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Ransomware
AI Data data security Internet Privacy RaaS Ransomware

Cybercrime Gang Hunters International Shuts Down, Returns Stolen Data as Goodwill

Cybercrime Gang Hunters International Shuts Down, Returns Stolen Data as Goodwill

Cybercrime gang to return stolen data

The Hunters International Ransomware-as-a-Service (RaaS) operation has recently announced that it is shutting down its operation and will provide free decryptors to help targets recover their data without paying a ransom. 

"After careful consideration and in light of recent developments, we have decided to close the Hunters International project. This decision was not made lightly, and we recognize the impact it has on the organizations we have interacted with," the cybercrime gang said. 

Hunter International claims goodwill

As a goodwill gesture to victims affected by the gang’s previous operations, it is helping them recover data without requiring them to pay ransoms. The gang has also removed all entries from the extortion portal and stated that organizations whose systems were encrypted in the Hunters International ransomware attacks can request assistance and recovery guidance on the group’s official website.

Gang rebranding?

The gang has not explained the “recent developments” it referred to, the recent announcement comes after a November 17 statement announcing Hunters International will soon close down due to strict law enforcement actions and financial losses. 

In April, Group-IB researchers said the group was rebranding with the aim to focus on extortion-only and data theft attacks and launched “World Leaks”- a new extortion-only operation. Group-IB said that “unlike Hunters International, which combined encryption with extortion, World Leaks operates as an extortion-only group using a custom-built exfiltration tool. The new tool looks like an advanced version of the Storage Software exfiltration tool used by Hunter International’s ransomware associates.

The emergence of Hunter International

Hunter International surfaced in 2023, and cybersecurity experts flagged it as a rebrand of as it showed code similarities. The ransomware gang targeted Linux, ESXi (VMware servers), Windows, FreeBSD, and SunOS. In the past two years, Hunter International has attacked businesses of all sizes, demanding ransom up to millions of dollars. 

The gang was responsible for around 300 operations globally. Some famous victims include the U.S Marshals Service, Tata Technologies, Japanese optics mammoth Hoya, U.S Navy contractor Austal USA, Oklahoma’s largest not-for-profit healthcare Integris Health, AutoCanada, and a North American automobile dealership. Last year, Hunter International attacked the Fred Hutch Cancer Center and blackmailed to leak stolen data of more than 800,000 cancer patients if ransom was not paid.

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Privacy
Ads Data Privacy data security DPC EU European Cyber Security European Union Legal Action Against Meta Meta Chatbots Meta Data personalized ads Privacy

WhatsApp Ads Delayed in EU as Meta Faces Privacy Concerns

 

Meta recently introduced in-app advertisements within WhatsApp for users across the globe, marking the first time ads have appeared on the messaging platform. However, this change won’t affect users in the European Union just yet. According to the Irish Data Protection Commission (DPC), WhatsApp has informed them that ads will not be launched in the EU until sometime in 2026. 

Previously, Meta had stated that the feature would gradually roll out over several months but did not provide a specific timeline for European users. The newly introduced ads appear within the “Updates” tab on WhatsApp, specifically inside Status posts and the Channels section. Meta has stated that the ad system is designed with privacy in mind, using minimal personal data such as location, language settings, and engagement with content. If a user has linked their WhatsApp with the Meta Accounts Center, their ad preferences across Instagram and Facebook will also inform what ads they see. 

Despite these assurances, the integration of data across platforms has raised red flags among privacy advocates and European regulators. As a result, the DPC plans to review the advertising model thoroughly, working in coordination with other EU privacy authorities before approving a regional release. Des Hogan, Ireland’s Data Protection Commissioner, confirmed that Meta has officially postponed the EU launch and that discussions with the company will continue to assess the new ad approach. 

Dale Sunderland, another commissioner at the DPC, emphasized that the process remains in its early stages and it’s too soon to identify any potential regulatory violations. The commission intends to follow its usual review protocol, which applies to all new features introduced by Meta. This strategic move by Meta comes while the company is involved in a high-profile antitrust case in the United States. The lawsuit seeks to challenge Meta’s ownership of WhatsApp and Instagram and could potentially lead to a forced breakup of the company’s assets. 

Meta’s decision to push forward with deeper cross-platform ad integration may indicate confidence in its legal position. The tech giant continues to argue that its advertising tools are essential for small business growth and that any restrictions on its ad operations could negatively impact entrepreneurs who rely on Meta’s platforms for customer outreach. However, critics claim this level of integration is precisely why Meta should face stricter regulatory oversight—or even be broken up. 

As the U.S. court prepares to issue a ruling, the EU delay illustrates how Meta is navigating regulatory pressures differently across markets. After initial reporting, WhatsApp clarified that the 2025 rollout in the EU was never confirmed, and the current plan reflects ongoing conversations with European regulators.
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Privacy Issues
AI Chatbots AI technology chatbot security Data Leak Data Privacy data security Meta Meta Chatbots Personal Data Privacy Privacy Issues

Meta.ai Privacy Lapse Exposes User Chats in Public Feed

 

Meta’s new AI-driven chatbot platform, Meta.ai, launched recently with much fanfare, offering features like text and voice chats, image generation, and video restyling. Designed to rival platforms like ChatGPT, the app also includes a Discover feed, a space intended to showcase public content generated by users. However, what Meta failed to communicate effectively was that many users were unintentionally sharing their private conversations in this feed—sometimes with extremely sensitive content attached. 

In May, journalists flagged the issue when they discovered public chats revealing deeply personal user concerns—ranging from financial issues and health anxieties to legal troubles. These weren’t obscure posts either; they appeared in a publicly accessible area of the app, often containing identifying information. Conversations included users seeking help with medical diagnoses, children talking about personal experiences, and even incarcerated individuals discussing legal strategies—none of whom appeared to realize their data was visible to others. 

Despite some recent tweaks to the app’s sharing settings, disturbing content still appears on the Discover feed. Users unknowingly uploaded images and video clips, sometimes including faces, alongside alarming or bizarre prompts. One especially troubling instance featured a photo of a child at school, accompanied by a prompt instructing the AI to “make him cry.” Such posts reflect not only poor design choices but also raise ethical questions about the purpose and moderation of the Discover feed itself. 

The issue evokes memories of other infamous data exposure incidents, such as AOL’s release of anonymized user searches in 2006, which provided unsettling insight into private thoughts and behaviors. While social media platforms are inherently public, users generally view AI chat interactions as private, akin to using a search engine. Meta.ai blurred that boundary—perhaps unintentionally, but with serious consequences. Many users turned to Meta.ai seeking support, companionship, or simple productivity help. Some asked for help with job listings or obituary writing, while others vented emotional distress or sought comfort during panic attacks. 

In some cases, users left chats expressing gratitude—believing the bot had helped. But a growing number of conversations end in frustration or embarrassment when users realize the bot cannot deliver on its promises or that their content was shared publicly. These incidents highlight a disconnect between how users engage with AI tools and how companies design them. Meta’s ambition to merge AI capabilities with social interaction seems to have ignored the emotional and psychological expectations users bring to private-sounding features. 

