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political microtargeting
AI misinformation AI regulation Brazil elections 2026 Cambridge Analytica Cyber Security Deepfakes election transparency political microtargeting

Brazil Strengthens AI Election Rules Amid Growing Concerns Over Democratic Integrity

 

As Brazil gears up for its 2026 presidential election, concerns about the role of Artificial Intelligence in shaping public opinion and influencing democratic processes are becoming increasingly prominent. In response to the growing misuse of AI in political campaigns, Brazil’s Superior Electoral Court has introduced new measures aimed at increasing transparency around manipulated content and curbing the spread of misinformation. 

The decision reflects a broader global concern about the extent to which AI can influence voters and interfere with electoral outcomes. In recent years, the risks associated with AI in politics have become more apparent as deepfakes, digitally altered videos, images, and audio clips have circulated widely across social media platforms. Such content is often designed to mislead voters, damage candidates’ reputations, or influence public perception. 

T One of the most notable examples emerged during the 2024 United States primary elections, when voters received phone calls featuring an AI-generated version of former President Joe Biden’s voice. The recording urged citizens not to vote, demonstrating how synthetic media can be used to manipulate electoral participation and blur the line between authentic and fabricated information. 

T Beyond deepfakes, AI plays a significant role in determining how political content reaches voters. Recommendation algorithms influence what users see on social media, while advanced data-analysis tools enable campaigns to study voter behavior and preferences. This has contributed to the rise of political microtargeting, a strategy that delivers highly personalized political messages to specific audiences based on their interests, opinions, and online activities. 

T Concerns about data-driven political influence are not new. The Cambridge Analytica scandal brought global attention to how personal data could be used to shape political messaging. The company used Facebook user data to create targeted campaign content, sparking international debates about digital privacy, large-scale data collection, and the ethical use of algorithms in politics. The Netflix documentary The Great Hack further explored how personal data evolved into a powerful tool capable of influencing public opinion and electoral decisions. 

T Despite these challenges, AI is not viewed solely as a threat. The technology is increasingly being used to detect misinformation networks, identify fake accounts, and support efforts to remove manipulated content. AI-powered systems can also help journalists, researchers, and fact-checking organizations track the spread of false information in real time, making responses to misinformation faster and more effective. Companies such as Meta and Google have introduced automated tools that can detect synthetic media, identify coordinated disinformation campaigns, and label AI-generated content across their platforms. 

T At the same time, governments worldwide are exploring ways to regulate the use of AI during elections. The European Union has introduced the AI Act, one of the first major legislative frameworks designed specifically to regulate artificial intelligence. Meanwhile, Canada has been discussing measures to improve transparency around AI-generated political content, while the United Nations continues to facilitate global discussions on the risks AI may pose to democratic systems and human rights. 

T As AI technologies continue to evolve, their influence on politics is expected to grow. While experts remain divided on whether AI alone can determine election outcomes, there is broad agreement that these technologies are already shaping public opinion. The challenge for democracies now lies in balancing technological innovation with safeguards that protect electoral integrity and public trust.
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Messaging Security
AI Phishing Attacks Cyber Attacks Cyber Phishing Cyber Scams Encrypted Chats links Malicious Link Messaging Security

Signal Users Targeted in Sophisticated Phishing Campaigns Aimed at Stealing Chat Backups

 

Recently uncovered cyber threats now focus on people relying on Signal’s encrypted messaging service. Fake notifications, appearing legitimate at first glance, lead recipients to counterfeit pages through deceptive URLs. These attempts aim straight at stored conversation archives linked to user accounts. 

Cyber experts highlight how realistic these fake prompts look, mimicking official alerts almost perfectly. One wrong move could expose personal message history without the owner realizing immediately. Deception unfolds quietly - often beginning with an urgent-looking notice arriving unexpectedly. Trusting such messages opens the door to hidden data theft beneath a surface of authenticity. 

Now showing up more often, the trend reflects how cyberattacks are changing direction. Instead of cracking tough encryption on private chat apps, criminals lean toward tricks that target people's habits. Starting with fake messages that look familiar, these schemes build pressure through time-sensitive demands. Victims then give away passwords or backup codes - without realizing it was never the real service asking. 

Experts say the scam focuses on accounts tied to backups. Messages showing up look real, yet they steer people toward counterfeit sites aiming to grab passwords, restore keys, or similar details. Success means hackers could enter stored backup files online, possibly viewing personal chats once thought secure. Though Signal encrypts messages fully while they move between devices, specialists emphasize that such protection fails when people accidentally hand over private login data. When saved access codes get stolen, chat histories risk exposure even with strong built-in shields. 

Despite robust design, a weak link often lies not in code but human action. Warnings emerge from security experts about rising complexity in phishing efforts. These days, fake emails frequently include convincing logos, web pages built to mimic real ones, along with wording nearly identical to legitimate notices. Personalized versions of such scams now exist, tailored to single users - harder to spot when compared to broad, generic blasts sent without targeting. Caution pays off when messages pop up out of nowhere asking you to confirm your account, bring back old data, or open a web address. 

Before typing in passwords, take a moment - look closely at where you are online; mimicry sites can look real but aren’t. Never hand over access keys or sign-in details, even if someone sounds trustworthy. When extra safeguards exist inside apps like Signal, turning them on simply makes sense. One more time, an attack shows human behavior often matters more than digital safeguards. When hackers trick someone into sharing private data, even strong software fails. 

Because scams grow smarter, staying alert helps block many breaches. Questioning unusual messages first can stop problems later. People stay safer by pausing before reacting to urgent demands.
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Remote Access Trojan
Android Malware Android Security BTMOB Malware Cybercrime Operations malware Mobile Cybersecurity Mobile Threats Phishing Attacks Remote Access Trojan

Researchers Uncover BTMOB Malware Capable of Taking Over Android Phones


 

In the Android threat landscape, a new malware operation has been rapidly expanding, reducing the barriers to entry for cybercriminals while simultaneously enhancing their offensive capabilities significantly. Security researchers have identified BTMOB, an Android remote access trojan (RAT) derived from the SpySolr malware family, as an emerging malware-as-a-service platform that enables operators to remotely monitor, manipulate, and control compromised devices with minimal technical expertise. 

Malware primarily distributes itself through phishing campaigns and fraudulent applications masquerading as legitimate online services, combining extensive device takeover functionality with a no-code campaign-building framework, which facilitates the customisation of lures, automatic deployment, and targeting of multiple regions using the malware.

BTMOB's evolution reflects a broader shift in the mobile threat landscape, where commercially packaged malware platforms are transforming advanced Android attack capabilities into scalable cybercrime services available to a wider range of threat actors.  As malware's commercialisation model increases, its reach is closely linked. In contrast to being operated by a single threat group, BTMOB serves as a subscription-based cybercrime service with public-facing marketing channels for the purpose of attracting potential customers. 

The malware is marketed through a dedicated surface-web portal that directs buyers to a Telegram-based operator. Additional marketing is conducted via social media accounts on X and Instagram. The commercialisation of the malware provides valuable insight into how its operators have transformed a technical threat into a structured cybercrime service designed for scale. 

Access to the platform has reportedly been advertised for approximately $5,000, along with recurring support fees. Researchers note that the cost remains relatively low compared with the potential returns from successful fraud operations, making the service attractive to a broader range of cybercriminals. Further aggravating the risks is the fact that the malware is circulated outside the commercial ecosystem. 

