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CAPTCHA Cloudfare Cyber Security Internet Login

Cloudfare CAPTCHA Page Tricks Users Into Downloading Malware

Cloudfare CAPTCHA Page Tricks Users Into Downloading Malware

An advanced but simple phishing tactic is being distributed, it deploys fake Cloudflare CAPTCHA pages to target users with malware. 

A recent research by SlashNext says the technique, called  ClickFix tricks users into running commands that deploy malware. ClickFix shows a fake version of Cloudflare’s Turnstile CAPTCHA page. It replicates visual layout and technical elements like Ray ID identifier to look authentic. 

Prompt that users generally miss

The phishing site is hosted on a domain that looks like the real one, or an authentic website that has been attacked. When users visit the site, they are tricked into checking a box called “Verify you are human.” 

This step looks normal and doesn’t raise any suspicion but after this, the users are asked to run a series of commands such as “Win + R” then “Ctrl + V” and after that “Enter.” These steps look harmless but they use a PowerShell command. Once executed, it can extract malware such as Lumma, NetSupport Manager, and Stealc. 

According to security expert Daniel  Kelley, “ClickFix is a social engineering attack that tricks users into running malicious commands on their own devices – all under the guise of a routine security check.” ClickFix is dangerous because it uses standard security measures as attack tools.  

Experts call this “verification fatigue,” where a user clicks through various prompts without proper investigation. "In the context of a familiar-looking Cloudflare page, a user often assumes these extra steps are normal, especially if they’re in a hurry to reach some content. The instructions to press Win+R and Ctrl+V may raise an eyebrow for tech-savvy people, but an average user – seeing official logos and not understanding the implications – can be socially engineered into treating it as an advanced CAPTCHA," Slash reported in the blog.

This tactic doesn't depend on exploiting software flaws, it exploits trust and user habits. 

The phishing page is sent as a single HTML file but includes embedded scripts and hidden code to perform clipboard injections.

It uses genuine Windows utilities and doesn't download executables so that it can escape traditional identification tools. General defenses such as endpoint protection or antivirus software usually aim to detect binaries or suspicious downloads. 

In this incident, users were baited into activating the threat themselves. This underscores the need for sophisticated malware protection with zero-hour defense that can detect clipboard injections and malicious CAPTCHA screens in real-time. 

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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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Ticketmaster
Cyberattacks CyberCrime Cybersecurity CyberThreat data threat Stolen Customer Data Ticketmaster

Stolen Customer Data from Ticketmaster Incident Resurfaces Online

 


Ticketmaster, one of the most prominent ticketing companies in the world, suffered a high-profile cyber-attack in May 2024 that affected the entire digital infrastructure of the company. The incident resulted in the unauthorised exposure of vast amounts of customer data, including personal information and payment details, placing millions of people at risk of harm. There was no doubt that security experts had linked the breach to ShinyHunters, a notorious hacker group known for its involvement in several large-scale data breaches, as well as ransomware attacks. 

Initial investigations suggest that the attackers may have exploited vulnerabilities in cloud-based systems, which reflects the increasing trend for cybercriminals to target third-party platforms and storage systems. Public and regulatory scrutiny has increased as a result of the breach, drawing attention to the increasing frequency and sophistication of cyberattacks on major consumer-facing platforms. 

Ticketmaster's breach serves as a stark warning of the vulnerabilities still present in today's cloud-based digital landscape, as forensic analysis continues and containment efforts are made. This emphasises the need for comprehensive cybersecurity practices and proactive risk mitigation strategies, which are imperative to the success of businesses. As the cybersecurity community went into the weekend, renewed concerns erupted over the claims of a relatively new threat actor operating under the name Arkana Security, which raised alarming concerns. 

Ticketmaster data that was claimed to have just been stolen by a group known as extortion-focused group was reportedly listed on its dark web leak site for sale at over 569 gigabytes, which they claim was newly stolen data. This post, accompanied by screenshots showing internal file directories and database structures, immediately sparked speculation that another large-scale attack had compromised the systems of one of the world's most prominent ticketing platforms, as shown in the screenshots. 

It has been revealed that this misinformation campaign was a deliberate act of misinformation that led to the operation being uncovered. It turns out that cyber analysts have confirmed what initial fears of the public were that the data which is being circulated is not the result of a fresh compromise, but rather is a repackaged version of the same set of data which was exfiltrated during the large-scale attacks of 2024 Snowflake based on credentials.

Previously, these breaches were connected to the notorious ShinyHunters hacking group, which was known for orchestrating numerous coordinated attacks across multiple organisations by utilising weak or poorly managed cloud access credentials to re-activate and monetise previously leaked material.

By misleading potential buyers and reigniting public concern, Arkana Security appears to be trying to revive and monetise previously leaked material. Moreover, this development confirms that public data breaches certainly have a long-tail impact. This also supports the argument that cyber extortion groups are increasingly relying on disinformation and rebranding to prolong the shelf life of stolen assets, thereby making public the fact that data breaches are having a long-tail impact. 

As part of an official statement released by Ticketmaster, it was confirmed that an unauthorised user had accessed a cloud database hosted by a third-party data services provider in an attempt to gain access to it. According to the document submitted to the Maine Attorney General's office, the incident is described as an external system breach, which is explicitly defined as a hacking incident. Following their investigations into Ticketmaster's data, cybersecurity experts determined that Snowflake, a cloud-based data warehouse company that was hosting the data at the time of the intrusion, was the third-party provider responsible for hosting the data. 