For those using Meta.ai as a digital confidant, the lack of clarity around privacy settings has turned an experiment in convenience into a public misstep. As AI systems become more integrated into daily life, companies must rethink how they handle user data—especially when users assume privacy. Meta.ai’s rocky launch serves as a cautionary tale about transparency, trust, and design in the age of generative AI.
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personal data leak
Data Breach Data Leak data security Data stealing malware Database Breach Infostealer Infostealer Malware Login Credentials Login Security Malware attacks personal data leak

Massive Data Leak Exposes 16 Billion Login Records from Major Online Services

 

A recent investigation by Cybernews has uncovered a staggering 30 separate online datasets containing approximately 16 billion stolen login credentials from services including Apple, Google, and Facebook. These data dumps, discovered through open sources, appear to be the result of large-scale malware attacks that harvested user information through infostealers. 

Each dataset contains a URL alongside usernames and passwords, suggesting that malicious software was used to collect login details from infected devices. While some overlap exists among the records, the overall size and spread of the leak make it difficult to determine how many unique users have been compromised. 

Except for one dataset previously identified by cybersecurity researcher Jeremiah Fowler—which included over 185 million unique credentials—most of the remaining 29 databases had not been publicly reported before. These leaked collections are often only temporarily available online before being removed, but new compilations are regularly uploaded, often every few weeks, with fresh data that could be weaponized by cybercriminals. The exact sources and individuals behind these leaks remain unknown. 

To avoid falling victim to similar malware attacks, experts advise staying away from third-party download platforms, especially when obtaining software for macOS. Users are encouraged to download apps directly from the Mac App Store or, if not available there, from a developer’s official website. Using cracked or pirated software significantly increases the risk of malware infection. 

Phishing scams remain another common threat vector. Users should be cautious about clicking on links in unsolicited emails or messages. Even if a message appears to come from a trusted company, it’s vital to verify the sender’s address and inspect URLs carefully. You can do this by copying the link and pasting it into a text editor to see its actual destination before clicking. 

To reduce the chance of visiting malicious sites, double-check the spelling of URLs typed manually and consider bookmarking commonly used sites. Alternatively, using a search engine and clicking on verified results can reduce the risk of visiting typo-squatting domains. 

If you suspect your credentials may have been compromised, take immediate action. Start by updating passwords on any affected services and enabling two-factor authentication for added security. It’s also wise to check your financial statements for unauthorized activity and consider placing a freeze on your credit file to prevent fraudulent account openings. 

Additionally, tools like Have I Been Pwned can help verify if your email address has been part of a known breach. Always install the latest system and app updates, as they often include crucial security patches. Staying current with updates is a simple but effective defense against vulnerabilities and threats.
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Mobile Virus
Android Antivirus Apps Antivirus Detection data security Data Theft Identity Theft iPhone Mobile Malwares Mobile Security Mobile Virus

Signs Your Phone Has a Virus and How to Remove It Safely

 

In today’s world, our phones are more than just communication devices — they’re essential for work, banking, shopping, and staying connected. That makes it all the more alarming when a device begins to behave strangely. 

One possible cause? A virus. Mobile malware can sneak into your phone through suspicious links, shady apps, or compromised websites, and can create problems ranging from poor performance to data theft and financial loss. There are several red flags that suggest your phone might be infected. A rapidly draining battery could mean malicious software is operating in the background. Overheating, sluggish performance, frequent app crashes, or screen freezes may also be signs of trouble. You might notice strange new apps that you don’t remember installing or unexpected spikes in mobile data usage. 
In some cases, your contacts could receive strange messages from you, or you might find purchases on your accounts that you never made. If your phone shows any of these symptoms, quick action is essential. 

The first step is to scan your device using a trusted antivirus app to locate and remove threats. Check your device for unfamiliar apps and uninstall anything suspicious. You should also notify your contacts that your device may have been compromised to prevent the spread of malware through messaging apps. Updating your passwords should be your next priority. Make sure each password is strong, unique, and ideally protected with two-factor authentication. After that, review your online accounts and connected devices for signs of unauthorized activity. Remove unknown devices from your phone account settings and confirm your personal and security information hasn’t been altered. 

Depending on your phone’s operating system, the process of virus removal can vary slightly. iPhone users can try updating to the latest iOS version and removing suspicious apps. If the problem persists, a factory reset might be necessary, though it will erase all stored data unless a backup is available. While iPhones don’t include a built-in virus scanner, some reliable third-party tools can help detect infections. For Android users, antivirus apps often offer both detection and removal features. Rebooting the device in safe mode can temporarily disable harmful third-party apps and make removal easier. Clearing the browser cache and cookies is another useful step to eliminate web-based threats. 

If all else fails, a factory reset can clear everything, but users should back up their data beforehand. Preventing future infections comes down to a few key practices. Always download apps from official stores, keep your operating system and apps updated, and limit app permissions. Avoid clicking on links from unknown sources, and monitor your phone’s performance regularly for anything out of the ordinary. 

Whether you use Android or iPhone, dealing with a virus can be stressful — but with the right steps, it’s usually possible to remove the threat and get your phone back to normal. By staying alert and adopting good digital hygiene, you can also reduce your chances of being targeted again in the future.
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edge computing
Cloud Computing CloudFlare Cloudflare outage Computing Critical Infrastructure Cyber Security Data Safety data security Disruption edge computing

Cloudflare Explains Major Service Outage: Not a Security Breach, No Data Lost

 

Cloudflare has clarified that a widespread outage affecting its global services was not the result of a cyberattack or data breach. The company confirmed that no customer data was compromised during the disruption, which significantly impacted numerous platforms, including major edge computing services and some Google Cloud infrastructure. 

The issue began at approximately 17:52 UTC and was primarily caused by a complete failure of Workers KV, Cloudflare’s globally distributed key-value storage system. As a backbone for its serverless computing platform, Workers KV plays a crucial role in supporting configuration, identity management, and content delivery across many of Cloudflare’s offerings. When it went offline, critical functions across the ecosystem were immediately affected. 

In a post-incident analysis, Cloudflare revealed that the root cause was a malfunction in the storage infrastructure that underpins Workers KV. This backend is partially hosted by a third-party cloud service, which experienced its own outage—directly leading to the failure of the KV system. The ripple effects were far-reaching, disrupting Cloudflare services for nearly two and a half hours. 

Key services impacted included authentication platforms like Access and Gateway, which saw major breakdowns in login systems, session handling, and policy enforcement. Cloudflare’s WARP service was unable to register new devices, while Gateway experienced failures in DNS-over-HTTPS queries. CAPTCHA and login tools such as Turnstile and Challenges also malfunctioned, with a temporary kill switch introducing token reuse risks.  
Media services like Stream and Images were hit particularly hard, with all live streaming and media uploads failing during the incident. Other offerings such as Workers AI, Pages, and the AutoRAG AI system were rendered entirely unavailable. Even backend systems like Durable Objects, D1 databases, and Queues registered elevated error rates or became completely unresponsive.  

