security data breach that happened last year. The incident involve...

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Malwares
Booking.com Booking.com scam Cyber Attacks Cyber Phishing Fake Emails Malware attacks Malwares

PHALT#BLYX Malware Campaign Targets European Hotels With Fake Booking Emails

 

A fresh wave of digital threats emerged just after Christmas 2025, aimed squarely at European lodging spots. Instead of random attacks, it used clever email tricks made to look like they came from Booking.com. Staff members got messages that seemed urgent, nudging them to click without thinking twice. Once opened, hidden code slipped inside their systems quietly. That backdoor let attackers take control through software called DCRat. Behind the scenes, the whole scheme ran under the name PHALTBLYX. 

Research from Securonix shows the attack kicks off using fake emails made to look like Booking.com alerts. A supposed booking cancellation triggers the alert. Displayed boldly is a charge in euros - frequently more than €1,000. That sum aims straight at emotions, sparking alarm. Fear takes over, nudging people toward clicking before checking details. 

Clicking the “See Details” button sends people nowhere near Booking.com. A hidden detour happens first - through another web address entirely. Then comes a counterfeit site built to trick. There, a phony CAPTCHA pops up out of nowhere. After that, a fake Blue Screen appears like it is urgent. Words flash: fix this now by clicking here. Those clicks run harmful PowerShell scripts without warning. The whole chain relies on looking real until it is too late. 

Something begins before the main event - stages unfold slowly, one after another. A hidden rhythm runs through it all, tied to familiar parts of Windows, used in ways they were never meant to be. An XML file shows up without notice, slipped into place while no one watches. It looks harmless, built like a regular project for MSBuild.exe, which itself is real software from Microsoft. Instead of old tricks involving clunky HTML apps, attackers now twist everyday tools into something else. 

What seems ordinary might already be working against you. Normal actions become cover, hiding intent inside routine noise. A hidden DCRat program gets activated during execution. At the last step, a compressed .NET tool called staxs.exe unlocks its internal settings through advanced encryption like AES-256 paired with PBKDF2. To stay active across restarts, it drops a misleading Internet Shortcut into the Startup directory on Windows. After turning on, DCRat reaches out to several hidden servers, then checks what kind of machine it has landed on. Information about the software, settings, and person using the device gets gathered piece by piece. 

Remote operators gain complete control right after. Instead of running openly, it sneaks inside normal system tasks by reshaping them from within. That trick helps it stay put without drawing attention. Noticing clues in the code, experts link the operation to hackers who speak Russian. 

Built into everyday tools users trust, this malware plays on emotions while slipping past alarms. What stands out is how each step connects - carefully strung - to avoid detection. Staying hidden matters most, especially where guest data flows through open networks.
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Technology
Android app pinning guided access iphone iPhone lock apps phone snooping smartphone privacy Technology

This Built-In Android and iPhone Feature Lets You Share Your Phone Safely

 


Handing your phone to someone, even briefly, can expose far more than intended. Whether it is to share a photo, allow a quick call, or let a child watch a video, unrestricted access can put personal data at risk. To address this, both Android and iPhone offer built-in privacy features that limit access to a single app. Android calls this App Pinning, while Apple uses "Guided Access", allowing you to share your screen safely while keeping the rest of your phone locked.

Your smartphone holds far more than just apps. It contains banking details, private messages, location history, emails, and photos you may not want others to see. Even a quick glance at your home screen can reveal which banks you use or who you communicate with. This is why unrestricted access, even for a moment, can put your privacy and identity at risk. Handing over your phone without restrictions—especially to a stranger—is never a good idea.

There are many everyday situations where this feature becomes useful. A child may want to watch a YouTube video, but you do not want them opening emails or messages. A stranger may need to make a call in an emergency, but nothing beyond that. Even a friend doing a quick Google search does not need access to your search history or other apps. App Pinning and "Guided Access" make sure the phone stays exactly where you want it.