BTMOB-related files appeared briefly on a dark web forum in January of 2026 as a free download before disappearing, showing how malware distributed through commercial channels can rapidly spread through unauthorised sharing and reselling networks. Consequently, security teams are faced with an increasingly dynamic threat, as new builds and modified payloads emerge more rapidly than traditional detection mechanisms can react. 

Beyond its commercial appeal, BTMOB's effectiveness ultimately depends on its ability to compromise devices at scale through carefully crafted social engineering campaigns. In order to achieve operational success, BTMOB will continue to rely heavily on phishing-driven infection chains designed to maximize the trust of the user base. 

The threat actors often redirect targets to counterfeit websites masquerading as streaming platforms, cryptocurrency services, or other widely recognised online brands in order to divert them to fraudulent application repositories containing malicious Android applications. Additionally, attacks have been observed that are tailored to align with local institutions and government entities, including operations impersonating Argentine tax and public sector agencies as lures. 

Upon sideloading, the malware seeks elevated privileges by exploiting Android's Accessibility Services, giving it the ability to silently grant it additional permissions without the user having to take any further action. The BTMOB establishes communication with attacker-controlled command-and-control infrastructure with these privileges, allowing the operator to remotely manage the compromised device and maintain persistent access in order to monitor, steal credentials, and conduct other malicious activities on the compromised device. A significant challenge for defenders is the commercial framework underpinning BTMOB.

A report by security researchers indicates that the malware's pricing structure includes a lifetime license that costs approximately $5,000 plus recurring support fees, which are relatively modest expenditures when compared to the potential financial gains that could be realized from successful credential theft and fraud. These economic factors have accelerated the malware's adoption across underground communities, expanding its operational reach beyond highly skilled threat actors.

In January 2026, a dark web forum briefly advertised BTMOB-related files as free downloads before going offline. The incident illustrates how commercially distributed malware can quickly spread beyond its intended customer base through resale networks, private exchanges, and closed underground communities. 

It is quite possible that competitors can replicate the successful design elements of the original malware by borrowing campaign management features and payload customisation mechanisms that facilitate large-scale operations even where the original malware is inaccessible. This combination of rapid distribution and continuous modification creates additional challenges for defenders attempting to track the malware's evolution. As a result, defenders face an increasingly fluid threat environment in which payloads, infrastructure, and delivery techniques can change faster than conventional detection strategies can adapt.

ESET currently identifies MSIL/BtmobRat as the primary malware framework, while associated Android variants have been detected under several classifications, including Android/Spy.Agent.EED, Android/Spy.Agent.EIJ, and Android/Spy.Agent.EIK. As a result of its rapid development, the pace of development has already demonstrated its capacity for rapid evolution; a Cyble analysis of February 2025 observed the emergence of approximately fifteen distinct samples of BTMOB v2.5 within a relatively short timeframe. 

Behavioural monitoring and continuous threat intelligence correlation become increasingly critical with such turnover, which complicates traditional signature-based detection efforts. As BTMOB is predominantly driven by social engineering and the installation of unauthorised applications, security experts emphasise the importance of preventive measures. 

As a precautionary measure, organisations should implement policies which limit software installation to trusted application repositories, as well as educate users about the risks associated with unsolicited links received via email, messaging platforms, social media platforms, and online advertisements. In order to ensure the security of mobile devices is as high as that of workstations and servers, dedicated mobile threat defence solutions must be deployed. 

Additionally, researchers warn that one unauthorised application installed on a corporate device may create a pathway to sensitive business information. Employee awareness is a critical component of organisational resilience in the face of cybersecurity threats. It is important to note that, despite BTMOB's rapid mutation, static indicators of compromise remain useful signals for incident response teams conducting threat hunting and compromise assessments despite the rapid mutation of the BTMOB system. 

BTMOB highlights the continued evolution of cybercrime from isolated malware campaigns to commercially supported attack platforms capable of scaling sophisticated Android intrusions. As mobile threats become easier to acquire, customise, and deploy, organisations can no longer treat smartphones as secondary assets within their security programs. Strong application controls, user awareness, and continuous monitoring remain essential for reducing exposure to increasingly adaptable mobile threats.
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US
AI Cyber Attacks Data Donald Trump MyPillow Play Gang Ransomware US

Play Gang Claims Responsibility for MyPillow Hack, Company CEO Denies the Breach


The US military has always known that threat actors could use location data to spy on troops’ devices. The military also knows the easy solutions for the problem. But the Pentagon implemented none of these security measures. 

Recently, CySecurity reported that threat actors were using digital advertising data to attack US soldiers in war zones. The US law enforcement recently warned about the “anti-tech” extremism because the AI criticism was growing in the country.

Play gang takes responsibility 

The Play ransomware hacking group claimed the data theft behind the US pillow manufacturer called MyPillow. It stole personal and private confidential data from the victim. 

About the target

MyPillow was founded by 2020 Minnesota gubernatorial candidate and 220 election conspiracy theorist Mike Lindell.

The stolen data claim first surfaced on Play’s blog recently, it threatened that it was able to steal an unknown amount of information which may be exposed soon which may leak “"private and personal confidential data, clients and etc. documents, budget, payroll, IDs, taxes, finance information."

The claim, which appeared on Play's dark web leak portal earlier this week, threatens that an undeclared amount of data will be released on Friday, potentially exposing "private and personal confidential data, clients and etc. documents,budget, payroll, IDs, taxes, finance information."

High profile case

Straight Arrow News first reported about the incident. But MyPillow’s high-profile CEO Mike Lindell has denied claims of any ransomware attack which happened at all.

MyPillow was a lucrative victim for the threat actors, as Lindell’s role in pumping the controversial claims that the 2020 US presidential campaign was rigged against the now President Donald Trump.

According to Straight Arrow News, Lindell claimed in a recent interview on his website, Lindell TV, that political attacks during the previous few years cost MyPillow $400 million in damages. 

What next?

Lindell stated that he will submit an application for reimbursement from Trump's $1.8 billion "Anti-Weaponization Fund," which was established as part of Trump's settlement of an Internal Revenue Service lawsuit. 

The settlement, according to critics, offered Trump a slush fund to compensate rioters on January 6 and other individuals who have spread election conspiracy theories.

Whether MyPillow was hacked is not confirmed at the time of writing. The company denies the claim, whereas Play gang takes responsibility.
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USB C
Android Connectors Ethernet Hardware HDMI SD USB C

Why a USB-C Hub Is Becoming an Essential Accessory for Modern Phones and Laptops

 





The push toward thinner smartphones and lightweight laptops has transformed device design over the last decade. While manufacturers have succeeded in reducing size and weight, the transformation has often come at the cost of connectivity. Many modern devices now rely on a single USB-C port for charging, data transfer, and external accessories, leaving users without many of the ports that were once standard.

As a result, consumers frequently turn to individual adapters whenever they need to connect older hardware. A separate adapter may be required for an external monitor, another for a USB flash drive, and yet another for reading camera memory cards. What begins as a simple attempt to restore missing functionality can quickly turn into a collection of small accessories that must be carried, organized, and replaced when lost.

Technology users who work across multiple locations often encounter this challenge. A forgotten HDMI adapter can prevent a presentation from being displayed on a monitor. Leaving behind a memory card reader can delay the transfer of photos and videos. Even a missing USB adapter may stop a user from connecting a keyboard, mouse, or storage device when it is needed most.

Multi-port USB-C hubs have emerged as one solution to this growing connectivity problem. Instead of requiring separate accessories for different tasks, these devices combine multiple ports into a single unit that connects through a USB-C interface. Depending on the model, a hub may include HDMI output, USB-A ports, SD and microSD card readers, Ethernet connectivity, and pass-through charging support.