Cloudflare’s response plan now includes a significant architectural shift. The company will begin migrating Workers KV from its current third-party dependency to its in-house R2 object storage solution. This move is designed to reduce reliance on external providers and improve the overall resilience of Cloudflare’s services. 

In addition, Cloudflare will implement a series of safeguards to mitigate cascading failures in future outages. This includes new cross-service protections and controlled service restoration tools that will help stabilize systems more gradually and prevent sudden traffic overloads. 

While the outage was severe, Cloudflare’s transparency and swift action to redesign its infrastructure aim to minimize similar disruptions in the future and reinforce trust in its platform.
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Personal Data Breach
Customer Information Cybernews Cybersecurity Data Breach Data Hackers Data Leak Data Safety User Data data security Data Trading Hacker attack Personal Data Breach

T-Mobile Denies Involvement After Hackers Claim Massive Customer Data Breach

 

T-Mobile is once again in the cybersecurity spotlight after a hacking group claimed to have obtained sensitive personal information belonging to 64 million customers. The hackers alleged the data was freshly taken as of June 1, 2025, and listed their find on a well-known dark web forum popular among cybercriminals and data traders.  

The leaked trove reportedly contains highly personal information, including full names, birthdates, tax identification numbers, addresses, contact details, device and cookie IDs, and IP addresses. Such data can be extremely valuable to cybercriminals for fraud, identity theft, or phishing attacks. Cybernews, which analyzed a sample of the data, confirmed its sensitive nature, raising alarm over the scale and potential damage of the breach.  

Yet, T-Mobile has come forward to strongly deny any connection to the alleged hack. In a statement to The Mobile Report, the telecom company asserted that the leaked data does not belong to T-Mobile or any of its customers. “Any reports of a T-Mobile data breach are inaccurate. We have reviewed the sample data provided and can confirm the data does not relate to T-Mobile or our customers,” the company stated. 

Despite T-Mobile’s denial, cybersecurity analysts remain cautious. Cybernews pointed out that portions of the leaked data mirror details from previous breaches that targeted T-Mobile, suggesting there may be some overlap with older incidents. This has sparked speculation that the latest claim may not be based on a new breach, but rather a repackaging of previously stolen information to create hype or confusion. 

Adding to the uncertainty, Have I Been Pwned—a trusted platform used to monitor data breaches—has yet to list the supposed breach, which could support the theory that the leaked data is not new. Still, the situation has left many T-Mobile customers in limbo, unsure whether their data has truly been compromised again. 

If the claims prove to be true, it would be another in a series of cybersecurity setbacks for T-Mobile. The company only recently began issuing compensation checks related to its 2021 data breach, suggesting that resolution in such matters can take years. 

For now, the legitimacy of this latest breach remains unclear. Until further evidence surfaces or an independent investigation confirms or refutes the claims, customers are advised to remain vigilant and monitor their accounts for any unusual activity.
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IT Industry
AI technology AI tools Corporate data Cyber Security cybersecurity posture cybersecurity risks data security Data Visualisation Generative AI IT Industry

How Generative AI Is Accelerating the Rise of Shadow IT and Cybersecurity Gaps

 

The emergence of generative AI tools in the workplace has reignited concerns about shadow IT—technology solutions adopted by employees without the knowledge or approval of the IT department. While shadow IT has always posed security challenges, the rapid proliferation of AI tools is intensifying the issue, creating new cybersecurity risks for organizations already struggling with visibility and control. 

Employees now have access to a range of AI-powered tools that can streamline daily tasks, from summarizing text to generating code. However, many of these applications operate outside approved systems and can send sensitive corporate data to third-party cloud environments. This introduces serious privacy concerns and increases the risk of data leakage. Unlike legacy software, generative AI solutions can be downloaded and used with minimal friction, making them harder for IT teams to detect and manage. 

The 2025 State of Cybersecurity Report by Ivanti reveals a critical gap between awareness and preparedness. More than half of IT and security leaders acknowledge the threat posed by software and API vulnerabilities. Yet only about one-third feel fully equipped to deal with these risks. The disparity highlights the disconnect between theory and practice, especially as data visibility becomes increasingly fragmented. 

A significant portion of this problem stems from the lack of integrated data systems. Nearly half of organizations admit they do not have enough insight into the software operating on their networks, hindering informed decision-making. When IT and security departments work in isolation—something 55% of organizations still report—it opens the door for unmonitored tools to slip through unnoticed. 

Generative AI has only added to the complexity. Because these tools operate quickly and independently, they can infiltrate enterprise environments before any formal review process occurs. The result is a patchwork of unverified software that can compromise an organization’s overall security posture. 

Rather than attempting to ban shadow IT altogether—a move unlikely to succeed—companies should focus on improving data visibility and fostering collaboration between departments. Unified platforms that connect IT and security functions are essential. With a shared understanding of tools in use, teams can assess risks and apply controls without stifling innovation. 

Creating a culture of transparency is equally important. Employees should feel comfortable voicing their tech needs instead of finding workarounds. Training programs can help users understand the risks of generative AI and encourage safer choices. 

Ultimately, AI is not the root of the problem—lack of oversight is. As the workplace becomes more AI-driven, addressing shadow IT with strategic visibility and collaboration will be critical to building a strong, future-ready defense.
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Russia links
Cloud Cyber Security Data Safety User Data data security FSB IP Address Messaging Apps Russia Russia links

Telegram’s Alleged Ties to Russian Intelligence Raise Global Surveillance Fears

 

A new investigation by Russian media outlet Important Stories, in collaboration with the Organized Crime and Corruption Reporting Project (OCCRP), has sparked fresh scrutiny over Telegram’s connections to Russia’s intelligence services. The popular messaging platform, long regarded for its privacy features, may have indirect links to the Russian Federal Security Service (FSB), raising significant concerns for users worldwide.

At the center of the probe is a company called Global Network Management (GNM), which plays a critical role in routing Telegram’s messages. Although GNM is officially incorporated in the Caribbean nation of Antigua and Barbuda, it operates primarily from Russia. Its owner, Vladimir Vedeneev, is a Russian engineer with long-standing ties to Telegram founder Pavel Durov. Legal filings show that Vedeneev is the only individual authorized to manage certain Telegram servers, including those based in the U.S. 

Vedeneev also runs other firms—such as Globalnet and Electrontelecom—that reportedly supply telecommunications infrastructure to various Russian state entities, including the FSB. These companies have been linked to classified government projects involving surveillance and defense. 

The IP addresses used by Telegram used to be owned by Russian firms with FSB affiliations. These IPs still appear to be registered in Russia, and might be responsible for allowing user activity to be traced back through Russian-controlled networks. Telegram users typically rely on regular cloud chats, which—unlike its secret chats—are not end-to-end encrypted and are stored on Telegram’s servers. Security analysts warn that if Vedeneev’s companies manage routing systems and network infrastructure, they could potentially access user metadata, including IP addresses, device IDs, and location data. 