On Android, enabling App Pinning is simple. Head to Settings, search for “App Pinning,” and turn it on. Make sure authentication is required to exit the pinned app. Once enabled, open the app you want to share, go to the recent apps view, tap the app icon, and select Pin. The phone will stay locked to that app until you authenticate. To exit, swipe up and hold, then unlock using your PIN, password, or biometrics.

iPhone users can achieve the same result using "Guided Access". This feature lives under Settings → Accessibility. After setup, it can be activated by triple-clicking the power button. Open the app you want to share, triple-click the power button, and hand over the phone. When finished, triple-click again and authenticate with Face ID, Touch ID, or a passcode to return to normal use.

One limitation exists when sharing photos on both platforms. If you pin the Photos app, the other person can still swipe through your gallery. On iOS, this can be fixed by disabling touch input from the "Session Settings" menu when starting "Guided Access". Android, however, does not currently allow disabling touch during App Pinning, which means extra caution is needed when sharing photos.

The takeaway is simple: never hand your phone to someone without locking it to a single app first. App Pinning on Android and "Guided Access" on iOS are easy to use and extremely effective at protecting your privacy, keeping prying eyes away from your personal data.
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Technology
AI Cinema Bollywood AI Deepfake VFX Generative Tools Indian Films Technology

Here's How AI is Revolutionizing Indian Cinema

 

Indian cinema is setting the pace for the use of AI across the globe, beating Hollywood's cautious approach to the emergence of the new technology. With the aid of tools like Midjourney and ChatGPT, filmmakers are now able to create storyboards, write screenplays, and even produce final visuals at unprecedented speeds. That's because India produces more than any other country in the world and, consequently, needs to cut costs wherever possible. It's changing everything from pre-production to visual effects. 

Director Vivek Anchalia epitomizes the change with "Naisha," India's first fully AI-generated feature film, scheduled to be released in 2025. Unable to attract funding earlier, he built some stunning visuals and the story elements himself using AI, which attracted interest from producers. Midjourney crafted intimate imagery, while ChatGPT brainstormed plots, enabling Anchalia to refine the shots over a little more than a year. 

Big-budget productions seamlessly weave AI into everyday workflows: de-aging veteran actors, cloning voices for dubbing, and pre-shooting visualizations to save time and cut costs. Generative AI drafts screenplays in minutes, predicts box office success via data analysis, and powers virtual sets mimicking international locations sans travel.

The film industry is already experiencing a radical transformation due to deepfakes and motion capture technology by artificial intelligence, where actors are transformed into their younger or digital avatars with minimal use of expensive hardware. The consequence? Superhero movies with cinematic magic at affordable prices without the million-dollar film shoots.

However, there is a certain tension in this rush of AI technology as well. “There’s a great concern that the jobs of editors, writers, and tech crews could be at risk, as technology continues to automate the editing process,” indicates Sekhar Kambamudi, a film expert. Deepfake technology is a source of concern with regard to abuse, and the use of AI technology could make the emotional depth of the content appear less. 

India, which produces the largest number of films every year, is walking a thin line between innovation and safety. Unlike the Hollywood labor disputes, Bollywood films, although churning at breakneck speeds, require regulation in terms of authenticity and fair use, according to authorities. With advancements taking place in AI, a new dimension is going to arrive, where human innovation and AI’s efficiency will integrate in ways that have never been witnessed before.
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VoidLink Framework
Advanced Persistent Threats Cloud Infrastructure Threats Cloud Security Container Security Cyber Threat Intelligence malware supply chain attacks VoidLink Framework

VoidLink Malware Poses Growing Risk to Enterprise Linux Cloud Deployments


 

A new cybersecurity threat has emerged beneath the surface of the modern digital infrastructure as organizations continue to increase their reliance on cloud computing. Researchers warn that a subtle but dangerous shift is occurring beneath the surface. 

According to Check Point Research, a highly sophisticated malware framework known as VoidLink, is being developed by a group of cyber criminals specifically aimed at infiltrating and persisting within cloud environments based on Linux. 