The attackers, according to analysts, obtained access by using stolen Snowflake account credentials, which allowed them to access the Ticketmaster database laterally through the platform. These findings suggest that Snowflake's environment may have been compromised; however, Snowflake firmly denied that any platform-level vulnerabilities or misconfigurations led to the breach, asserting that the breach was not due to any weaknesses within its infrastructure. 

Ticketmaster suffered widespread damage from the incident that went well beyond the technical compromise, causing widespread damage across a wide range of aspects of its operations. Financial Repercussions Although the company has not released a public accounting of the financial impact, similar high-profile breaches in the past have shown that significant losses could result. Equifax's 2017 breach, which involved hundreds of millions of users, resulted in a historic $575 million settlement that was the result of similar legal proceedings and regulatory scrutiny, especially given the size and sensitivity of the breached data. 

As a comparison to Equifax's 2017 breach, Ticketmaster's costs could be comparable. Reputational Harm. With Ticketmaster's brand reputation being damaged by this breach, Ticketmaster suffered substantial damage to its brand image. In the aftermath of that breach, the media began to focus on it, sparking a public debate about how such a dominant player in the digital entertainment ecosystem could be so vulnerable. Legal Consequences. 

It was the affected consumers who initiated the class action lawsuit against Ticketmaster and Live Nation Entertainment Inc. after the breach occurred. There is a lawsuit claiming that Ticketmaster did not adopt and implement adequate cybersecurity measures, thereby not fulfilling its duty to protect customer information. According to legal experts, this case could set a precedent in cloud-related breaches involving third-party providers in which responsibility can be given to third parties. Employee Impact.

The breach has not been discussed in public by any Ticketmaster employees, but indirect indicators provide insight into internal sentiment. According to Glassdoor, with over a thousand reviews, the company holds an average rating of 3.9 out of 5, with 83% of employees indicating that they would recommend it to their friends if they were able to find out what was going on. Customer Fallout. In today's interconnected digital environment, where cyberattacks have a wide range of impacts, this multifaceted fallout illustrates just how widespread the consequences of a cyberattack are, where a single breach can impact users, employees, legal entities, and even public trust as a whole. 

As the Ticketmaster breach has grown in importance over the past several years, it has been connected to a wave of coordinated cyberattacks connected with the Snowflake credential compromise incident, which occurred in 2024. As a result of the series of intrusions, a wide range of high-profile organisations, including Santander, AT&T, Neiman Marcus, Advance Auto Parts, Pure Storage, Cylance, and even the Los Angeles Unified School District, were all affected.

There was a well-known cybercriminal organisation called ShinyHunters at the centre of these attacks, a well-known cybercriminal organisation with a long history of obtaining and utilising stolen data to make money for its own. In the investigation that followed, it was discovered that Snowflake, one of the most popular cloud data warehousing services available, was compromised with the credentials used to launch these attacks. 

Once these credentials had been acquired, they could be used to access cloud environments and exfiltrate large volumes of sensitive corporate data from unprotected or poorly monitored endpoints, which had been exploited by infostealer malware. Several ransoms were demanded from victims for the theft of their confidential information, forcing them to choose between paying ransoms or revealing their private information to the public. A high-profile and widely extorted entity was Ticketmaster out of all those that had been affected.

There was unauthorised access gained by the attackers to databases that contained personal user information as well as ticketing records, which were listed on underground forums shortly after being accessed by the attackers. Ticketmaster took action to rectify the situation in late May 2024, and by data protection regulations, they notified affected customers of the breach. 

In order to increase pressure and maximise attention, the attackers published what they alleged to be "print-at-home" tickets, which allegedly included tickets associated with Taylor Swift concerts. This was a move that was clearly intended to arouse public interest and exert reputational pressure upon the attackers. In spite of Arkana Security, a relatively new group in the cyber extortion space, later surfacing with claims that it had fresh data from Ticketmaster, forensic analysis quickly uncovered inconsistencies despite the claim. 

In the file names and metadata, Arkana made reference to earlier leaks associated with ShinyHunters, suggesting that they repackaged and attempted to resell previously stolen data under the guise of a new breach, which is a sign that Arkana was trying to resell stolen data. The exact nature of Arkana’s involvement remains unclear. As far as I know, there is no way to tell whether the group acquired the data by purchasing it previously, whether they are acting as intermediaries for ShinyHunters, or if they are acting as part of the original threat operation, using a new alias. 

Whatever the role of the cybercriminals involved in the situation is, they remain a persistent and ever-evolving threat to the cyber community because they constantly recycle stolen information in order to reap the rewards of their efforts. Additionally, this reflects a broader trend where cybercriminals thrive on misinformation, duplication of data, and psychological manipulations aimed at both potential victims as well as buyers. 

In light of the Ticketmaster incident as well as the broader Snowflake-linked cyberattacks, it is imperative that organizations reevaluate their security posture concerning their cloud-based ecosystems and third-party services integrations in light of the Ticketmaster incident. It is important to realise that even industry giants are susceptible to persistent and well-planned cyber attacks, which have been demonstrated by this breach. 

As threat actors become more proficient at repackaging stolen data, leveraging digital supply chains to intensify extortion, and utilising misinformation to intensify extortion, businesses have to go beyond reactive containment as they become more agile. There is no longer a need for optional measures such as continuous credential hygiene, endpoint hardening, zero-trust architectures, and transparent vendor risk management; they have now become fundamental to security. 