Though message content may remain encrypted, this metadata could still be exploited for surveillance. Moreover, Telegram transmits unique device identifiers in an unencrypted format, creating additional vulnerability. Experts caution that Russian intelligence could leverage this data to monitor users, particularly dissidents, journalists, or foreign nationals viewed as threats. Telegram has refuted the claims, stating that it has no employees or servers in Russia and that its infrastructure remains fully under the control of its internal teams. 

The company maintains that no third party, including vendors, can access confidential user data or systems. However, Telegram has yet to directly address the investigation’s core claims regarding GNM, Vedeneev, or the related infrastructure providers. The platform also hasn’t explained how it protects users if server operators have potential intelligence ties or why certain data is still sent without encryption. 

The issue is especially relevant in Ukraine, where Telegram has over 10 million users and is a major source of news and official communication. While President Volodymyr Zelensky’s administration uses the app for public updates, growing concerns around disinformation and espionage have prompted discussions about its continued use. 

As the investigation raises critical questions about the app’s security, the broader implications for global digital privacy and national security remain in sharp focus.
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User Privacy
Cloud Security Cyber Security data security threat report User Privacy

Data Security Posture Insights: Overcoming Complexity and Threat Landscape

 

In today's competitive landscape, it is becoming more critical for businesses to find ways to adapt their data security, governance, and risk management strategies to the volatile economy by increasing efficiency or lowering costs while maintaining the structure, consistency, and guidance required to manage cyber threats and ensure compliance. 

As organisations increasingly migrate various on-premises applications and data workloads to multicloud environments, the complexity and dispersed nature of cloud environments presents significant challenges in terms of managing vulnerabilities, controlling access, understanding risks, and protecting sensitive data.

What is data security risk? 

Data security refers to the process of preserving digital information from unauthorised access, corruption, or theft throughout its lifecycle. Risks are introduced into databases, file servers, data lakes, cloud repositories, and storage devices via all access channels to and from these systems. 

Most importantly, the data itself, whether in motion or at rest, deserves the same level of protection. When effectively executed, a data-centric approach will secure an organization's assets and data from cyberattacks while also guarding against insider threats and human error, which are still among the major causes of data breaches.

Complexity factor into data security risk 

Many variables contribute to organisational growth while also increasing security complexity. Complexity undermines operational stability and has an equivalent influence on security. Understanding and analysing all the causes of complexity allows organisations to develop focused initiatives and efficiently automate observability and control, fostering a lean and responsive operational team. 

Cloud Security Alliance's Understanding Data Security Risk 2025 Survey Report outlines major topics that organisations are actively addressing:

High growth with AI-driven innovation and security: As AI stimulates innovation, it also broadens the threat landscape. Rapid expansion frequently outpaces the creation of required infrastructures, processes, and procedures, resulting in ad hoc measures that add complexity. Gen-AI also introduces a new level of difficulty as it becomes more prominent in cloud environments, which remain a major target owing to their complexity and scale. 

Processes and automation: We understand that limited staff and inefficient or outdated processes frequently result in manual and redundant efforts. This places a significant load on teams that struggle to stay up, resulting in reactive stopgap or workaround actions. To summarise, manual efforts can be error-prone and time-consuming. At the same time, organisations may encounter unwanted bottlenecks, which can increase complexity and impede risk detection and security enforcement. Automate as much as possible, including data security and risk intelligence, to ensure that risks are managed proactively, reducing the escalation of critical occurrences. 

Technology integration: Although technology provides answers for efficiency and effectiveness, integrating several systems without careful planning can result in disjointed security process silos, ineffective security infrastructure, and mismatched security stack components. Fragmented visibility, control, and access enforcement are the unstated costs of fragmented tools. Even though they are crucial, traditional compliance and security systems frequently lack the integration and scalability required for contemporary and successful risk management. 

Proactive data security posture management 

To improve security posture, organisations are adopting proactive, risk-based solutions that include continuous monitoring, real-time risk assessments, and dynamic actionable workflows. This strategy allows for the detection and mitigation of flaws before they are exploited, resulting in a more strong defence against threats. 

According to the poll results, 36% prioritise assessment results, 34% believe a dedicated dashboard is most useful, and 34% want risk scores to better understand their organization's data risk. 

 onquering complexity necessitates a comprehensive approach that incorporates technology, best practices, and risk awareness. By prioritising data security throughout your cloud journey, you can keep your data safe, your apps running smoothly, and your business thriving in the ever-changing cloud landscape.
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Scams
Cyber Security data security Fake messages Fradulent Transactions Frauds Identity Theft Scammers Scams

DVLA Scams Target Thousands of UK Drivers with Fake Fines, Car Deals, and Fraudulent Fees

 

A surge in vehicle-related scams across the UK has left thousands of drivers out of pocket, with fraudulent activity disguised as legitimate DVLA communications. In 2023 alone, nearly 20,000 motorists were tricked by fake car tax messages, insurance schemes, and misleading parking fines, according to recent findings. These scams, often presented with a false sense of urgency, have affected drivers of all ages. 

Young drivers between 25 and 34 years old have been found to be prime targets for these scams, particularly for fraudulent vehicle listings and bogus insurance offers. Older motorists, meanwhile, are increasingly falling victim to fake parking fine notices designed to appear official and urgent. 

The scammers’ tactics often involve pressuring the recipient to pay immediately to avoid penalties, leading many to act before verifying the source. John Wilmot, CEO of car leasing comparison platform LeaseLoco, warned that this psychological pressure is what makes these scams so effective. Many people, he explained, rush to settle fines or fees without confirming whether the request is genuine. 

He stressed that official agencies like the DVLA never ask for payments or personal data through text messages or emails. To avoid becoming a victim, Wilmot recommends ignoring any suspicious digital messages and visiting the DVLA’s website only through the official GOV.UK portal. This small precaution could save drivers from significant financial losses and identity theft. 

One notable scam gaining traction involves tampered QR code stickers placed on parking meters, leading users to counterfeit payment websites. Drivers are urged to use only trusted mobile apps like PayByPhone or RingGo for transactions. In most UK cities, councils do not use QR codes for parking payments, further raising suspicion when encountered. 

Online used car scams have also seen a sharp rise. Fraudsters post listings with unrealistically low prices, request payments up front, and then vanish. Victims are lured in by deals that seem too good to be true. Authorities advise never transferring money before viewing a vehicle in person and checking the car’s history via government platforms. 

Scammers have also taken advantage of electronic tolling systems by sending drivers fake notifications for unpaid toll or congestion charges. These messages often include phishing links disguised as urgent payment portals, which can steal both money and sensitive information. 