As much as the industry still concentrates on Windows-centric threats, VoidLink's appearance underscores a strategic shift by advanced threat actors towards Linux-based systems that are essential to the runtime of cloud platforms, containerized workloads, and critical enterprise services, even at a time when many of the industry's defensive focus is still on Windows-centric threats. 

Instead of representing a simple piece of malicious code, VoidLink is a complex ecosystem designed to deliver long-term, covert control over compromised servers by establishing long-term, covert controls over the servers themselves, effectively transforming cloud infrastructure into an attack vector all its own. 

There is a strong indication that the architecture and operational depth of this malware suggests it was designed by well-resourced, professional adversaries rather than opportunistic criminals, posing a serious challenge for defenders who may not know that they are being silently commandeered and used for malicious purposes.

Check Point Research has published a detailed analysis of VoidLink to conclude that it is not just a single piece of malicious code; rather, it is a cloud-native, fully developed framework that is made up of customized loaders, implants, rootkits, and a variety of modular plugins that allows operators to extend, modify, and repurpose its functionality according to their evolving operational requirements. 

Based on its original identification in December 2025, the framework was designed with a strong emphasis on dependability and adaptability within cloud and containerized environments, reflecting the deliberate emphasis on persistence and adaptability within the framework. 

There were many similarities between VoidLink and Cobalt Strike's Beacon Object Files model, as the VoidLink architecture is built around a bespoke Plugin API that draws conceptual parallels to its Plugin API. There are more than 30 modules available at the same time, which can be shifted rapidly without redeploying the core implant as needed. 

As the primary implant has been programmed in Zig, it can detect major cloud platforms - including Amazon Web Services, Google Cloud, Microsoft Azure, Alibaba, and Tencent - and adjust its behavior when executed within Docker containers or Kubernetes pods, dynamically adjusting itself accordingly. 

Furthermore, the malware is capable of harvesting credentials linked to cloud services as well as extensively used source code management platforms like Git, showing an operational focus on software development environments, although the malware does not appear to be aware of the environment. 

A researcher has identified a framework that is actively maintained as the work of threat actors linked to China, which emphasizes a broader strategic shift away from Windows-centric attacks toward Linux-based attacks which form the basis for cloud infrastructures and critical digital operations, and which can result in a range of potential consequences, ranging from the theft of data to the compromise of large-scale supply chains. 

As described by its developers internally as VoidLink, the framework is built as a cloud-first implant that uses Zig, the Zig programming language to develop, and it is designed to be deployed across modern, distributed environments. 

Depending on whether or not a particular application is being executed on Docker containers or Kubernetes clusters, the application dynamically adjusts its behavior to comply with that environment by identifying major cloud platforms and determining whether it is running within them. 

Furthermore, the malware has been designed to steal credentials that are tied to cloud-based services and popular source code management systems, such as Git, in addition to environmental awareness. With this capability, software development environments seem to be a potential target for intelligence collection, or to be a place where future supply chain operations could be conducted.

Further distinguishing VoidLink from conventional Linux malware is its technical breadth, which incorporates rootkit-like techniques, loadable kernel modules, and eBPF, as well as an in-memory plugin system allowing for the addition of new functions without requiring people to reinstall the core implant, all of which is supported by LD_PRELOAD. 

In addition to adapting evasion behavior based on the presence of security tooling, the stealth mechanism also prioritizes operational concealment in closely monitored environments, which in turn alters its evasion behavior accordingly. 

Additionally, the framework provides a number of command-and-control mechanisms, such as HTTP and HTTPS, ICMP, and DNS tunneling, and enables the establishment of peer-to-peer or mesh-like communication among compromised hosts through the use of a variety of command-and-control mechanisms. There is some evidence that the most components are nearing full maturity.

A functional command-and-control server is being developed and an integrated web-based management interface is being developed that facilitates centralized control of the agents, implants, and plugins by operators. To date, no real-world infection has been confirmed. 

The final purpose of VoidLink remains unclear as well, but based on its sophistication, modularity, and apparent commercial-grade polish, it appears to be designed for wider operational deployment, either as a tailored offensive tool created for a particular client or as a productized offensive framework that is intended for broader operational deployment. 