Additionally, all companies must have a strategy in place to respond to cyber crises that ensures clear communication with stakeholders, timely disclosure of incidents, and legal preparedness. It's no secret that cybersecurity is changing very quickly. Only organisations that treat cybersecurity as a dynamic, business-critical function - and not as a checkbox - will be able to withstand attacks in the future.
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Vulnerabilities and Exploits
Command Injection Linux Mirai botnet Netsecfish Vulnerabilities and Exploits

Mirai Botnet Variant is Building Swarm by Exploiting DVR Flaw

 

A command injection flaw in internet-connected digital video recorders used for CCTV monitoring is the target of a Mirai botnet malware variant, which allows hackers to take over the devices and add them to a botnet. 

Cybersecurity researchers at Russian cybersecurity firm Kaspersky discovered a CVE-2024-3721 exploit while analysing logs from their Linux honeypot system. The issue is a command injection vulnerability found in internet-connected digital video recorders used for CCTV surveillance. Further analysis revealed that the activity was related to a form of the Mirai botnet, which exploited this issue in TBK-manufactured DVR devices to compromise and control them. 

The vulnerability was initially discovered by security researcher "netsecfish" in April 2024. By adjusting parameters like mdb and mdc, the researcher released a proof-of-concept showing how a carefully designed post request to a specific URL can trigger shell command execution. Kaspersky confirmed that this precise technique is being utilised in the wild, with its Linux honeypots catching ongoing exploitation attempts linked to a Mirai botnet variant that uses netsecfish's proof-of-concept to compromise vulnerable DVRs. 

Nearly a decade ago, an anonymous source made the Mirai source code available online. It continues to act as the foundation for other evolving botnet efforts. The variant aimed at DVR systems expands on Mirai's initial foundation with extra features such as RC4-based string obfuscation, checks to avoid virtual machine environments, and anti-emulation methods. 

The exploit is used by the attackers to transmit a malicious ARM32 program to the target device, which then connects to a command-and-control server and joins the botnet. The infected device can be used to launch distributed denial-of-service attacks, forward malicious traffic, and engage in other malicious actions.

This Mirai variation uses a basic RC4 technique to decode its internal strings, with the decryption key disguised using XOR. After decryption, the strings are saved in a global list and used throughout runtime. To evade analysis, the virus runs anti-virtualization and anti-emulation checks on active processes for indicators of environments such as VMware or QEMU.

Last year, Netsecfish reported that around 114,000 DVR devices were vulnerable to CVE-2024-3721. Kaspersky estimates the figure to be closer to 50,000. The majority of infections associated with this Mirai variation are found in Brazil, Russia, Egypt, China, India, and Ukraine.
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Sensata Technologies data breach
Cyber Attacks employee data exposed ransomware attack April 2025 Sensata cybersecurity incident Sensata Technologies data breach

Sensata Technologies Confirms Data Breach After April Ransomware Attack, Notifies Employees of Exposed Personal Information

 

Sensata Technologies has begun notifying current and former employees of a data breach following the conclusion of an internal investigation into a ransomware attack that took place in April 2025.

A global leader in industrial technology, Sensata specializes in mission-critical sensors, controls, and electrical protection systems, serving sectors such as automotive, aerospace, and defense. The company generates annual revenues exceeding $4 billion.

The breach was initially disclosed in an 8-K filing with the U.S. Securities and Exchange Commission (SEC) after a ransomware attack occurred on Sunday, April 6. At the time, Sensata confirmed that the incident included data exfiltration and disrupted its shipping, manufacturing, and other operations.

While early findings verified that data had been accessed without authorization, the specifics of the stolen information remai5ned unclear. A detailed investigation, supported by external cybersecurity experts, later revealed that the attackers infiltrated Sensata’s systems on March 28, 2025.

"The evidence showed that there was unauthorized activity in our network between March 28, 2025, and April 6, 2025," reads the notice sent to impacted persons.

"During that time, an unauthorized actor viewed and obtained files from our network. We conducted a careful review of the files and, on May 23, 2025, determined that one or more of them may have contained your information."

According to the company, the compromised data may include sensitive personal details such as:
  • Full name
  • Address
  • Social Security Number (SSN)
  • Driver’s license number
  • State ID card number
  • Passport number
  • Financial account and payment card details
  • Medical and health insurance information
  • Date of birth
The breach has affected both current and former employees, as well as their dependents, with the nature of the exposed data varying from person to person.

To support those affected, Sensata is offering one year of complimentary credit monitoring and identity theft protection services.

BleepingComputer has contacted the company to clarify the scale of the breach and the number of individuals impacted, but no response was received as of publication time.

So far, no ransomware group has claimed responsibility for the attack on Sensata Technologies.
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Social Engineering
Cyber Attacks Extortion FBI Luna Moth Ransomware attack Social Engineering

FBI Warns of Luna Moth Ransomware Attacks Targeting U.S. Law Firms

 

The FBI said that over the last two years, an extortion group known as the Silent Ransom Group has targeted U.S. law firms through callback phishing and social engineering tactics. 

This threat outfit, also known as Luna Moth, Chatty Spider, and UNC3753, has been active since 2022. It was also responsible for BazarCall campaigns, which provided initial access to corporate networks for Ryuk and Conti ransomware assaults. Following Conti's shutdown in March 2022, the threat actors broke away from the cybercrime syndicate and created their own operation known as the Silent Ransom Group.

In recent attacks, SRG mimics the targets' IT help via email, bogus websites, and phone conversations, gaining access to their networks via social engineering tactics. This extortion group does not encrypt victims' systems and is infamous for demanding ransoms in order to keep sensitive information stolen from hacked devices from being leaked online. 

"SRG will then direct the employee to join a remote access session, either through an email sent to them, or navigating to a web page. Once the employee grants access to their device, they are told that work needs to be done overnight," the FBI stated in a private industry notification.