As digital communication becomes a common part of motoring administration, drivers must stay alert. Verifying the source of any unexpected payment request is essential in avoiding fraud and safeguarding personal data.
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IT Infrastructure
ALPHV Change Healthcare Cyber Attacks CyberCrime Cybersecurity cybersecurity in healthcare CyberThreat data security EHRs IT Infrastructure

Weak Links in Healthcare Infrastructure Fuel Cyberattacks

 


Increasingly, cybercriminals are exploiting systemic vulnerabilities in order to target the healthcare sector as one of the most frequently attacked and vulnerable targets in modern cybersecurity, with attacks growing both in volume and sophistication. These risks go well beyond the theft of personal information - they directly threaten the integrity and confidentiality of critical medical services and patient records, as well as the stability of healthcare operations as a whole. 

There has been an increase in threat actors targeting hospitals and medical institutions due to the outdated infrastructure and limited cybersecurity resources they often have. Threat actors are targeting these organisations to exploit sensitive health information and disrupt healthcare delivery for financial or political gain. The alarming trend reveals that there is an urgent and critical security issue looming within the healthcare industry that needs to be addressed immediately. 

Such breaches have the potential to have catastrophic consequences, from halting life-saving treatments due to system failures to eroding patients' trust in healthcare providers. Considering the rapid pace at which the digital transformation is taking place in healthcare, it is important that the sector remains committed to robust cybersecurity strategies so as to safeguard the welfare of its patients and ensure the resilience of essential medical services in the future. 

BlackCat, also referred to as ALPHV, is at the centre of a recent significant cybersecurity incident. In recent months, it has gained prominence as a highly organised, sophisticated ransomware group that has been linked to the high-profile attack on Change Healthcare. As a result of the infiltration of the organisation's IT infrastructure and the theft of highly sensitive healthcare data by the group, the group has claimed responsibility for obtaining six terabytes of data.

As a result of this breach, not only did it send shockwaves throughout the healthcare sector, but it also highlighted the devastating power of modern ransomware when targeting critical systems. It has been reported that the attack was triggered by known vulnerabilities in ConnectWise's ScreenConnect remote access application, a tool that is frequently employed in many industries, including healthcare, as a remote access tool. 

Having this connection has given rise to more concern about the broader cybersecurity risks posed by third-party vendors as well as software providers, showing that even if one compromised application is compromised, it can lead to widespread data theft and operational disruption as a result. This incident has served as a stark reminder that digital ecosystems in healthcare are fragile and interconnected, with a breach in one component leading to cascading effects across the entire healthcare service network. 

There is a growing concern in the healthcare sector that, as investigations continue and new details emerge, healthcare providers are still on high alert, coping with the aftermath of the attack as well as the imperative necessity of strengthening their defensive infrastructure in order to prevent similar intrusions in the future. As one of the most frequently targeted sectors of the economy by cybercriminals, healthcare continues to be one of the most highly sensitive data centres in the world. 

It is important to note that even though industry leaders often fail to rank cybersecurity as one of their top challenges, Mike Fuhrman, CEO of Omega Systems, pointed out that despite this growing concern, there are already significant consequences resulting from insufficient cyber risk management, including putting patient safety at risk, disrupting care delivery, and making compliance with regulations even more difficult. Even though perceived priorities are not aligned with actual vulnerabilities, this misalignment poses an increasing and significant risk for the entire healthcare system. 

Fuhrman stressed the necessity of improving visibility into security threats and organisational readiness, as well as increasing cybersecurity resources, to bridge this gap. As long as healthcare organisations fail to take proactive and comprehensive steps to ensure cyber resilience, they may continue to experience setbacks that are both detrimental to operational continuity as well as eroding public trust, as well as putting patient safety at risk. 

As cybersecurity has become more and more important to the leadership, it has never been more important to elevate it from a back-office issue to an imperative. As a result of the growing number of cyberattacks targeting the healthcare sector in the past few years, the scale and frequency of these attacks have reached alarming levels.

According to the Office for Civil Rights (OCR), the number of security breaches reported by the healthcare industry between 2018 and 2023 has increased by a staggering 239%. Over the same period, there was a 278% increase in ransomware incidents, which suggests that cybercriminals are increasingly looking for disruptive, extortion-based attacks against healthcare providers as a means of extorting money. 

There is a likelihood that nearly 67% of healthcare organisations will have been attacked by ransomware at some point shortly, which indicates that such threats are no longer isolated events but rather a persistent and widespread threat. According to experts within the health care industry, one of the primary contributing factors to this vulnerability is the lack of preparedness at all levels. In fact, 37% of healthcare organisations do not have an incident response plan in place, leaving them dangerously vulnerable to ever-evolving cyberattacks. 

Health care institutions are appealing to malicious actors because they manage a huge amount of valuable data. Cybercriminals and even nation-state threat actors are gaining an increasing level of interest in electronic health records (EHRs), which contain comprehensive information about patient health, financial health, and medical history.

As a result of outdated cybersecurity protocols, legacy IT infrastructure, and operational pressures of high-stress environments, these records are frequently inadequately protected due to the likelihood that human error will occur more often. These factors together create an ideal storm for exploitation, making the healthcare industry a very vulnerable and frequently targeted industry in today's digital threat landscape.

Despite the growing frequency and complexity of cyberattacks, healthcare organisations face a critical crossroads as 2025 unfolds. Patient safety, data security, and regulatory compliance all intersect at the same time, resulting in a crucial crossroads more than ever before. Enhancing cyber resilience has become a strategic priority and a fundamental requirement, not just a strategic priority. 

Healthcare institutions must proactively adopt forward-looking security practices and technologies to secure sensitive patient data and ensure continuous care delivery. As a key trend influencing the healthcare cybersecurity landscape, zero-trust architectures are a growing trend that challenges traditional security models by requiring all users and devices to be verified before they are allowed access. 

In a hyperconnected digital environment where cyber threats exploit even the most subtle of system weaknesses, a model such as this is becoming increasingly important. IoT devices are becoming increasingly popular, and many of them were not originally designed with cybersecurity in mind, so we must secure them as soon as possible. Providing robust protections for these devices will be crucial if we are to reduce the attack surfaces of these devices. 

AI has been rapidly integrated into healthcare, and it has brought new benefits as well as new vulnerabilities to the healthcare sector. In order for organisations to meet emerging risks and ensure a responsible deployment, they must now develop AI-specific safety frameworks. Meanwhile, the challenge of dealing with technological sprawl, an increasingly fragmented IT environment with disparate security tools, calls for a more unified, centralised cybersecurity management approach.

A good way to prepare for 2025 is to install core security measures like multi-factor authentication, strong firewalls, and data backups, as well as advanced measures like endpoint detection and response (EDR), segmentation of the network, and real-time AI threat monitoring. In addition to strengthening third-party risk management, it will also be imperative to adhere to global compliance standards like HIPAA and GDPR.

There is only one way to protect both healthcare infrastructure and the lives that are dependent on it in this ever-evolving threat landscape, and that is by implementing a comprehensive, proactive, and adaptive cybersecurity strategy. Healthcare organisations must take proactive measures rather than reactive measures and adopt a forward-looking mindset so they can successfully navigate the increasing cybersecurity storm. 