Further, Check Point Research has noted that VoidLink is accompanied by a fully featured, web-based command-and-control dashboard that allows operators to do a centralized monitoring and analysis of compromised systems, including post-exploitation activities, to provide them with the highest level of protection. 

Its interface, which has been localized for Chinese-language users, allows operations across familiar phases, including reconnaissance, credential harvesting, persistence, lateral movement, and evidence destruction, confirming that the framework is designed to be used to engage in sustained, methodical campaigns rather than opportunistic ones.

In spite of the fact that there were no confirmed cases of real-world infections by January 2026, researchers have stated that the framework has reached an advanced state of maturity—including an integrated C2 server, a polished dashboard for managing operations, and an extensive plugin ecosystem, which indicates that its deployment could be imminent.

According to the design philosophy behind the malware, the goal is to gain long-term access to cloud environments and keep a close eye on cloud users. This marks a significant step up in the sophistication of Linux-focused malware. It was argued by the researchers in their analysis that VoidLink's modular plug-ins extend their reach beyond cloud workloads to the developer and administrator workstations which interact directly with these environments.

A compromised system is effectively transformed into a staging ground that is capable of facilitating further intrusions or potential supply chain compromises if it is not properly protected. Their conclusion was that this emergence of such an advanced framework underscores a broader shift in attackers' interest in Linux-based cloud and container platforms, away from traditional Windows-based targets. 

This has prompted organizations to step up their security efforts across the full spectrum of Linux, cloud, and containerized infrastructures, as attacks become increasingly advanced. Despite the fact that VoidLink was discovered by chance in the early days of cloud adoption, it serves as a timely reminder that security assumptions must evolve as rapidly as the infrastructure itself. 

Since attackers are increasingly investing in frameworks built to blend into Linux and containerized environments, organizations are no longer able to protect critical assets by using perimeter-based controls and Windows-focused threat models. 

There is a growing trend among security teams to adopt a cloud-aware defense posture that emphasizes continuous monitoring, least-privilege access, and rigorous monitoring of the deployment of development and administrative endpoints that are used for bridging on-premise and cloud platforms in their development and administration processes. 

An efficient identity management process, hardened container and Kubernetes configurations, and increased visibility into east-west traffic within cloud environments can have a significant impact on the prevention of long-term, covert compromises within cloud deployments.

There is also vital importance in strengthening collaboration between the security, DevOps, and engineering teams within the platform to ensure that detection and response capabilities keep pace with the ever-changing and adaptive threat landscape. 

Modern enterprises have become dependent on digital infrastructure to support the operation of their businesses, and as frameworks like VoidLink are closer to real-world deployment, investing in Linux and cloud security at this stage is important not only for mitigating emerging risks, but also for strengthening the resilience of the infrastructure that supports them.
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Technology
AI healthcare tools AI medical records analysis Anthropic Claude for Healthcare Claude health data privacy Technology

Anthropic Launches “Claude for Healthcare” to Help Users Better Understand Medical Records

 
Anthropic has joined the growing list of artificial intelligence companies expanding into digital health, announcing a new set of tools that enable users of its Claude platform to make sense of their personal health data.

The initiative, titled Claude for Healthcare, allows U.S.-based subscribers on Claude Pro and Max plans to voluntarily grant Claude secure access to their lab reports and medical records. This is done through integrations with HealthEx and Function, while support for Apple Health and Android Health Connect is set to roll out later this week via the company’s iOS and Android applications.

“When connected, Claude can summarize users' medical history, explain test results in plain language, detect patterns across fitness and health metrics, and prepare questions for appointments,” Anthropic said. “The aim is to make patients' conversations with doctors more productive, and to help users stay well-informed about their health.”

The announcement closely follows OpenAI’s recent launch of ChatGPT Health, a dedicated experience that lets users securely link medical records and wellness apps to receive tailored insights, lab explanations, nutrition guidance, and meal suggestions.