"Once in the victim's device, a typical SRG attack involves minimal privilege escalation and quickly pivots to data exfiltration conducted through 'WinSCP' (Windows Secure Copy) or a hidden or renamed version of 'Rclone.'” 

After acquiring the victims' data, they use ransom emails to blackmail them, threatening to sell or publish the information. They frequently call employees of breached organisations and force them into ransom negotiations. While they have a dedicated website for disclosing their victims' data, the FBI claims the extortion ring does not always followup on its data leak promises. 

To guard against these attacks, the FBI recommends adopting strong passwords, activating two-factor authentication for all employees, performing regular data backups, and teaching personnel on recognising phishing efforts.

The FBI's warning follows a recent EclecticIQ report detailing SRG attacks targeting legal and financial institutions in the United States, with attackers observed registering domains to "impersonate IT helpdesk or support portals for major U.S. law firms and financial services firms, using typosquatted patterns.”

A recent EclecticIQ report about SRG attacks against American legal and financial institutions revealed that the attackers were registering domains to "impersonate IT helpdesk or support portals for major U.S. law firms and financial services firms, using typosquatted patterns." The FBI issued the warning in response to this information. 

Malicious emails with fake helpdesk numbers are being sent to victims, prompting them to call in order to fix a variety of non-existent issues. On the other hand, Luna Moth operators would try to deceive employees of targeted firms into installing remote monitoring & management (RMM) software via phoney IT help desk websites by posing as IT staff.

Once the RMM tool is installed and started, the threat actors have direct keyboard access, allowing them to search for valuable documents on compromised devices and shared drivers, which will then be exfiltrated via Rclone (cloud syncing) or WinSCP (SFTP). According to EclecticIQ, the Silent Ransom Group sends ransom demands ranging from one to eight million USD, depending on the size of the hacked company.
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Online Security
Cyber Scammers Cyber Security Dark Web Dark web malware Dark web marketplace Dark Web Monitoring Illegal Sites Malwares Online Security

Why Exploring the Dark Web Can Lead to Legal Trouble, Malware, and Emotional Harm

 

Venturing into the dark web may seem intriguing to some, but even well-intentioned users are exposed to significant risks. While many people associate the dark web with illegal activity, they may not realize that just browsing these hidden spaces can lead to serious consequences, both legal and emotional. Unlike the regulated surface web, the dark web operates with little to no oversight, which makes stumbling across disturbing or illicit content dangerously easy.

A simple click on an unfamiliar link can redirect users to graphic or illegal material. This content is not always clearly labeled, and visitors may not realize what they’re seeing until it’s too late. In several jurisdictions, merely viewing certain types of content—whether or not you meant to—can have legal repercussions. Users may also experience lasting psychological impact after encountering explicit or violent media. Reports of anxiety, stress, and trauma are not uncommon, even among casual users who were simply exploring out of curiosity.  

Malware, spyware, and keyloggers are often disguised as legitimate downloads or hidden in popular tools. Many websites host dangerous files designed to infect your device as soon as they are opened. Even privacy-focused platforms like Tor can’t fully shield users from malicious code or phishing attempts, especially when browsers are misconfigured or when users interact with suspicious content. 

Technical errors—like enabling JavaScript, resizing your browser window, or leaking DNS requests—can also expose your identity, even if you’re using encrypted tools. Cybersecurity professionals warn that mistakes like these are common and can be exploited by attackers or even government agencies. Law enforcement agencies actively monitor known dark web nodes and can use advanced techniques to track user behavior, collect metadata, and build profiles for surveillance. 

Additionally, scammers thrive in the anonymous environment of the dark web. Fake login portals, spoofed forums, and crypto wallet traps are rampant. And if you’re scammed, there’s little you can do—there are no refund options or customer service teams to help you recover lost funds or data. 

The dark web is often underestimated, constant exposure to unsettling content and the need to stay hyper-aware of threats can wear down a person’s sense of safety and trust. In many cases, the psychological damage can linger far longer than the browsing session itself. 

In short, exploring the dark web without a thorough understanding of the dangers can backfire. It’s a space where curiosity offers no protection, and the consequences—ranging from infections and identity loss to legal charges and emotional distress—can affect even the most cautious users.
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WhatsApp hacking Italy
COPASIR report Giorgia Meloni surveillance Italian intelligence Italy spyware scandal malware Paragon spyware Italy WhatsApp hacking Italy

Italy Ends Spyware Deal with Israeli Firm Paragon Amid Surveillance Allegations

 

Italy and Israeli surveillance tech company Paragon have terminated their partnership after accusations surfaced that the Italian government misused the spyware to target critics, according to a parliamentary report released Monday and a statement from Paragon.

While both parties confirmed the cessation of their collaboration, their accounts differ, sparking backlash from opposition lawmakers in Italy. The National Federation of the Italian Press (FNSI) urged prosecutors to investigate the matter thoroughly.

In January, a WhatsApp representative from Meta revealed that the spyware had been used to target several individuals in Italy, including a journalist and members of the Mediterranea migrant rescue organization, known for criticizing Prime Minister Giorgia Meloni.

The Italian government acknowledged in February that seven mobile users had been affected by the spyware, but denied any wrongdoing. It also claimed to have tasked the National Cybersecurity Agency with investigating the issue.

A recent report by the parliamentary security oversight committee, COPASIR, indicated that Italian intelligence agencies initially paused and later terminated their use of Paragon’s technology after public backlash. The exact timing of the contract’s termination remains unclear, especially since the government had stated on February 12 that the agreement was still active.

COPASIR also noted it found no proof that journalist Francesco Cancellato, the editor of Fanpage and an alleged spyware target, had actually been surveilled using Paragon’s tools, as he had reported to Reuters and other media.