The primary advantage is convenience. Rather than managing several individual adapters, users only need to carry one accessory capable of supporting a wide range of devices. For people who frequently travel or work remotely, reducing the number of cables and connectors can simplify setup and minimize the chances of leaving behind a critical component.

Many hubs also allow smartphones to support more advanced desktop-style workflows. Certain Android devices can connect to external displays through HDMI, enabling users to work on a larger screen while simultaneously using a keyboard and mouse. This approach can create a workstation-like environment without requiring a traditional computer for basic productivity tasks.

However, not all USB-C hubs deliver the same level of performance. Buyers should examine specifications carefully before making a purchase. Factors such as transfer speeds, display resolution support, charging capacity, and the total number of available ports can vary considerably between products.

Power management is another important consideration. When multiple accessories are connected simultaneously, a hub may draw power from the host device. For this reason, many manufacturers offer pass-through charging capabilities that allow a charger to supply power to both the hub and the connected phone or laptop. Some models advertise support for charging rates up to 100 watts, although part of that power is consumed internally to operate the hub and connected peripherals.

Despite the industry's migration toward USB-C, many commonly used accessories continue to rely on older USB-A connections. Flash drives, printers, wireless mouse receivers, gaming controllers, and other peripherals still use the legacy standard. A hub can serve as a bridge between newer devices and existing hardware without requiring users to replace all of their accessories.

Memory card support remains particularly useful for photographers, videographers, and drone operators. Integrated SD and microSD slots allow media files to be transferred directly from cameras and storage cards without requiring dedicated readers. Some higher-end hubs can access both card formats simultaneously, reducing the need to repeatedly swap storage media during large file transfers.

Display connectivity is another frequently used feature. Many USB-C hubs provide HDMI output capable of supporting high-resolution external monitors. When paired with compatible devices, this allows users to extend their workspace, view content on larger screens, and improve multitasking capabilities.

Cost considerations may also influence purchasing decisions. While individual adapters often appear inexpensive when purchased separately, the combined cost of HDMI adapters, memory card readers, USB converters, and Ethernet accessories can exceed the price of a single multi-port hub. Consolidating these functions into one device may also reduce the need for repeated replacement purchases caused by misplaced or damaged adapters.

As manufacturers continue to streamline hardware designs and reduce the number of built-in ports, USB-C hubs are increasingly being used to restore connectivity options that many users still depend on. For individuals who regularly connect external displays, storage devices, memory cards, or older peripherals, a multi-port hub can provide a practical way to expand the capabilities of both smartphones and laptops through a single connection.

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Private Data
Data Breach Data Leak MyPillow Play Ransomware Private Data

MyPillow Private Data Leaked Online After Mike Lindell Denies Hack

 

Mike Lindell, CEO of MyPillow, insists his company was never hacked, but a ransomware group leaked nearly 12,000 internal files online just two days after his public denial. The Play ransomware gang published a 9.8-gigabyte data cache containing sensitive financial, payroll, and personal information from the pillow manufacturer, directly contradicting Lindell’s claim that MyPillow was “the most secure company” in the country. 

The attack began when Play announced on its dark web blog last week that it had stolen data from MyPillow, threatening to publish everything on Friday if ransom demands were not met. In a Wednesday telephone interview with Straight Arrow News, Lindell said he never received any ransom demand and asserted no data was taken, calling the allegations “another hit job by outside sources because I’m running for governor”. He is currently seeking the Republican nomination for Minnesota governor. 

Straight Arrow’s initial analysis of the leaked data revealed nearly 1,000 vendor invoices, including payments to high-profile figures like Trump Media & Technology Group (owner of Truth Social), conspiracy theorist Alex Jones, and Lara Trump. Documents show MyPillow paid Lara Trump $2,156.33 for advertising services in December 2023 and wired $4,023.16 to Jones’ Free Speech Systems the same month for running a company promo. Bank statements, audit files, wire transfers from 2026, and American Express statements for Lindell’s businesses including FrankSpeech (now LindellTV) are also present. 

The data breach exposes severely sensitive personal information, including payroll records with employees’ full names and phone numbers, plus tax forms like 1099s and W-9s containing names, addresses, and Social Security numbers. A folder titled “Aviation” contains private jet expenses and flight logs from 2018 to 2024. The files span from before 2011 through 2026, covering over a decade of internal company operations. 

Lindell claimed his company stores no sensitive data internally and relies on external third parties, but the leaked cache proves otherwise. When Straight Arrow shared photos of the data with Lindell via text, he did not immediately respond. This incident follows MyPillow’s 2019 Magecart credit card hack, raising serious questions about the company’s cybersecurity posture as Lindell campaigns for governor.
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European Bookseller
AI Advancements AI governance AI technology Cloud Computing Cyber Security Energy sector European Bookseller

Europe Must Balance Water and Energy Demands to Sustain AI Datacenter Growth

 

Europe’s ambitions to expand artificial intelligence and cloud computing infrastructure could be constrained by growing pressure on energy and water resources, according to a new report that calls for stronger policies linking both areas. The study argues that future datacenter growth will depend not only on access to advanced technology but also on how efficiently facilities manage power consumption and water use. 

The report, titled Scale and Secure: Powering Europe’s Digital Sovereignty, was published by Grundfos, a Danish provider of water and energy-efficiency solutions. It highlights how datacenters have evolved into critical infrastructure supporting Europe’s digital economy while also creating challenges related to resource management, environmental sustainability, and technological independence. 

According to the report, datacenters across Europe currently operate with an estimated IT load of around 10 gigawatts. That figure is expected to rise sharply to approximately 35 gigawatts by 2030 as demand for AI services, cloud platforms, and digital applications continues to increase. As a result, datacenters could account for between 7% and 9% of Europe’s total electricity consumption by the end of the decade, up from roughly 3% today. Cooling systems represent one of the largest resource demands within modern datacenters. 

The report estimates that cooling infrastructure accounts for nearly 38% of electricity use in an average facility. Water consumption is also substantial, particularly in hyperscale datacenters, where daily usage can reach between 11,356 and 18,927 cubic meters. Such volumes are comparable to the daily water needs of as many as 155,000 households across the European Union. Researchers warn that rapid datacenter expansion could place increasing strain on local energy grids, water supplies, and municipal infrastructure if growth is not carefully managed. 

Poorly planned developments may also trigger resistance from local communities concerned about environmental impacts and resource availability. To address these challenges, the report recommends integrating water and energy efficiency requirements directly into datacenter governance and planning frameworks. Standardized environmental reporting, improved oversight, and incentives for adopting efficient cooling technologies are among the proposed measures. 

The report also suggests governments introduce tax incentives, grants, and green financing programs to encourage investment in technologies that reduce resource consumption. Another recommendation focuses on improving collaboration between datacenters and district heating networks. Excess heat generated by server facilities could be reused to support local heating systems, although the report notes that regulatory, contractual, and organizational barriers currently limit wider adoption. The findings come as European policymakers increasingly balance digital transformation goals with environmental sustainability commitments. 

As AI adoption accelerates, experts argue that future datacenter expansion must prioritize efficiency and resource conservation to ensure long-term growth without placing excessive pressure on local communities and natural resources.
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Privacy
Adtech Industry Browser Fingerprinting Commercial Surveillance Data Brokers Digital Tracking Risks Location data Military Cybersecurity National Security Privacy

Digital Tracking Threats Extend Beyond Governments to Everyday Users


 

Technology policy challenges are increasingly being exposed in the debate over digital safety: measures that are intended to address one online risk are often used to raise another set of security and privacy concerns. Critics have warned that the collection of additional personal information could broaden surveillance capabilities and create new targets for abuse as governments push for stricter age-verification requirements and expanded identity checks. 