Anthropic emphasized that its healthcare integrations are built with privacy at the core. Users have full control over what information they choose to share and can modify or revoke Claude’s access at any time. Similar to OpenAI’s approach, Anthropic stated that personal health data connected to Claude is not used to train its AI models.

The expansion arrives amid heightened scrutiny around AI-generated health guidance. Concerns have grown over the potential for harmful or misleading medical advice, highlighted recently when Google withdrew certain AI-generated health summaries after inaccuracies were discovered. Both Anthropic and OpenAI have reiterated that their tools are not replacements for professional medical care and may still produce errors.

In its Acceptable Use Policy, Anthropic specifies that outputs related to high-risk healthcare scenarios—such as medical diagnosis, treatment decisions, patient care, or mental health—must be reviewed by a qualified professional before being used or shared.

“Claude is designed to include contextual disclaimers, acknowledge its uncertainty, and direct users to healthcare professionals for personalized guidance,” Anthropic said.
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Spearphishing Campaigns
Cloud Identity Security Credential Theft Cyber Attacks FBI cyber alert Kimsuky MFA Bypass North Korea APT QR Code Phishing Quishing Attacks Spearphishing Campaigns

FBI Flags Kimsuky’s Role in Sophisticated Quishing Attacks


 

A new warning from the US Federal Bureau of Investigation indicates that spearphishing tactics are being advanced by a cyber espionage group linked to North Korea known as Kimsuky, also known as APT43, in recent months. 

As the threat actor has increasingly turned to QR code-based attacks as a means of infiltrating organizational networks, the threat actor is increasingly using QR code-based attacks. 

There is an alert on the group's use of a technique referred to as "quishing," in which carefully crafted spearphishing emails include malicious URLs within QR codes, as opposed to links that are clickable directly in the emails.

By using mobile devices to scan the QR codes, recipients can bypass traditional email security gateways that are designed to identify and block suspicious URLs, thereby circumventing the problem. 

As a result of this gap between enterprise email defenses and personal mobile use, Kimsuky exploits the resulting gap in security to stealthily harvest user credentials and session tokens, which increases the probability of unauthorized access while reducing the chance of early detection by the security team. 

As a result of this campaign, concerns about the increasingly sophisticated sophistication of state-sponsored cyber operations have been reinforced. This is an indication that a broader shift toward more evasive and socially engineered attack methods is taking place. 

The FBI has determined Kimsuky has been using this technique actively since at least 2025, with campaigns observing that he targeted think tanks, academic institutions and both US and international government entities using spear phishing emails embedded with malicious Quick Response codes (QR codes). 

In describing the method, the bureau referred to it as "quishing," a deliberate strategy based on the notion of pushing victims away from enterprise-managed desktop systems towards networks governed by mobile devices, whose security controls are often more lax or unclear.

The Kimsuky attacker, known by various aliases, such as APT43, Black Banshee, Emerald Sleet, Springtail, TA427, Velvet Chollima, and Emerald Sleet, is widely believed to be a North Korean intelligence agency. 

Kimsuky's phishing campaigns are documented to have been honed over the years in order to bypass email authentication measures. According to an official US government bulletin published in May 2024, the group has successfully exploited misconfigured Domain-based Message Authentication, Reporting, and Conformance (DMARC) policies to deliver emails that falsely impersonated trusted domains to send emails that convincingly impersonated trusted domains.

In this way, they enabled their malicious campaigns to blend seamlessly into legitimate communications, enabling them to achieve their objectives. The attack chain is initiated once a target scans a malicious QR code to initiate the attack chain, that then quickly moves to infrastructure controlled by the threat actors, where preliminary reconnaissance is conducted to understand the victim's device in order to conduct the attack. 

Moreover, based on the FBI's findings, these intermediary domains are able to harvest technical information, including operating system details, browser identifiers, screen resolutions, IP addresses, and geographical indications, which allows attackers to tailor follow-up activity with greater precision. 

Thereafter, victims are presented with mobile-optimized phishing pages that resemble trusted authentication portals such as Microsoft 365, Okta, and corporate VPN login pages that appear convincingly. 