Embedding cybersecurity into healthcare operations' DNA is the path to ensuring patient safety, operational resilience, and institutional trust in healthcare organisations, not treating it as a standalone IT concern, but as a critical pillar of patient safety, operational resilience, and institutional trust in healthcare organisations.

To achieve this, leadership must take the initiative to champion security from the boardroom level, integrate threat intelligence into strategic planning, and invest in people and technology that will be able to anticipate, detect, and neutralise emerging threats before they become a major issue. As part of the process of fostering cyber maturity, it is also essential to cultivate a culture of shared responsibility among all stakeholders, ranging from clinicians to administrative personnel to third-party vendors, who understand the importance of keeping data and systems secure. 

Training on cybersecurity hygiene, cross-functional collaboration, and continuous vulnerability assessment must become standard operating procedures in the healthcare industry. As attackers become more sophisticated and bold, the costs of inaction do not stop at regulatory fines or reputational damage. Rather, inaction may mean interruptions of care, delays in treatments, and the risk to human life. 

Only organisations that recognise cybersecurity as a strategic imperative will be in the best position to deliver uninterrupted, trustworthy, and secure care in an age when digital transformation is accelerating. This is a sector that is built on the pillars of trust, a sector that offers life-saving services, which does not allow for room for compromise. They have to act decisively, investing today in the defensive measures that will ensure the future of their industry.
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protecting sensitive data
Chinese Data Breach Data Leak data security Data Surveillance database Database Breach Personal Information protecting sensitive data

Massive Data Leak Exposes Billions of Records in Suspected Chinese Surveillance Database

 

Cybersecurity experts have uncovered a massive trove of sensitive information left exposed online, potentially placing millions of individuals at significant risk. The discovery, made by researchers from Cybernews in collaboration with SecurityDiscovery.com, revealed an unsecured database totaling 631 gigabytes—containing an estimated four billion individual records. 

The open instance, which lacked any form of password protection, was quickly taken offline once the exposure was reported, but experts remain unsure about how long it had remained publicly accessible. The data, according to the investigation, appears to primarily concern Chinese citizens and users, with entries collected from various platforms and sources. 

Cybernews researchers believe this is not a random collection, but rather a systematically curated database. They described it as a tool capable of constructing detailed behavioral, social, and financial profiles of nearly any individual included in the records. The structured and diverse nature of the data has led analysts to suspect that the repository may have been created as part of a broader surveillance or profiling initiative. 

Among the most alarming elements of the database is the presence of extensive personally identifiable information (PII). The exposed details include full names, birth dates, phone numbers, financial records, bank card data, savings balances, debt figures, and personal spending patterns. Such information opens the door to a wide range of malicious activities—ranging from identity theft and financial fraud to blackmail and sophisticated social engineering attacks. 

A large portion of the exposed records is believed to originate from WeChat, the popular Chinese messaging app, which accounts for over 805 million entries. Another 780 million records relate to residential data tied to specific geographic locations. Meanwhile, a third major portion of the database labeled “bank” contains around 630 million records of financial and sensitive personal data. 

If confirmed, the scale of this leak could surpass even the National Public Data breach, one of the most significant data security incidents in recent memory. Experts are particularly troubled by the implications of a centralized data cache of this magnitude—especially one that may have been used for state-level surveillance or unauthorized commercial data enrichment. 

While the server hosting the information has been taken offline, the potential damage from such an exposure may already be done. Investigators continue to analyze the breach to determine its full impact and whether any malicious actors accessed the data while it was left unsecured.
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Ransomwares
Cyberattack Data Breach Data Leak data security Employee Data Healthcare Interlock gang Interlock ransomware Kettering Health Ransomware attack Ransomware group Ransomwares

Kettering Health Ransomware Attack Linked to Interlock Group

 

Kettering Health, a prominent healthcare network based in Ohio, is still grappling with the aftermath of a disruptive ransomware attack that forced the organization to shut down its computer systems. The cyberattack, which occurred in mid-May 2025, affected operations across its hospitals, clinics, and medical centers. Now, two weeks later, the ransomware gang Interlock has officially taken responsibility for the breach, claiming to have exfiltrated more than 940 gigabytes of data.  

Interlock, an emerging cybercriminal group active since September 2024, has increasingly focused on targeting U.S.-based healthcare providers. When CNN first reported on the incident on May 20, Interlock had not yet confirmed its role, suggesting that ransom negotiations may have been in progress. With the group now openly taking credit and releasing some of the stolen data on its dark web site, it appears those negotiations either failed or stalled. 

Kettering Health has maintained a firm position that they are against paying ransoms. John Weimer, senior vice president of emergency operations, previously stated that no ransom had been paid. Despite this, the data breach appears extensive. Information shared by Interlock indicates that sensitive files were accessed, including private patient records and internal documents. Patient information such as names, identification numbers, medical histories, medications, and mental health notes were among the compromised data. 

The breach also impacted employee data, with files from shared network drives also exposed. One particularly concerning element involves files tied to Kettering Health’s in-house police department. Some documents reportedly include background checks, polygraph results, and personally identifiable details of law enforcement staff—raising serious privacy and safety concerns. In a recent public update, Kettering Health announced a key development in its recovery process. 

The organization confirmed it had restored core functionalities of its electronic health record (EHR) system, which is provided by healthcare technology firm Epic. Officials described this restoration as a significant step toward resuming normal operations, allowing teams to access patient records, coordinate care, and communicate effectively across departments once again. The full scope of the breach and the long-term consequences for affected individuals still remains uncertain. 

Meanwhile, Kettering Health has yet to comment on whether Interlock’s claims are fully accurate. The healthcare system is working closely with cybersecurity professionals and law enforcement agencies to assess the extent of the intrusion and prevent further damage.
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Ransomwares
Customer Data Cyberattack Data Breach Data Leak data security Personal Information personal information exposure Qilin Qilin Ransomware Ransomware attack Ransomware group Ransomwares

Lee Enterprises Ransomware Attack Exposes Data of 40,000 Individuals

 

Lee Enterprises, a major U.S. news publisher, is alerting nearly 40,000 individuals about a data breach following a ransomware attack that took place in early February 2025. The company, which owns and operates 77 daily newspapers and hundreds of weekly and special-interest publications across 26 states, reported that the cyberattack resulted in the theft of personal information belonging to thousands of people. 

Details of the breach were revealed in a recent disclosure to the Maine Attorney General’s office. According to the company, the attackers gained unauthorized access to internal documents on February 3, 2025. These files contained combinations of personal identifiers such as names, Social Security numbers, driver’s license details, bank account information, medical data, and health insurance policy numbers. The security incident caused widespread operational disruptions. 

Following the attack, Lee Enterprises was forced to shut down multiple parts of its IT infrastructure, impacting both the printing and delivery of its newspapers. Several internal tools and systems became inaccessible, including virtual private networks and cloud storage services, complicating daily workflows across its local newsrooms. In a filing with the U.S. Securities and Exchange Commission shortly after the breach, the company confirmed that critical systems had been encrypted and that a portion of its data had been copied by the attackers. 