Separately, a pervasive wave of security threats is emerging at the level of the consumer, where mobile phone theft operations are exploiting weaknesses in the systems for accessing devices and recovering accounts. Whether regulating oversight, privacy, or physical device security is a concern, these developments represent the growing reality of the digital ecosystem. 

Cybersecurity experts, governments, corporations, and cybersecurity professionals are no longer the only ones facing the risks associated with digital tracking and identity information. Increasingly, it is becoming a concern for technology providers, policymakers, and everyday users alike. Digital tracking has become a topic of debate that has moved beyond privacy advocacy into the national security arena. 

Recent disclosures from US lawmakers suggest that the same commercial data ecosystem used for profiling consumers and targeting advertisements may also pose operational risks to military personnel. As reported by Senator Ron Wyden, the US Central Command has been informed that it has received several threat reports regarding the exploitation of commercially available location data in order to monitor or potentially target American personnel deployed in active theaters of operation. 

In spite of the fact that military officials did not identify the responsible actors or particular locations involved, this revelation represents a significant escalation in concern regarding the market for commercial surveillance. Researchers have long warned that location metadata obtained from smartphones, applications, and connected devices can reveal patterns, routes, and recurring gathering points through the collection of location metadata. 

Congress warns that this intelligence can be used to support kinetic threats, including drone strikes, missile attacks, and other forms of battlefield targeting, in addition to surveillance and counterintelligence activities. Increasing scrutiny has been focused on the adtech and data brokerage sectors, where large volumes of geolocation data are routinely collected, aggregated, and resold. Previously considered primarily a consumer privacy issue, this issue is now being examined as a strategic security vulnerability, particularly in light of historical incidents. 

The reports that have been reported that commercially acquired location data was used to track the movements of US Special Operations personnel toward a covert staging facility in Syria demonstrate how seemingly routine smartphone data can reveal sensitive military activities that go beyond their original purpose in revealing sensitive information. There is a fundamental concern among lawmakers and security officials about not only isolated incidents, but also the architecture of the modern data economy itself.

Through GPS, Wi-Fi and cellular network interactions, as well as advertising identifiers embedded throughout countless applications, smartphones continually generate streams of location intelligence. Upon collecting user activity records, brokers often aggregate, package, and resell them to advertisers, analytics firms, and other third parties via a sprawling commercial marketplace. Security specialists have repeatedly warned against the possibility of using such datasets to reconstruct highly sensitive behavior patterns, including visits to military facilities, operational hubs, and transit routes for deployments.

Legislators are calling for stronger safeguards, including disabling advertising identifiers on military-issued devices, limiting the use of data-hungry applications, and reevaluating software ecosystems heavily dependent upon user tracking, in response to these risks. However, lawmakers have renewed criticism of the Defense Department's approach to digital exposure. Increasingly, it is being acknowledged that commercial surveillance infrastructure can inadvertently provide access to intelligence assets that are not intended for the purposes for which they were intended.

In previous years, concerns were raised when publicly available fitness-tracking data revealed military installations and patrol activities. This demonstrated how seemingly benign consumer technologies may reveal operationally important information. Considering the ongoing military activity of the United States in the Middle East as well as the threat posed by hostile state-backed and proxy entities, the strategic value of location intelligence can no longer be ignored. 

While many large technology companies maintain that their advertising and data-handling systems have security controls, pressure is mounting for stronger federal privacy protections as policymakers reassess the national security implications of data collection on a large scale. Ultimately, the Pentagon's acknowledgement underscores a shift in the threat landscapes of modern civilisations, where intelligence gathering no longer relies solely on satellites, reconnaissance assets, or classified operations, but can also be gained from vast commercial networks, which silently track the digital movements of millions of connected devices every day. 

Moreover, the Pentagon's concerns highlight a fundamental weakness in the digital advertising ecosystem: the same infrastructure, designed to deliver personalised marketing, now serves as an effective surveillance network capable of tracking individuals with remarkable accuracy. Military officials have expressed concern that commercially available data, including advertising identifiers, default location-sharing mechanisms, and browser fingerprinting techniques associated with widely used platforms such as Google Chrome, may be accessed by individuals operating in active conflict environments, according to reports cited by Reuters. 

Rather than focusing on the collection of data itself, the issue is the ease with which detailed behavioral intelligence can be acquired through commercial channels with little or no oversight of who purchases the information and for what purposes.

The Pentagon has been criticised for failing to take sufficient actions to educate and protect its service members from these digital exposure risks; however, lawmakers have also highlighted the large amount of sensitive user information that is monetised by the largely unregulated data brokerage market. Officials argue that, without comprehensive federal privacy safeguards, there are limited practical mechanisms for preventing potentially hostile actors from gaining access to data that can reveal operationally valuable insights. This ecosystem presents an array of threats that go beyond national security concerns.

The recent disclosure of an offshore call tracking and analytics company's role in facilitating large-scale fraud operations relating to tech support has highlighted the potential criminal misuse of trusted commercial technology.

A court-ordered investigation revealed that the former CEO and Chief Security Officer knowingly provided telephone numbers and communications infrastructure to scammers impersonating Microsoft representatives in order to assist them in evading law enforcement scrutiny, identifying new fraudulent opportunities, and expanding their operations in the process. In addition, investigators allege that the individuals went beyond providing services by participating in similar scam networks and even operating their own fraudulent call centers. 

A common challenge that confronts the modern digital economy is illustrated by these developments: systems designed to assist advertisers, analytics analysts, and customers can, when inadequately regulated or maliciously abused, become useful tools for surveillance, deception, and exploitation that go far beyond their intended use. 

Digital tracking poses a number of risks that are becoming increasingly difficult to distinguish from everyday life as the boundaries between commercial technology, personal privacy, and national security continue to blur. As illustrated by the examples presented in both military and consumer environments, data collected for convenience, advertising, or analytics can be exposed, misused, or inadequately managed, causing a variety of consequences beyond their original purpose.

In today's world, organisations, policymakers, and individuals alike face greater challenges than simply addressing cyber threats after they have already arisen. However, it is also important to understand how seemingly routine digital practices can result in unintended security exposures long before an attack occurs. In light of the increasing importance of personal and operational data, strengthening data governance, limiting unnecessary collection, and improving transparency throughout the digital ecosystem are essential.
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technology
Cloud Provider data centres Hardware Nutanix technology

Nutanix CEO Says Cloud Providers Are Gaining an Edge as Hardware Costs Touch Great Heights

 



Large cloud operators may be becoming a more attractive option for organizations seeking new infrastructure, according to Nutanix CEO Rajiv Ramaswami, who argues that hyperscale providers can often secure servers and components faster than traditional enterprise buyers.

Speaking about current market conditions, Ramaswami said cloud providers benefit from purchasing hardware in enormous volumes. Their buying scale allows them to negotiate directly with manufacturers and secure priority access to components such as memory and solid-state drives. As a result, some enterprises evaluating new infrastructure projects are finding that cloud-hosted bare-metal servers can be available sooner, and in certain cases at lower cost, than purchasing and deploying equipment in their own data centers.

The comments come at a time when organizations continue to face elevated hardware expenses. Memory modules and flash storage remain among the most expensive components in modern server deployments, contributing to overall infrastructure costs. According to Ramaswami, these pricing pressures are unlikely to ease in the near term, meaning enterprises may need to factor longer-term budget impacts into future technology investments.