Paragon, in a statement published by Fanpage, claimed it ceased providing services to Italy after Cancellato’s case became public, and said the government rejected its offer for a joint investigation into the matter.

The company declined to respond to Reuters' request for comment.

Opposition leaders demanded that the government provide transparency in parliament. A spokesperson for Prime Minister Meloni declined to comment.

According to the COPASIR report, Italian domestic and foreign intelligence agencies signed contracts with Paragon in 2023 and 2024 respectively. The spyware was reportedly used in limited cases, under judicial authorization, for national security purposes including tracking fugitives, countering illegal immigration, investigating terrorism and organized crime, and conducting anti-espionage operations.
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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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VPN
CISA Cyber Security FBI Ransomware VPN

FBI Urges Immediate Action as Play Ransomware Attacks Surge

 


The Federal Bureau of Investigation (FBI) and the U.S. Cybersecurity and Infrastructure Security Agency (CISA) have released a critical warning about the sharp rise in Play ransomware attacks. The agencies report that this cyber threat has affected hundreds of organizations across the Americas and Europe, including vital service providers and businesses.

The updated alert comes after the FBI identified over 900 confirmed victims in May alone, which is three times more than previously reported. Cybersecurity experts are urging organizations to act quickly to strengthen their defenses and stay informed about how these cybercriminals operate.


How the Play Ransomware Works

Play ransomware attackers use various advanced methods to break into systems. They often start by targeting services that are accessible from outside, like Remote Desktop Protocol (RDP) and Virtual Private Networks (VPNs). Once they gain access, they move within the network, stealing login details and aiming to control the system entirely.

The FBI notes that the attackers do not immediately demand payment in their ransom notes. Instead, they leave email addresses that victims must contact. These emails usually come from unique addresses linked to German domains. In some cases, the criminals also make threatening phone calls to pressure victims into paying.


Connections to Other Threat Groups

Investigations suggest that the Play ransomware may be connected to several known hacking groups. Some security researchers believe there could be links to Balloonfly, a cybercrime group involved in earlier ransomware attacks. There have also been reports connecting Play to serious security incidents involving Windows systems and Microsoft Exchange servers.

In the past, attackers have taken advantage of security flaws in popular software, including Microsoft’s Windows and Fortinet’s FortiOS. Most of these security gaps have already been fixed through updates, but systems that remain unpatched are still at risk.


Key Steps to Protect Your Organization

The FBI strongly recommends that all organizations take immediate steps to reduce their risk of falling victim to these attacks. Here are the essential safety measures:

1. Create backup copies of important data and store them in secure, separate locations.

2. Use strong, unique passwords that are at least 15 characters long. Do not reuse passwords or rely on password hints.

3. Enable multi-factor authentication to add extra security to all accounts.

4. Limit the use of admin accounts and require special permissions to install new software.

5. Keep all systems and software up to date by applying security patches and updates promptly.

6. Separate networks to limit how far a ransomware attack can spread.

7. Turn off unused system ports and disable clickable links in all incoming emails.

8. Restrict the use of command-line tools that attackers commonly use to spread ransomware.

Staying alert and following these steps can help prevent your organization from becoming the next target. Cybersecurity is an ongoing effort, and keeping up with the latest updates is key to staying protected.

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North Korea
Black Mail Businesses Crypto Cyber Crime Extortion NFTs North Korea

US Seizes $7.7 Million From Crypto Linked to North Korea's IT Worker Scam


The US Department of Justice has filed a civil forfeiture complaint against North Korean IT workers for illegally gaining employment with US businesses, and earning millions for the Korean government, which amounts to violations of sanctions.

The government seized $7.7m in funds in 2023 that involved Sim Hyon Sop- a worker at the North Korean Foreign Trade Bank (FTB) who joined hands with IT workers to launder the money for Pyongyang.

According to the complaint, the North Korean IT workers escaped security via fraud IDs and tactics that hid their real location. The salaries were credited in stablecoins like USDT and USDC.

To launder the money, employees created accounts using fake IDs, transferred funds in small amounts to other blockchains (chain hopping), and/or converted them into other digital currencies (token swapping).

Scammers also bought non-fungible tokens (NFTs) and used US accounts to make their operations look real. Sim worked with Kim Sang Man, the CEO of the “Jinyong IT Cooperation Company,” who served as a middleman between the FTB and the IT workers. 

According to the Justice Department’s National Security Division, North Korea, for years has “exploited global remote IT contracting and cryptocurrency ecosystems to evade US sanctions and bankroll its weapons programs.” 

Department head Sue Bai said, “Today’s multimillion-dollar forfeiture action reflects the Department’s strategic focus on disrupting these illicit revenue schemes. We will continue to use every legal tool available to cut off the financial lifelines that sustain the DPRK and its destabilizing agenda.”

North Korean IT workers have been slithering their way into employment in US firms for many years.  However, the advancement of these operations was exposed in 2024 when security expert KnowBe4 disclosed that even their organization was tricked into hiring an IT specialist from North Korea.

After that, Google has cautioned that US businesses remain a primary target and also warned that the threat actors have nor started focusing their operations at Europan firms.  While few do normal work to get paid, there is also a concern that their organization access allows them to extract important data and use it for extortion.

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smart device malware
Android TV botnet FBI cyber alert home network protection internet security risks IoT malware threat malware residential proxy botnet smart device malware

FBI Issues Alert as BADBOX 2.0 Malware Infects Over 1 Million Devices, Hijacking Home Networks Worldwide

 

The FBI has issued a critical warning regarding a massive malware campaign—dubbed BADBOX 2.0—which has compromised over 1 million Internet-connected consumer devices, including smart TVs, Android tablets, projectors, and streaming boxes. The malware, often embedded in Chinese-manufactured IoT devices, turns them into residential proxies exploited by cybercriminals to mask their activities.