The source of the attack is yet to be identified, a group known as Qilin has allegedly claimed responsibility near the end of February. The group alleged it had stolen over 120,000 internal files, totaling 350 gigabytes, and threatened to publish the material unless their demands were met. Soon after, Qilin posted a sample of the stolen data to a dark web leak site, which included scans of government-issued IDs, financial spreadsheets, contracts, and other confidential records. The group also listed Lee Enterprises as a victim on its public-facing extortion portal. 

When asked about the authenticity of the leaked data, a spokesperson for Lee Enterprises stated the company was aware of the claims and was actively investigating. This is not the first cybersecurity issue Lee Enterprises has faced. The company’s network was previously targeted by foreign actors during the lead-up to the 2020 U.S. presidential election, where hackers from Iran allegedly attempted to use compromised media outlets to spread disinformation. 

The ransomware attack highlights ongoing threats facing media companies, especially those handling high volumes of personal and financial data. As Lee Enterprises continues its recovery and legal steps, the incident serves as a reminder of the need for robust digital defenses in today’s information-driven landscape.
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Google Chrome security
Chromium Browser CVE CVE vulnerability Data Breach Data Leak Data Safety User Data data security Google Chrome Google Chrome security

Zero-Day Flaw in Chrome and Chromium Puts Windows and Linux Users at Data Risk

 

A newly revealed zero-day vulnerability identified as CVE-2025-4664 has triggered serious concerns for billions of Google Chrome and Chromium users. Security experts have warned that this flaw, which affects both Windows and Linux platforms, could be exploited to leak sensitive cross-origin data such as OAuth tokens and session identifiers—all without requiring any user action.  

The vulnerability has been discovered within the Loader component of Chrome and Chromium browsers. It is linked to how these browsers interpret the Link HTTP header for sub-resource requests such as images or scripts. While most mainstream browsers follow strict guidelines for handling such requests, Chrome’s unique behavior stands out. It continues to respect the referrer-policy directive even when loading sub-resources, which can unintentionally expose sensitive information. 

This default behavior can be manipulated by attackers. A malicious site could inject a loose policy like “unsafe-url,” which then forces the browser to reveal complete URLs—including potentially sensitive credentials or session data—to third-party servers. This results in a severe breach of user privacy and circumvents traditional browser security measures. Cybersecurity firm Wazuh has stated that their Vulnerability Detection module can identify and address this specific flaw. 

The module leverages information from their Cyber Threat Intelligence (CTI) service to monitor browser versions and trigger alerts when vulnerable builds are detected. In controlled testing using Wazuh OVA 4.12.0, researchers were able to scan systems running Windows 11 and Debian 11 to determine if they were running affected versions of Chrome or Chromium. According to Wazuh’s platform, users can search for the vulnerability by querying CVE-2025-4664. If vulnerable software is found, the module changes the system status from “Active” to “Solved” after the necessary fixes are applied, helping administrators track progress in real time. 

In response to the discovery, Google has issued an emergency patch for Chrome users on Windows and Gentoo Linux. It is strongly recommended that users on these operating systems update their browsers immediately to avoid exposure. However, users on Debian 11 who rely on Chromium remain at risk, as no updated version has been released for that platform. All Chromium builds up to version 120.0.6099.224 are still considered vulnerable. Until a patch is available, security professionals advise uninstalling Chromium on affected Debian systems as a precautionary measure. 

While these immediate actions are important, experts caution that relying solely on browser updates is not a comprehensive defense. The broader cybersecurity strategy must include the use of endpoint protection platforms, anti-malware systems, and modern antivirus tools. These security layers can help detect and neutralize threats that slip past browser-based defenses and provide a stronger safety net for users and enterprises alike. 

As browser-based zero-day threats continue to emerge, users must remain vigilant. Rapid patching combined with proactive cybersecurity tools offers the best chance of mitigating risks and maintaining a secure browsing environment.
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Ransomware
Critical Infrastructure data security malware Play PlayCrypt Playgroup Ransomware

FBI Alert: Play Ransomware Attacks 900 Organizations

FBI Alert: Play Ransomware Attacks 900 Victims

In a recent joint cybersecurity advisory released with its Australian partners, the FBI announced that the Play ransomware group has attacked over 900 organizations since May 2025. “As of May 2025, FBI was aware of approximately 900 affected entities allegedly exploited by the ransomware actors,” the FBI said

Triple growth in three years

The number has tripled; in 2023, the figure was 300. This highlights the group’s rapid growth of attacking capabilities and compromise of new flaws.

Since 2022, the Playgroup, aka Playcrypt, has launched attacks across Europe, North America, and South America. The victims are diverse, ranging from MNCs to public sector agencies to areas of critical infrastructure. 

The Play ransomware differs due to its strategic use of manual-coded malware for each compromise. The constant configuration of attacks and retooling increases the group’s efficiency by helping it avoid getting caught. 

In a few cases, the group has strengthened attack tactics by contacting victims directly and asking for ransom for not leaking their data. 

Members of the infamous cybercrime syndicate have also compromised various newly found flaws (CVE-2024-57726, CVE-2024-57727, and CVE-2024-57728) in remote monitoring and management software, deploying them as entry points for deeper penetration to compromise systems. In one incident, threat actors backdoored systems and used Sliver beacons, building the foundation for future ransomware attacks. 

Play follows a unique approach

Differing from other gangs, Play uses direct email communication instead of the Dark Web negotiation. 

Play extracts sensitive data and uses it for extortion, and also uses a proprietary tool to escape shadow copy protections in data thefts. Some high-profile targets include the City of Oakland, Dallas County, and Krispy Kreme. 

How to stay safe?

A sound understanding of ransomware groups and good cyber hygiene is a must to prevent ransomware attacks, specialized tools, however, can boost your defenses. 

The joint advisory recommends security teams to keep their systems updates to prevent exploit of unpatched vulnerabilities. They are also advised to use two-factor authentication (2FA) throughout all services. Organizations should keep offline data backups and make and test a recovery drill as part of their security practices. 


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GitHub Advanced Security
AWS Cloud Security Critical Infrastructure Customer Data Cyberattack Data Breach Data Safety User Data data security GitHub GitHub Advanced Security

Massive Cyberattack Disrupts KiranaPro’s Operations, Erases Servers and User Data


KiranaPro, a voice-powered quick commerce startup connected with India’s Open Network for Digital Commerce (ONDC), has been hit by a devastating cyberattack that completely crippled its backend infrastructure. The breach, which occurred over the span of May 24–25, led to the deletion of key servers and customer data, effectively halting all order processing on the platform. Despite the app still being live, it is currently non-functional, unable to serve users or fulfill orders. 