For infrastructure teams, procurement decisions are increasingly shaped by two practical considerations: acquisition cost and deployment timelines. If a cloud provider can supply computing resources immediately while physical server orders require extended delivery periods, organizations may choose cloud deployment even when they have traditionally preferred on-premises environments.

However, Nutanix is observing a different pattern when artificial intelligence projects are involved. While some conventional workloads are moving toward cloud infrastructure, many businesses continue to deploy AI systems inside their own facilities. Ramaswami said predictable operating costs remain one of the primary reasons for this approach.

Many organizations are still attempting to determine whether AI initiatives generate measurable financial returns. While interest in AI remains high across industries, businesses are increasingly scrutinizing infrastructure spending associated with model training, inference workloads, and data processing. Operating AI infrastructure internally can provide greater visibility into hardware utilization and long-term costs.

According to Nutanix, practical AI applications currently dominate enterprise deployments. Document retrieval systems, knowledge search tools, automated summaries, and internal productivity assistants remain among the most common implementations. Ramaswami said Nutanix has recorded approximately a 10 percent improvement in service response times through AI-assisted operations, while software development teams have accelerated feature delivery by roughly 50 percent after incorporating AI-supported workflows.

The discussion also touched on evolving server architectures. Enterprise customers are increasingly evaluating smaller hardware footprints as they seek to reduce power consumption, rack space requirements, and operational expenses. Some organizations are also exploring Arm-based processors, which have attracted attention because of their energy-efficiency characteristics.

Despite growing industry interest in Arm, Nutanix does not currently see sufficient customer demand to justify a full migration of its software platform. Ramaswami noted that many open-source technologies used throughout the Nutanix ecosystem, including Kubernetes and the KVM hypervisor, already support Arm processors, potentially simplifying future development efforts if adoption accelerates.

The CEO's comments coincided with Nutanix's third-quarter fiscal 2026 earnings announcement. During the quarter, the company added 730 new customers and reported continued demand for its virtualization and hybrid-cloud offerings. Ramaswami stated that many of those customers migrated from legacy infrastructure platforms, although he did not identify specific vendors.

Nutanix also reported growing interest in its support for external storage systems. Historically, the company emphasized its own software-defined storage capabilities. More recently, it has expanded support for third-party storage platforms, giving customers additional flexibility when modernizing infrastructure. According to Ramaswami, the strategy contributed to two separate seven-figure agreements involving organizations that retained storage systems supplied by Pure Storage and Dell.

For the quarter, Nutanix reported revenue of $703 million, representing a 10 percent increase compared with the same period last year. Annual recurring revenue reached $2.43 billion, reflecting a 15 percent year-over-year increase and providing another indication of continued enterprise spending on hybrid-cloud and virtualization technologies.

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Root Access Exploit
Container Escape CVE-2026-23111 Cyber Threats Kernel Exploit Linux Kernel Vulnerability Linux Security Local Privilege Escalation nf_tables Vulnerability Root Access Exploit

Linux Systems Exposed as Public Exploits Target One-Character Kernel Flaw


 

Several researchers have recently published fully functional exploit code demonstrating reliable privilege escalation from an unprivileged local account to root access following the discovery of a newly disclosed Linux kernel vulnerability. As CVE-2026-23111 has been assigned, the vulnerability can result in a use-after-free condition in critical security-critical code that is triggered by a logic error in the kernel's nf_tables subsystem. 

An attacker may gain elevated privileges and potentially escape containerised environments due to a single character misplacement within a complex kernel component. Several independent exploit reproductions have been made publicly available and the vulnerable code can be accessed by widely deployed configurations using nf_tables and unprivileged user namespaces. This issue serves to emphasise the potential for high-impact security threats in Linux systems even when small coding errors are made in low-level infrastructure. 

Moreover, the newly published research provides insight into the exact code path that transforms a seemingly trivial logic error into a practical privilege-escalation primitive. This vulnerability was identified by both FuzzingLabs and Exodus Intelligence during the abort handling stage of nf_tables transactions, during which the kernel attempts to roll back changes when a transaction fails. 

Rollback routine ignores elements requiring reactivation when a reversed condition occurs within the catchall-element restoration logic, while processing elements already in a valid state. The result is that critical reference counts associated with NFT_GOTO verdict chains are not properly restored, which leads to the chain's usage counter decreasing with every transaction that is aborted. 

In the event that the counter reaches zero, the kernel permits the associated chain to be deleted and freed, even though active catchall verdict elements continue to refer to the memory that has been released, resulting in a use-after-free issue.

According to the researchers, unprivileged users can exploit the flaw when user namespaces and nf_tables are enabled in environments where these features are enabled, by first obtaining kernel address disclosures, revealing heap memory locations, and eventually obtaining root privileges by executing a return-oriented programming chain. As part of the exploitation process, a carefully orchestrated sequence of batches of transactions is performed in order to manipulate reference counts repeatedly in order to release the target chain. 

Although multiple use-after-free triggers were required to leak kernel and heap addresses and ultimately hijack control flow, Exodus reported a success rate exceeding 99 percent on idle computers. When tested under heavier workloads, including sustained Apache benchmark activity, 80 percent reliability was maintained, demonstrating the maturity of the exploit technique as well as the practical risks associated with unpatched computers. 

While CVE-2026-23111 does not offer a standalone remote attack path, its impact becomes significant once an adversary acquires even limited access to a target system. In practical intrusion scenarios, the vulnerability may act as an escalation mechanism following a compromise, allowing attackers to gain complete root-level control of the underlying host from a restricted shell, compromised service account, or containerised foothold. 

A researcher in the field of security identified the flaw in early 2025, Oliver Sieber, demonstrated how to exploit the issue by triggering both the underlying use-after-free condition as well as by bypassing kernel memory protections by redirecting execution flow for root privileges and escaping container isolation barriers. 

A number of mainstream Linux environments have been successfully validated with the exploit, including Debian Bookworm, Debian Trixie, Ubuntu 22.04 LTS, and Ubuntu 24.04 LTS. In a research study conducted by FuzzingLabs ahead of Pwn2Own Berlin 2026, the vulnerability was demonstrated to be practical across distributions by achieving similar results using a different exploitation path, further demonstrating its practicality. Several disclosures occurred rapidly, including the release of the upstream patch on February 5, FuzzingLabs' analysis published on April 16, and the publication of an extensive technical breakdown by Exodus Intelligence on June 8. 

As the vulnerable code is included in the mainline kernel, any distribution shipping affected versions with both nf_tables and unprivileged user namespaces enabled may be exposed unless additional hardening measures prevent the vulnerable functionality from being accessed. As part of the disclosure, Linux local privilege escalation research has also increased significantly.

Recent findings, such as Copy Fail, Dirty Frag, Fragnesia, DirtyDecrypt, and a longstanding ptrace-related flaw resulting in sensitive files being exposed and allowing privileged commands to be executed, have highlighted recurring security problems. It is becoming increasingly difficult for attackers to compromise a system beyond a low-privileged foothold. 

Administrators are advised to install patched kernel packages and reboot affected systems as soon as possible. They should prioritise environments where untrusted users, containers, or workloads have the potential to create unprivileged user namespaces. 

The Ubuntu 22.04, 24.04, and 25.10 distributions currently offer security updates. Debian has addressed the issue in Bookworm and Trixie, and issued 6.1-series backports for Bullseye LTS. Several distributions have also published tracking advisories, although the fixed package versions vary by distribution. It is noteworthy that an upstream correction only involved a single line of code change. 