It is believed that by stealing session cookies and executing replay attacks, the operators have been able to circumvent multi-factor authentication controls and seized control of cloud-based identities. Having initially compromised an organization, the group establishes persistence and utilizes the hijacked accounts to launch secondary spear-phishing campaigns. This further extends the intrusion across trust networks by extending the malware laterally. 

As described by the FBI, this approach demonstrates a high level of confidence, an identity intrusion vector that is MFA-resilient, and it originates on unmanaged mobile devices that sit outside the traditional lines of endpoint detection and network monitoring. 

A number of attacks by Kimsuky were observed during May and June 2025, including campaigns that impersonated foreign advisors, embassy employees, and think tank employees to lure victims into a fictitious conference, as demonstrated by investigators. 

Since being active for more than a decade now, North Korea-aligned espionage groups like APT43 and Emerald Sleet have been gathering information on organizations in the United States, Japan, and South Korea. These groups, also known as Velvet Chollima, Emerald Sleet, TA406, and Black Banshee, have traditionally targeted these organizations with information. 

As a result of activities related to sanctions evasion and support for Pyongyang's weapons of mass destruction programs in 2023, the U.S. government sanctioned the group.

The current spear phishing campaign relies on QR codes embedded within carefully crafted spear-phishing emails to be it's primary infection vector, as the codes run through a victim's mobile device and thereby direct them to an attacker-controlled infrastructure that the attacker controls. 

There are a number of websites host phishing pages crafted to look like legitimate authentication portals, like the Microsoft 365, the Google Workspace, Okta and a wide range of services such as VPNs and single sign-ons. 

As a general rule, investigators report that the operation typically begins with detailed open-source reconnaissance in order to identify high-value individuals, followed by tailored email messages that impersonate trusted contacts or refer to timely events in order to lend credibility to the operation. 

The malicious site either collects login credentials or delivers malware payloads, such as BabyShark or AppleSeed, to the user when they scan the QR code, enabling attackers to establish persistence, move laterally within compromised environments, and exfiltrate sensitive data as soon as it is scanned.

There are many MITER ATT&CK techniques that are aligned with the activity, which reflects an organized and methodical tradecraft, which includes credentials harvesting, command-and-control communications at the application layer, and data exfiltration via web services. 

Furthermore, the group collects data on victim devices by collecting information about the browser and geolocation of the device, which enables the phishing content to be optimized for mobile use, as well as, in some cases, facilitates session token theft, which allows multi-factor authentication to be bypassed. 

Many researchers, academic institutions, government bodies, and strategic advisory organizations have been targeted for their sensitive information, including senior analysts, diplomats, and executives.

It has been observed that while the campaign has gained a global presence covering the United States, South Korea, Europe, Russia, and Japan  it has also demonstrated an increased effectiveness because it is based on personalized lures that exploit professional trust networks and QR codes are routinely used for accessing events and sharing documents, which highlights the growing threat of mobile-centric phishing. 

In a timely manner, the FBI's advisory serves as a reminder that organizations' attack surfaces are no longer limited to conventional desktops and email gateways, but are increasingly extending into mobile devices which are operating outside of the standard visibility of enterprises. 

As malicious actors like Kimsuky develop social engineering techniques that exploit trust, convenience, and routine user behavior in order to gain access to sensitive information, organizations are being forced to reassess how their identity protection strategies intersect with their mobile access policies and their user awareness practices. 

There is an urgent need for information security leaders to place greater emphasis on maintaining phishing-resistant authentication, monitoring anomalous sign-in activity continuously, and establishing stronger governance over mobile device usage, including for those employees who are handling sensitive policy, research, or advisory matters. 

Additionally, it is imperative that users are educated on how to discern QR codes from suspicious links and attachments so that they can treat QR codes with the same amount of attention and scrutiny. 

A combined campaign of this kind illustrates a shift in state-sponsored cyber operations towards low friction, high-impact intrusion paths, which emphasize stealth over scale, pointing to the necessity for adaptive defenses that can evolve as rapidly as the tactics being used to defeat them, which emphasizes the need for a more adaptive defense system.
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