Company CEO Deepak Ravindran confirmed the attack, revealing that both their Amazon Web Services (AWS) and GitHub systems had been compromised. As a result, all cloud-based virtual machines were erased, along with personally identifiable information such as customer names, payment details, and delivery addresses. The breach was only discovered on May 26, when the team found themselves locked out of AWS’s root account. Chief Technology Officer Saurav Kumar explained that while they retained access through IAM (Identity and Access Management), the primary cloud environment had already been dismantled. 

Investigations suggest that the initial access may have been gained through an account associated with a former team member, although the company has yet to confirm the source of the breach. To complicate matters, the team’s multi-factor authentication (MFA), powered by Google Authenticator, failed during recovery attempts—raising questions about whether the attackers had also tampered with MFA settings. 

Founded in late 2024, KiranaPro operates across 50 Indian cities and allows customers to order groceries from local kirana shops using voice commands in multiple languages including Hindi, Tamil, Malayalam, and English. Before the cyberattack, the platform served approximately 2,000 orders daily from a user base of over 55,000 and was preparing for a major rollout to double its footprint across 100 cities. 

Following the breach, KiranaPro has contacted GitHub for assistance in identifying IP addresses linked to the intrusion and has initiated legal action against ex-employees accused of withholding account credentials. However, no final evidence has been released to the public about the precise origin or nature of the attack. 

The startup, backed by notable investors such as Blume Ventures, Snow Leopard Ventures, and TurboStart, had recently made headlines for acquiring AR startup Likeo in a $1 million stock-based deal. High-profile individual investors include Olympic medalist P.V. Sindhu and Boston Consulting Group’s Vikas Taneja. 

Speaking recently to The Indian Dream Magazine, Ravindran had laid out ambitious plans to turn India’s millions of kirana stores into a tech-enabled delivery network powered by voice AI and ONDC. International expansion, starting with Dubai, was also on the horizon—plans now put on hold due to this security incident. 

This breach underscores how even tech-forward startups are vulnerable when cybersecurity governance doesn’t keep pace with scale. As KiranaPro works to recover, the incident serves as a wake-up call for cloud-native businesses managing sensitive data.
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Ransomwares
Advanced Social Engineering Cyber Attacks cybercriminal group data security FBI FBI cybersecurity advisory Law Firms Luna Moth phishing techniques ransomware attacks Ransomwares

FBI Warns of Silent Ransom Group Using Phishing and Vishing to Target U.S. Law Firms

 

The FBI has issued a warning about a sophisticated cybercriminal group known as the Silent Ransom Group (SRG), also referred to by aliases like Luna Moth, Chatty Spider, and UNC3753. This group has been actively targeting U.S.-based law firms and related organizations through advanced phishing techniques and social engineering scams. The group, which has been operational since 2022, is known for using deceptive communication methods to gain unauthorized access to corporate systems and extract sensitive legal data for ransom demands. In the past, SRG’s activities spanned across industries such as healthcare and insurance. 

However, since the spring of 2023, its focus has shifted to legal entities, likely because of the highly confidential nature of the data managed by law firms. The group commonly uses a method called callback phishing, also known as reverse vishing. In this approach, victims receive emails that appear to originate from reputable companies and warn them of small charges for fake subscriptions. The emails prompt users to call a phone number to cancel the subscription. During these calls, victims are instructed to download remote access software under the guise of resolving the issue. Once the software is installed, SRG gains control of the victim’s device, searches for valuable data, and uses it to demand ransom.  

In March 2025, SRG has adapted their strategy to include voice phishing or vishing. In this new approach, the attackers call employees directly, posing as internal IT staff. These fraudulent callers attempt to convince their targets to join remote access sessions, often under the pretext of performing necessary overnight maintenance. Once inside the system, the attackers move swiftly to locate and exfiltrate data using tools like WinSCP or a disguised version of Rclone. Notably, SRG does not prioritize escalating privileges, instead focusing on immediate data theft. The FBI noted that these voice phishing methods have already resulted in multiple successful breaches. 

SRG reportedly continues to apply pressure during ransom negotiations by making follow-up calls to victim organizations. While the group does maintain a public site for releasing stolen data, its use of this platform is inconsistent, and it does not always follow through on threats to leak information. A significant concern surrounding these attacks is the difficulty in detection. SRG uses legitimate system management and remote access tools, which are often overlooked by traditional antivirus software. The FBI advises organizations to remain vigilant, particularly if there are unexplained downloads of programs such as AnyDesk, Zoho Assist, or Splashtop, or if staff receive unexpected calls from alleged IT personnel. 

In response, the FBI urges companies to bolster cybersecurity training, establish clear protocols for authenticating internal IT requests, and enforce two-factor authentication across all employee accounts. Victims of SRG attacks are encouraged to share any information that might assist in ongoing investigations, including ransom communications, caller details, and cryptocurrency wallet data.
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Malware Attack
Cyber Fraud Cyber Scams cybercriminals data security Financial Fraud Hacking WhatsApp Malicious Code Malware Attack

WhatsApp Image Scam Uses Steganography to Steal User Data and Money

 

With over three billion users globally, including around 500 million in India, WhatsApp has become one of the most widely used communication platforms. While this immense popularity makes it convenient for users to stay connected, it also provides fertile ground for cybercriminals to launch increasingly sophisticated scams. 

A recent alarming trend involves the use of steganography—a technique for hiding malicious code inside images—enabling attackers to compromise user devices and steal sensitive data. A case from Jabalpur, Madhya Pradesh, brought this threat into the spotlight. A 28-year-old man reportedly lost close to ₹2 lakh after downloading a seemingly harmless image received via WhatsApp. The image, however, was embedded with malware that secretly installed itself on his phone. 

This new approach is particularly concerning because the file looked completely normal and harmless to the user. Unlike traditional scams involving suspicious links or messages, this method exploits a far subtler form of cyberattack. Steganography is the practice of embedding hidden information inside media files such as images, videos, or audio. In this scam, cybercriminals embed malicious code into the least significant bits of image data or in the file’s metadata—areas that do not impact the visible quality of the image but can carry executable instructions. These altered files are then distributed via WhatsApp, often as forwarded messages. 

When a recipient downloads or opens the file, the embedded malware activates and begins to infiltrate the device. Once installed, the malware can harvest a wide range of personal data. It may extract saved passwords, intercept one-time passwords, and even facilitate unauthorized financial transactions. What makes this form of attack more dangerous than typical phishing attempts is its stealth. Because the malware is hidden within legitimate-looking files, it often bypasses detection by standard antivirus software, especially those designed for consumer use. Detecting and analyzing such threats typically requires specialized forensic tools and advanced behavioral monitoring. 

In the Jabalpur case, after downloading the infected image, the malware gained control over the victim’s device, accessed his banking credentials, and enabled unauthorized fund transfers. Experts warn that this method could be replicated on a much larger scale, especially if users remain unaware of the risks posed by media files. 

As platforms like WhatsApp continue working to enhance security, users must remain cautious and avoid downloading media from unfamiliar sources. In today’s digital age, even an innocent-looking image can become a tool for cyber theft.
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