Among other things, researchers have observed that exploit development is accelerating rapidly due to the use of artificial intelligence (AI)-assisted vulnerability analysis and patch-diffing techniques that can enhance weaponisation before patches are widely used. While there has been no in-the-wild exploit confirmed and no threat actors have been connected to the vulnerability, the availability of public exploit code since April significantly increases the urgency for organisations who have not yet implemented the February patch. 

Security vulnerabilities such as CVE-2026-23111 often do not result from sophisticated attack chains, but from subtle flaws deep within trusted infrastructure, which can have the greatest impact on a business. The availability of reliable exploit techniques across multiple Linux distributions indicates that organisations should treat this issue as more than simply a theoretical kernel bug, but as a practical privilege-escalation threat. 

Although no active exploitation has been reported, the narrowing gap between vulnerability disclosure, exploit development, and real-world weaponisation continues to increase the pressure on defenders to act quickly. In addition to patching promptly, reviewing namespace configurations carefully, and continuously monitoring privileged workloads, critical safeguards remain.

Due to Linux environments becoming increasingly important in enterprise, cloud, and containerised operations, limiting the opportunities available to low-privileged attackers can often make the difference between whether or not an isolated compromise remains contained or grows into a full-scale attack.
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University of Toronto research
AI worm autonomous malware Cybersecurity Threats Large Language Models self-replicating worm Technology University of Toronto research

University of Toronto Researchers Demonstrate Autonomous AI Worm That Adapts, Exploits, and Self-Replicates Without Human Control

 

kResearchers from the University of Toronto have developed and tested a proof-of-concept artificial intelligence-powered computer worm capable of independently navigating networks, identifying vulnerabilities, creating customized attack plans, and replicating itself without human assistance. Notably, the system operates using a locally hosted open-weight large language model (LLM), eliminating reliance on commercial AI platforms.

The research paper, published on arXiv on June 2 and currently undergoing peer review, highlights a growing cybersecurity concern: traditional patching strategies focused on individual vulnerabilities may become ineffective against malware that can dynamically analyze systems, consume newly published security advisories, and generate attack methods in real time.

During testing, the AI worm was deployed in 15 isolated experiments across a purposely vulnerable network consisting of 33 hosts. On average, it discovered 31.3 vulnerabilities and obtained elevated privileges on 23.1 systems. The worm successfully replicated itself to 20.4 hosts, covering approximately 62% of the network over a seven-day period without prior knowledge of the network structure or any human guidance.

How This AI Worm Differs From Traditional Malware

Conventional worms are typically designed with predefined exploits. Once those vulnerabilities are patched, the malware's ability to spread is significantly reduced.

The Toronto researchers took a different approach. Their worm leverages an open-weight large language model running on a single GPU to create attack strategies on demand. Instead of depending on a fixed exploit chain, it generates tailored attack logic based on the characteristics of each target system. It also functions independently of commercial AI services, meaning it is not subject to API restrictions, rate limits, or account suspensions.

Inside the Experiment

The project was led by Associate Professor Nicolas Papernot and involved researchers from the University of Toronto, the Vector Institute, the University of Cambridge, and ServiceNow.

Testing took place on an isolated environment known as "FakeCorp," which consisted of 33 hosts running a variety of operating systems, including Ubuntu, Debian, Rocky Linux, Alpine Linux, Windows Server 2008 R2, Windows Server 2019, Windows Server 2022, and several IoT devices.

Every host contained at least one genuine vulnerability. Five machines were equipped with GPUs. During primary experiments, the worm used a shared GPU inference pool to emulate computational resources obtained from compromised systems. Researchers also tested full GPU-based replication, where the worm deployed its own LLM on an infected GPU machine. This approach achieved a success rate of 68.8%.

Under this architecture, compromised GPU systems acted as reasoning hubs, supplying AI inference capabilities to less powerful devices that could not run the model independently.

Across all 15 tests, the worm achieved elevated access on an average of 23.1 hosts and successfully replicated to 88% of those systems. The malware propagated through as many as seven generations, averaging 5.1 generations overall.

Researchers emphasized that the network was intentionally vulnerable and designed to evaluate autonomous reasoning and exploitation rather than represent a heavily secured enterprise environment.

Dynamic Exploitation of Multiple Vulnerabilities

The worm successfully leveraged a broad range of vulnerabilities, including SambaCry, Dirty Pipe, PrintNightmare, Drupalgeddon 2, Exim Remote Code Execution, blind SQL injection flaws, JWT authentication bypasses, Redis escapes, and others.

What makes these results notable is that the exploits were not hardcoded into the malware. Instead, the AI agent analyzed available information and independently determined suitable attack paths for each host.

According to the study, individual exploit attempts succeeded approximately 44% of the time. Most failures resulted from payload syntax issues rather than incorrect reasoning. Researchers observed stronger performance against Linux privilege-escalation and service vulnerabilities, while Windows privilege escalation and web application attacks proved more challenging.

Exploiting Newly Disclosed Vulnerabilities

A significant finding was the worm's ability to overcome its training-data limitations by consuming public vulnerability advisories in real time.

The system successfully exploited three vulnerabilities that were disclosed after the model's training period:

  • CVE-2026-39987, a pre-authentication remote code execution flaw affecting Marimo Python notebooks.
  • CVE-2026-31431 (CopyFail), a Linux kernel privilege-escalation vulnerability.
  • CVE-2026-43284 and CVE-2026-43500 (DirtyFrag), Linux kernel privilege-escalation flaws.

Across these targets, the worm achieved root-level access in 41 out of 67 attempts.

Researchers pointed to the increasingly narrow window between disclosure and exploitation. CVE-2026-39987, for example, was publicly disclosed on April 8, 2026. Security firm Sysdig reportedly observed exploitation activity less than ten hours later and documented an intrusion involving an LLM-based agent used during post-compromise operations.

Why Containment Becomes More Difficult

The researchers identified two key factors that could make AI-driven worms harder to contain than traditional malware.

First, operating costs shift from paid API access to the computational resources available on compromised machines. Once attackers gain access to GPU-capable systems, the malware can continue operating without incurring external service costs.

Second, the use of open-weight models removes dependency on AI vendors. As a result, provider-side safety controls such as service refusals, account suspensions, and rate limiting become ineffective.

The team also observed instances where the worm modified its own code to bypass local security measures, despite not being explicitly programmed to do so.

Importantly, the prototype lacked several advanced malware capabilities. It did not include encryption, persistence mechanisms, polymorphic code, process masquerading, or log-cleaning functions. Researchers noted that a malicious version incorporating these features would be significantly harder to detect.

Placing the Research in Context

While AI-powered worm research is not entirely new, the Toronto project represents a distinct advancement.

Earlier projects such as Morris II focused on spreading through AI applications and email assistants. In 2026, ClawWorm demonstrated self-replication across LLM agent ecosystems by compromising persistent configurations and spreading between agents.

The Toronto worm differs because it targets traditional network infrastructure rather than AI systems themselves. In this case, the large language model serves as the attack engine rather than the attack target.

The findings also align with broader industry observations. Security researchers have increasingly documented AI-assisted cyber operations involving reconnaissance, exploit development, credential theft, lateral movement, and data exfiltration.