"The BADBOX 2.0 botnet consists of millions of infected devices and maintains numerous backdoors to proxy services that cyber criminal actors exploit by either selling or providing free access to compromised home networks to be used for various criminal activity," the FBI stated.

The infection typically occurs when users purchase devices preloaded with malicious firmware or unknowingly install compromised apps from third-party stores or, occasionally, even Google Play. During initial setup, these apps introduce backdoors, linking the devices to command and control (C2) servers, where attackers remotely execute various malicious operations.

These include:
  • Residential Proxy Networks: Using victims' home IP addresses to route traffic and hide malicious activity.
  • Ad Fraud: Background ad-clicking to generate illegitimate revenue.
  • Credential Stuffing: Attempting unauthorized logins using stolen credentials, hidden behind compromised IPs.
"Cyber criminals gain unauthorized access to home networks by either configuring the product with malicious software prior to the users purchase or infecting the device as it downloads required applications that contain backdoors, usually during the set-up process," the FBI added.

The original BADBOX malware was discovered in 2023 on low-cost Android TV boxes such as the T95. Though a 2024 takedown effort by Germany’s cybersecurity agency temporarily crippled the botnet by disrupting its infrastructure, attackers quickly rebounded. Within a week, nearly 192,000 new infections were recorded—including among more reputable devices like Yandex TVs and Hisense smartphones.

According to HUMAN's Satori Threat Intelligence, over 1 million devices were compromised by March 2025. The malware predominantly affects Android Open Source Project (AOSP) devices—not those certified by Google Play Protect or running official Android TV OS. Researchers observed BADBOX 2.0 activity in 222 countries and territories, with the highest infection rates reported in Brazil (37.6%), the United States (18.2%), Mexico (6.3%), and Argentina (5.3%).

"This scheme impacted more than 1 million consumer devices. Devices connected to the BADBOX 2.0 operation included lower-price-point, 'off brand', uncertified tablets, connected TV (CTV) boxes, digital projectors, and more," explains HUMAN.

Despite another coordinated disruption effort by HUMAN, Google, Trend Micro, and other partners—successfully preventing 500,000 infected devices from reaching command servers—the malware campaign persists, fueled by ongoing global sales of vulnerable devices.

Red flags indicating BADBOX 2.0 infection include:

  • Suspicious or third-party app stores preloaded on the device
  • Disabled Google Play Protect
  • Claims of free or unlocked streaming access
  • Unbranded or unknown device manufacturers
  • Unusual Internet traffic patterns

The FBI advises consumers to take the following precautions:

  • Audit all connected smart devices for abnormal behavior
  • Avoid downloading apps from unofficial sources
  • Monitor home network traffic regularly
  • Ensure devices are updated with the latest firmware
  • Immediately disconnect any suspected devices from the Internet
If compromised, isolating the affected device from the network can help prevent further damage and disrupt the malware’s control path.

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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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Spyware
malware Mozambique Predator Spyware

Predator Spyware Activity Resurfaces in Mozambique Using Novel Techniques

 

The recent discovery of new equipment tied to Predator spyware implies that the surveillance technology is still finding new customers, despite the fact that its backers have faced rounds of US sanctions since July 2023.

In a research published earlier this week, researchers at Insikt Group claim to have linked the sophisticated spyware to operators in Mozambique for the first time. According to Insikt, Mozambique is one of many African countries where the spyware has arrived, with the continent accounting for more than half of all known Predator users.

A further discovery in the investigation reveals "the first technical connection made between Predator infrastructure and corporate entities associated with the Intellexa Consortium," according to Insikt, referring to the organisation believed to be supporting Predator. Intellexa was among the entities sanctioned by the United States.

The revelation is the result of an Insikt investigation into entities tied to Dvir Horef Hazan, a Czech bistro owner, entrepreneur, and programmer who a Czech news site claims worked for Intellexa. A Greek law enforcement investigation into the possible Predator targeting of journalist Thanasis Koukakis further claimed that Intellexa transferred about €3 million (around $3.5 million) to Hazan and his enterprises.

The specifics of Hazan's alleged work for Intellexa are unclear, but Insikt claims it discovered a link between Predator's multi-tiered infrastructure and a Czech business indirectly linked to Hazan. 

According to the researchers, Predator's basic infrastructure has remained mostly unchanged, although there is evidence that operators have developed the spyware to make it more difficult to detect on a device. 

Insikt's recent findings reflect prior allegations indicating that Predator activities persisted following the US government's measures in July 2023. Initially, the Commerce Department placed Intellexa and a subsidiary unit, Cytrox, on the Entity List, which limits how companies conduct business with the United States and tarnish their reputation. Then, in 2024, federal agencies acted twice to ban Predator-related organisations.
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Zero-day Vulnerability and Exploits
Critical security flaw Cyberattacks CyberCrime Cybersecurity CyberThreat FortiGate Fortinet Bugs Qilin Ransomware VPN Zero-day Vulnerability and Exploits

Qilin Ransomware Actors Take Advantage of Newly Discovered Fortinet Bugs

 


The recently observed increase in ransomware activity linked to the Qilin group has sparked alarms throughout the cybersecurity industry. As a result of these sophisticated Ransomware-as-a-Service (RaaS) operations operating under multiple aliases, including Phantom Mantis and Agenda, Fortinet's recent critical vulnerability disclosures have made it possible for this operation to actively exploit two critical Fortinet vulnerabilities. 