Recommended Defensive Measures

Although the prototype lacked stealth capabilities, researchers identified several practical steps organizations can take to reduce risk:

Isolate GPU-enabled systems through strict segmentation and zero-trust controls to prevent them from becoming centralized AI reasoning hubs.
Treat newly disclosed vulnerabilities as high-priority risks and accelerate patching for internet-facing systems.
Immediately rotate credentials on compromised or potentially compromised devices to limit lateral movement.
Monitor for behavioral indicators such as unusual port activity, automated SSH key deployment, and unexpected AI inference workloads on endpoints.

The experiments demonstrated that the worm could gain root access on newly disclosed vulnerabilities in 41 out of 67 attempts and spread across 62% of a network within seven days without additional human involvement. Researchers warn that once an attacker establishes a GPU foothold in a poorly segmented environment, the cost of identifying and exploiting new targets decreases substantially.

The implementation has not been publicly released. The University of Toronto is currently establishing a vetting process through which qualified defensive researchers may request access to the system for further study.
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Stanford
AI threats Citizens Bank Cyber Security Financial Security Stanford

Citizens Bank, Stanford Warn Against Sharing Financial Data With AI

 

Artificial intelligence is quickly becoming part of everyday financial decision-making, but experts are warning Americans to be careful about what they share with it. Citizens Bank has stressed that AI can be helpful, yet it also brings serious privacy and fraud risks when people enter personal financial information into chatbots and similar tools. 

The biggest concern is oversharing. Many users ask AI for budgeting help, debt advice, or retirement guidance and then unknowingly provide account numbers, balances, income figures, tax details, or other sensitive data. According to reporting on Stanford-related research, sensitive information shared with AI systems may be stored, collected, or exposed through vulnerabilities, creating opportunities for identity theft or financial fraud. 

Citizens Bank says AI should not be treated like a secure financial adviser. Its online safety guidance warns that AI can be used by cybercriminals to steal money or identities, especially when users reveal critical information. The bank advises people to avoid sharing key financial details, use caution with suspicious messages, and verify anything that seems unusual through trusted sources rather than replying directly. 

Experts say there are safer ways to use AI for money questions. Instead of typing exact figures, users can describe their situation in broad terms or use ranges, such as “low savings” or “moderate debt,” to get useful guidance without exposing private data. This approach allows AI to give practical responses while reducing the chance that confidential information will be stored, reused, or leaked later.

According to security experts, AI can be a useful assistant, but it should never become a place to dump your personal finances. Americans who want to protect themselves should avoid entering banking credentials, account balances, Social Security numbers, or tax documents into any AI tool. In an era of growing AI-driven scams, caution is no longer optional — it is part of basic financial security.
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Internet
AI Cloud Cyber Attacks DDoS Internet

Experts Reveal the DDoS Under Ground Market


Attack tactic

What happens in a typical Distributed Denial-of-Service (DDoS) attack. A website that suddenly stops? Time out of a login page? Not being able to reach an online service when you need it the most? These causes are not internal, and are attributed to DDoS attacks. 

Cloudflare reported stopping a 7.3 Tb/s attack last year and said it addressed a 31.4 Tb/s attack in its Q4 2025  DDoS report. According to Microsoft, Azure also blocked a 15.72 Tb/s attack last year in October. The activity was linked to the Aisuru botnet.

Darkweb market selling and buying the service

For all these instances, dark web actors are fighting over the same buyers with pitches. Flare experts analyzed dark web operations and detailed API access, reseller options, botnet-based capacity, monthly plans, Cloudflare bypass claims, and game-server tactics.

A comparative analysis of the DDoS-related dark web operations from the first five months of 2023 and the first five months of 2026 demonstrate how rapidly that offer has evolved. Scripts, tutorials, leaked tools, and sporadic forum posts used to be more common, but these days they are more typically provided as recurring products that are simpler to purchase and use.

What is a DDoS attack?

A DDoS attack tries to crowd an application, network, server, or website with traffic from various servers at one time. Few attacks are aimed at network capacity, while the remaining emphasize on application layer resources like APIs and login pages. The aim is to dismantle any service or activity and make it unavailable, expensive to use, or unstable. 

What is DDoS-as-a-service?

DDoS-as-a-service removes the barrier even further, a hacker can choose a victim, pay for accessing a web panel, select timeline, and depend on another person’s botnet, third-party attack infrastructure, or proxy network.

About the attack

A hosting company that employs Magic Transit to protect their IP network and is a Cloudflare user was the target of the attack. According to Cloudflare’s recent DDoS threat assessment, DDoS attacks are increasingly targeting hosting providers and vital Internet infrastructure. 

An assault campaign from January and February of 2025 that launched over 13.5 million DDoS attacks on Cloudflare's hosting providers and infrastructure was detailed by the experts on their blog.

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Education Sector Cybersecurity
AWS Cyber Attacks Cyber Breach cybersecurity challenges data security Digital Infrastructure Education Sector Cybersecurity

CBSE Revaluation Portal Hit by Cyberattack, Payment Gateway Glitch Affects Students

 

A breach has surfaced within CBSE's digital infrastructure, casting doubt on transaction reliability during revaluation requests. Officials confirm unusual activity emerged just hours after launch of the updated platform. Instead of standard fees, some users saw inflated amounts appear without explanation. The disruption stemmed from external interference, not internal error, per preliminary assessments. While access resumed quickly, trust in online payments wavered temporarily among applicants. Investigators are now tracing entry points used in the intrusion. Security teams emphasize that only a small fraction faced actual financial impact. Monitoring continues as safeguards undergo review. 

Some fifty learners faced disruptions due to the event, officials noted. Payment amounts shifted without warning in these instances - now low at just one rupee, now near sixty-seven or sixty-eight thousand. Unauthorized entry might have paved the way for intentional system interference, according to insiders. Such altered fees possibly stemmed from targeted digital tampering following a breach. Trouble began when the portal’s payment gateway - handled by HDFC Bank - faced glitches after launch. Right away, access problems appeared, blocking user entry without warning. 

A few people took advantage while systems faltered, altering charges shown on student records. Officials confirmed irregular fees stemmed from these brief security lapses. Following the event, CBSE along with state bodies began closely examining the system's framework. To support this effort, specialists from IIT Madras, joined by counterparts at IIT Kanpur and the Digital Infrastructure Corporation of India, were invited into the process. With access granted, these teams started analyzing the underlying software structure and identifying weak points. 

One main goal drives their work: keeping the service stable under pressure. By reinforcing key defenses now, they aim to block repeat disruptions later. Now live within the platform, four state-run lenders join the network to spread risk beyond one vendor. Among them: State Bank of India, followed by Canara Bank, then Indian Bank, and later Bank of Maharashtra. With more institutions linked, handling payments should run smoother under strain. Built-in backup paths emerge naturally when multiple entry points exist. Stability gains come not from promises but structure - extra layers help maintain flow during outages. 

Later came reports of trouble faced by students after results and rechecking, sparking talks between Dharmendra Pradhan and Nirmala Sitharaman. Because of these concerns, officials decided improvements were needed in how payments work across CBSE platforms. So far, reports indicate the updated setup is running smoothly after shifting the platform to Amazon Web Services (AWS). This move comes in response to past issues with traffic handling and long-term flexibility. Teams remain alert, observing both function and protection measures closely during ongoing evaluations. 

What happened shows why protecting school systems matters more now, given how much personal information and money flows through them. Even so, officials keep digging into the case even as new security steps go live to reduce risks ahead.
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WhatsApp
AI Cloud Instagram Messaging Technology Telegram WhatsApp

WhatsApp to Roll Out Username Feature, No Mobile Number Required


WhatsApp will launch a new feature where users can opt for usernames and connect with others without putting mobile numbers. The feature is similar to the famous messaging app Telegram and also Instagram. The new update will allow users to share a unique username instead of their contact number for chats.

About feature development

“WhatsApp has worked to ensure that the username experience is stable and secure. For this reason, the rollout of usernames is taking a significant amount of time. Over the years, the code of the app has been extensively updated to make sure all existing features are fully compatible with usernames. So WhatsApp focused on testing and refining the feature carefully before making it widely available. It seems that WhatsApp is set to roll out the username feature to users as part of a phased rollout strategy over the coming months,” Whatsapp said in its blog. 

Users will still have the option to continue using WhatsApp as usual if they so choose. Phone numbers will still be linked to accounts for login and recovery purposes, but each account will support a single username that can be changed at a later time without impacting chats or account activity.

How to setup

Soon, both Android and iPhone users of WhatsApp will be able to create usernames straight from the app's Settings menu. Users must visit their profile settings, select the Username option when it appears, and pick a distinctive handle for their account in order to set one up. Before the chosen username can be kept, WhatsApp will automatically check if it is legitimate and accessible.

Safety first

In order to avoid confusion and abuse, the site is also implementing strict guidelines for usernames. Usernames can only contain letters, digits, periods, underscores, and at least one letter; they must be between three and thirty-five characters long. Some formats will not be accepted, such as usernames that start with "www," finish in domain-style extensions, or have repeated periods.

What about user privacy?

By enabling users to communicate without disclosing their phone numbers, the function aims to increase privacy. Once enabled, users can speak with buyers, sellers, community organizations, or new connections using their usernames rather than their personal mobile numbers. Only the selected handle—rather than the associated phone number—will be visible to those who contact you using the username.

With a wider deployment anticipated later in 2026, WhatsApp has already begun testing usernames with a small number of iOS and Android users. According to the firm, usernames will continue to be optional, so users can continue to use WhatsApp with just their phone numbers if they so choose. Even once usernames are implemented, phone numbers will still be used for account sign-ins, verification, and recovery.

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Zero-Day Exploit
Argument Injection Credential Theft Cyber Threats Git Repository Security Gogs Vulnerability Open Source Security Remote Code Execution Supply Chain Attack Zero-Day Exploit

Gogs Zero-Day Vulnerability Raises Alarm Over Server Security


 

Researchers have discovered a zero-day vulnerability in Gogs, the widely used self-hosted Git repository management platform, that may allow authenticated users to escalate their privileges on vulnerable servers by leveraging this vulnerability to execute remote code. 

In addition to affecting current Gogs releases, this vulnerability is classified as a critical argument injection weakness that poses a particular risk to distributed software development and collaboration deployments that are Internet-accessible. As a result of security analysis, the attack can be carried out without administrative privileges and, under default configurations, the attacker may only need a standard user account to compromise the underlying host. 

The finding highlights the fact that seemingly routine source code management operations can become high-impact attack vectors when exploitable flaws intersect with permissive default settings and exposed development infrastructure, which has not been officially patched at the time of disclosure. Due to the close alignment between the attack path and Gogs' default deployment behaviour, the exposure becomes especially significant. 

A Rapid7 researcher stated that open registration of users and the creation of unrestricted repositories enable an external actor to establish the necessary conditions for exploitation without requiring privileged access or assistance from other users. An application-wide flaw exists in the application's handling of repository merge operations. If the branch name is specially crafted, malicious arguments can be injected into the git rebase process during the "Rebase before merging" workflow by using a specially crafted branch name. 

By abusing Git's --exec parameter, an attacker can force arbitrary shell commands to run on the host system under the security context of the Gogs service account. As researchers noted, the consequences of the compromise extend far beyond a single repository compromise, allowing threat actors to access private repositories belonging to other users, extract sensitive credentials such as password hashes, API tokens, SSH keys, multi-factor authentication secrets, and move laterally across connected systems, as well as alter source code stored on the system. 

While Burgess indicates that Gogs has addressed several argument injection vulnerabilities in recent years, this newly discovered vulnerability stems from a different code path within the Merge() function, which was not addressed. Moreover, users with write permissions in repositories with rebase merging are also at risk of exploiting this vulnerability, while environments which restrict repository creation remain vulnerable if attackers can obtain write access to qualifying projects. 

While the flaw was reported to the maintainer in March 2026, it remains unpatched as of the date of publication, making deployments across Windows, Linux, and macOS vulnerable to exploitation. Approximately 1,100 Gogs instances are currently exposed to the internet, according to Rapid7, but the true number is likely to be substantially greater due to the prevalence of deployments that operate behind VPNs and internal enterprise networks.

Additionally, the disclosure has brought to the vendor's attention concerns relating to its response timeframe. In March 2026, Burgess reported the vulnerability to the Gogs maintainers and received an acknowledgement on March 28, but no security update has been released since then. Given the platform's existing exposure footprint, this delay is particularly noteworthy. 

Data from Shadowserver indicates that more than 2,400 publicly accessible Gogs instances are currently located in Asia and Europe, with the highest concentrations occurring in the region, while Shodan indexes over 1,000 internet-facing systems that exhibit identifiable Gogs signatures. An incident of this type is reminiscent of one that occurred with CVE-2025-8110, another remote code execution vulnerability that was exploited by hackers before patches were available. 

A vulnerability discovered by Wiz Research during an investigation into a compromised Gogs deployment ultimately led to the U.S. Government's Cybersecurity and Infrastructure Security Agency (CISA), which classified it as actively exploited and directed federal agencies to secure affected systems, resulting in a significant threat model. 

In addition, this new flaw undermines the trust boundaries underlying shared Git hosting environments, making it a similar serious threat model. It is common for businesses, universities, and development teams to deploy multi-user software environments, where a single, authenticated account can control the underlying server infrastructure without having to gain access to another user's repository. 

If code execution is achieved, an attacker will be able to access all repository files hosted on the instance, extract authentication credentials stored within the backend databases, enter adjacent network resources, and manipulate source code on the file system. 

Gogs service accounts usually maintain unrestricted read and write rights across repositories that are stored under the same repository root; therefore, malicious modifications can bypass platform-level audit mechanisms and are difficult to identify in environments where commit-signing enforcement does not exist. It was also noted that exploitation can be highly practical and automated using publicly available tools, enabling attacks to be carried out within seconds with minimal forensic evidence remaining. 

Gogs' implementation of the "Rebase before merging" feature has resulted in the issue, as it internally invokes the git rebase command to create a linear project history by replaying commits. With the --exec parameter, Git executes shell commands after each replayed commit, creating the exploitation primitive when malicious input is incorrectly handled. 

While the rebase merge functionality is disabled by default, the repository can enable the feature through the project owner's settings, and new repositories are automatically assigned ownership to their creators, ensuring that abuse does not occur. Despite deployments that restrict repository creation, vulnerable code paths can still be exploited to execute remote commands by users who have access to repositories that support rebase merging.

Newly disclosed vulnerabilities in development platforms such as Gogs serve as a timely reminder that these platforms can magnify the impact of a single security weakness across entire software ecosystems. Considering the lack of a patch and the requirement for limited user privileges to exploit Gogs in common deployment configurations, organisations relying on Gogs should carefully evaluate repository permissions, disable unnecessary registration and repository creation features, and closely monitor merging activity. 

In light of the continued reliance on software supply chains as a critical component of business operations, the security of source code infrastructure has become more than an issue of development it has become a fundamental security priority that requires continuous monitoring, prompt remediation, and proactive defence.
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