Operators of Qilin can exploit these flaws in order to gain unauthorised access to targeted networks and to run malicious code on them, sometimes without any detection by the targeted network. Qilin is stepping up its tactics by exploiting these Fortinet vulnerabilities, signalling a shift in strategy to target enterprise security infrastructure deployed throughout the world. Consequently, organisations from a variety of sectors — ranging from healthcare and finance to government and critical infrastructure — have now become targets of an expanding global threat campaign. 

According to researchers at the company, the group's ability to weaponise newly discovered vulnerabilities so quickly demonstrates both the group's technical sophistication as well as the importance of adopting a proactive, vulnerability-focused security posture as a result of their rapid growth. As the trend of ransomware groups exploiting zero-day or newly patched vulnerabilities to bypass perimeter defences and gain persistent access is growing, this wave of attacks underscores the trend. 

There is no doubt that Qilin's campaign not only proves how effective it is to exploit trusted security platforms like Fortinet, but it also illustrates a more general evolution in the ransomware ecosystem, in which ransomware groups are constantly scaling and refining their methods to maximise their impact and reach within the ecosystem. 

With various aliases — including Phantom Mantis and Agenda — the Qilin ransomware group has increased the level of malicious activity they are able to conduct by exploiting critical Fortinet security vulnerabilities. It has been shown that these exploits provide attackers with the ability to bypass authentication controls, deploy malicious payloads remotely, and compromise targeted networks with alarming ease. 

It is important to note that since Qilin first emerged in August 2022 as a Ransomware-as-a-Service provider (RaaS), the company has been growing rapidly. The company has rolled out sophisticated ransomware toolkits to affiliate actors and is expanding into many different areas. Over 310 organisations around the world have been linked to Qilin breaches, spanning a range of sectors that include the media, healthcare, manufacturing, and government services sectors. 

Court Services Victoria in Australia, Yangfeng, Lee Enterprises, and Synnovis are a few of the most notable victims of the cyberattack. Several companies have been affected by the attack, and the group has demonstrated a high level of operational maturity and the capability to adapt tactics quickly by exploiting newly discovered vulnerabilities in widely used enterprise infrastructure systems. 

Experts consider Qilin's aggressive campaign to be a part of a broader trend in which RaaS actors are increasingly targeting foundational security platforms in order to extort high-value ransoms and maximise disruption. Several threat actors are actively exploiting two highly critical vulnerabilities in Fortinet's network security products, identified as CVE-2024-55591 and CVE-2024-21762, in the latest wave of Qilin ransomware activity. 

Neither of these vulnerabilities is classified as critical, but they do allow remote attackers to bypass authentication mechanisms and execute arbitrary code on compromised systems, allowing them to take complete control of the system. Although there are many cybercriminal groups that have exploited these vulnerabilities in the past, Qilin's use of them underscores that unpatched Fortinet devices are still an entry point into enterprise environments that criminal groups can exploit. 

Although these vulnerabilities have been disclosed publicly and patches have been released, thousands of Fortinet appliances remain vulnerable, which poses a significant risk to a significant number of organisations. IT administrators and security teams must prioritise patch management and hardening of systems at the earliest opportunity in order to prevent vulnerabilities from occurring in the future. 

According to a Fortinet expert, organisations utilising its products should immediately assess their infrastructure for signs of compromise and apply the latest firmware updates or temporary mitigation measures according to the vendor's recommendations. It is important for organisations relying on Fortinet products to address these vulnerabilities immediately, as failure to do so could result in devastating ransomware attacks, data breaches, and prolonged disruptions to operations. 

As the Qilin ransomware group emerged in August 2022 under the alias Phantom Mantis and Agenda, it has steadily increased its presence on the cyber threat landscape, steadily increasing its presence. In addition to operating as a Ransomware-as-a-Service (RaaS) provider, Qilin claims that it has compromised more than 310 organisations in a variety of different industries. 

This company’s most recent campaign reflects a highly targeted and technologically advanced approach, mainly focusing on exploiting known vulnerabilities within Fortinet’s FortiGate appliances, such as CVE-2024-21762 and CVE-2024-55591, found in Fortinet’s security appliances. This vulnerability can act as a critical attack vector, allowing threat actors to breach security controls, penetrate network perimeters, and launch widespread ransomware deployments within the affected environment as a result of these flaws. 

There is one aspect that sets Qilin apart from other ransomware groups: Rather than relying primarily on phishing or brute force methods, its strategic focus is on exploiting vulnerabilities in core enterprise infrastructure. Especially in the ability for the group to identify and exploit architectural weaknesses within widely deployed network security solutions, this evolving threat model exemplifies a high level of sophistication among the group members. 

It appears that this group is attempting to exploit the authentication and session management vulnerabilities of FortiGate systems to establish unauthorised access to networks, as well as maintain persistence within these compromised networks. It is clear from the methodical exploitation that the attackers have a deep understanding of enterprise defence mechanisms and are demonstrating a shift away from ransomware tactics to compromise infrastructure. 

Such attacks pose substantial risks. By infiltrating the first line of defence, which is normally a security infrastructure, Qilin's operations effectively neutralise conventional defence layers, enabling internal systems to be compromised and exposed to data exfiltration through lateral movement. There are a number of consequences for organisations that have been affected by this ransomware attack, including severe operational disruption, the loss of sensitive data, the violation of regulations, as well as long-term reputational damage. 

Because of this, organisations are required to reassess their vulnerability management strategies, to ensure timely patching of known vulnerabilities, as well as adopt a more proactive security posture to mitigate the threat that advanced ransomware actors like Qilin are posing to their organisations. This latest ransomware campaign from Qilin exploits vulnerabilities that have a troubling history within the security community, particularly CVE-2024-55591 and CVE-2024-21762. CVE-2024-55591, for example, had been exploited as a zero-day vulnerability as early as November 2024 by several threat actors who used it as a zero-day exploit.

It is worth mentioning that the Mora_001 ransomware operator used the vulnerability to deliver the SuperBlack ransomware strain, which is linked by Forescout researchers to the notorious LockBit cybercrime syndicate. By recurring abuse of Fortinet vulnerabilities, we can see how these flaws continue to be appealing to a wide variety of threat actors, from criminal gangs to state-sponsored espionage groups.

Fortinet patched the second vulnerability in early February of 2025, CVE-2024-21762. Upon discovering the threat this vulnerability posed, the U.S Cybersecurity and Infrastructure Security Agency (CISA) swiftly added it to its Known Exploited Vulnerabilities (KEV) catalogue and instructed federal agencies to secure all affected FortiOS and FortiProxy devices by the end of February. However, despite these warnings, widespread vulnerability persisted. 

By the middle of March, the Shadowserver Foundation reported nearly 150,000 devices across the globe remained unpatched and vulnerable. This underscores a critical gap in patch adoption and risk mitigation within corporations. Fortinet's network security products have been a frequent target of exploitation over the years, and they have served as the first point of entry for both cyber-espionage campaigns and financial ransomware attacks over the years. 

It has been revealed recently by Fortinet that in a separate incident earlier this year, Chinese state-sponsored threat group Volt Typhoon exploited two old SSL VPN vulnerabilities (CVEs 2020-22475 and 2022-2997) to deploy a custom remote access trojan, dubbed Coathanger, within the Dutch Ministry of Defense's military network, exploitation two older SSL VPN vulnerabilities. As a result of these repeated and high-impact incidents, the threat pattern is consistently one of Fortinet devices being targeted due to their widespread deployment and their vital role in enterprise network security in enterprises. 

In order to expand their reach and refine their tactics, ransomware groups such as Qilin will likely continue to focus on exploiting foundational security infrastructure such as Fortinet firewalls and VPNs, so it is likely that they will continue to use this technique. Taking into account these developments, it is becoming increasingly apparent that organisations need to put security first, prioritising continuous vulnerability assessment, timely patching, and a robust incident response strategy in order to be able to protect themselves against the increasing sophistication and persistence of threat actors operating in the digital era. 

There has been a noticeable shift in Qilin's operational strategy, according to threat intelligence firm PRODAFT, which has been characterised by a shift to partially automated attacks on FortiGate firewalls that are not patched. It appears that the campaign is influenced by Spanish-speaking regions, but the tactics employed remain largely opportunistic, utilising vulnerable devices regardless of their location, despite the fact that there is a distinct geographic bias toward these regions. 

A key exploit technique identified, CVE-2024-55591, has been linked to the deployment of the SuperBlack ransomware variant, which is closely linked with the LockBit cybercriminal ecosystem, as well as with the deployment of the SuperBlack ransomware. The U.S. Cybersecurity and Infrastructure Security Agency (CISA) issued urgent patching instructions in February 2025 to patch nearly 150,000 devices vulnerable to the second critical flaw, CVE-2024-21762. 

Even though widespread awareness of this flaw is widespread, nearly 150,000 devices are still vulnerable. Although these devices are still unpatched, this symptom of security lapses that continue to be exploited by ransomware operators illustrates a critical security vulnerability that is still prevalent. Because of their widespread use in enterprise environments, Fortinet appliances remain a high value target, and organizations must act decisively and immediately to minimize those risks in order to reduce them. 

In order to maintain a secure environment, security teams should take a proactive approach and apply security patches as soon as they are released and ensure that FortiGate and FortiProxy appliances are strictly monitored. Among the measures that we should take are the deployment of intrusion detection and prevention systems, the analysis of real-time logs for suspicious behaviour, and the segmentation of high-value assets within networks to prevent lateral movement. 

A defence-in-depth strategy must also be implemented with endpoint protection, segmentation of the network, integration of threat intelligence, and regular audits of security practices in order to boost resilience against increasingly automated and targeted ransomware attacks. With the increasing complexity and scale of cyberattacks, it is becoming increasingly important for organisations to maintain continuous visibility and control of their security infrastructure, so as to protect their organisational integrity. It is no longer optional.

As a result of the escalating threat landscape and the calculated use of core enterprise infrastructure by the Qilin ransomware group, organisations need to move beyond reactive cybersecurity practices and develop a forward-looking security posture. Organisations must keep vigilance on new vulnerabilities to minimise the speed and precision with which threat actors exploit them. Continuous vulnerability intelligence, rigorous patch lifecycle management, and real-time system integrity monitoring are essential to combating these threats.

Organisations need to integrate threat-aware defence mechanisms that account for both technical weakness and adversarial behaviour—merely deploying security solutions is no longer enough. By investing in automated detection systems, segmenting critical assets, multifactor authentication, and creating secure configuration baselines, we can significantly reduce the attack surface. 

Furthermore, establishing a culture of cybersecurity readiness—through continuous workforce training, tabletop exercises, and simulations of an incident response scenario—ensures that when preventative measures do not work, we are resilient. A growing number of ransomware attacks, especially those such as Qilin, which exploit security technologies themselves, are becoming increasingly complex and scaled up, so securing the digital perimeter should become an executive-level priority that is supported by adequate resources, measurable accountability, and executive commitment.
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