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Coca-Cola says ransomware attack disrupts Fairlife operations, temporarily suspends U.S. dairy production

 


The Coca-Cola Company has revealed that a ransomware attack targeting its Fairlife dairy business has temporarily disrupted production across the United States after threat actors gained unauthorized access to company systems, including those supporting manufacturing operations.

The incident was disclosed in a Form 8-K filing with the U.S. Securities and Exchange Commission (SEC), a regulatory filing used by publicly traded companies to report significant corporate events. According to Coca-Cola, the cyberattack affected certain Fairlife systems, including production-related infrastructure, prompting the company to temporarily suspend manufacturing at its U.S. facilities while recovery efforts are underway.

Upon detecting the unauthorized activity, Coca-Cola said it immediately activated its incident response and business continuity protocols to contain the incident and minimize operational disruption. The company has engaged external cybersecurity advisors and experts to support its investigation and recovery efforts, while law enforcement has also been notified.

Although manufacturing operations have been interrupted, Coca-Cola emphasized that the ransomware attack has not affected the quality or safety of Fairlife products. The temporary production halt is part of the company's response as it works to restore impacted systems and verify operational readiness before resuming normal manufacturing activities. Fairlife's Canadian production facilities continue to operate normally and have not been affected by the incident.

The company said its investigation remains ongoing and that it is continuing to assess both the nature of the attack and its potential business impact. At this stage, Coca-Cola has not determined whether the incident is reasonably likely to have a material effect on the company's financial condition or overall operations.

Fairlife is one of Coca-Cola's dairy brands and manufactures a range of ultra-filtered milk products, protein shakes and nutrition beverages sold across the United States. Its product portfolio includes Ultra-Filtered Milk, Core Power Protein Shakes and Nutrition Plan.

Several aspects of the incident remain undisclosed. Coca-Cola has not confirmed whether attackers exfiltrated any data during the intrusion, whether the company has received an extortion demand or which ransomware operation may be responsible for the attack. As of publication, no known ransomware group has publicly claimed responsibility for the incident.

Ransomware attacks increasingly target organizations' operational environments in addition to traditional corporate networks, as disrupting production can exponentially multiply pressure on victims during recovery efforts. Many modern ransomware operations also employ double-extortion tactics by stealing sensitive information before encrypting systems and later threatening to publish the stolen data unless a ransom is paid. However, Coca-Cola has not indicated that any data theft occurred in this incident, and there is currently no public evidence confirming that attackers exfiltrated information from Fairlife's systems.

When asked whether data had been stolen, whether the company had received an extortion demand or which ransomware group may have been behind the attack, a Coca-Cola spokesperson declined to provide additional details beyond the company's public statement.

Coca-Cola continues to restore affected systems while its investigation remains ongoing, with U.S. Fairlife production expected to resume once recovery efforts are completed and manufacturing systems have been safely brought back online.

TRAI Seeks IT Act Powers to Act Against Spam-Tagging Apps Like Truecaller

 

The Telecom Regulatory Authority of India (TRAI) seeks new powers in the Information Technology (IT) Act to take action against call management apps, including Truecaller, Hiya, and Whoscall, for marking or blocking legitimate commercial calls as spam. The regulator has requested additional authority to act against call management apps for misidentifying or blocking approved commercial numbers. 

Sources said TRAI wanted to act against call management apps for misidentifying or blocking approved commercial numbers. Numbers in the 1400 and 1600 series have been designated for official promotional and customer service purposes. TRAI does not have the authority to prosecute such digital platforms because, unlike telecom licensees, who are bound by TRAI’s directions issued under the Telecom Regulation Act, they function as information intermediaries under the IT Act. 

However, authorities said TRAI had sought amendments to the IT Act to designate it as an “authorized agency” to notify such digital platforms of alleged violations of the IT Act, directing them to stop or take steps to bring their services within the bounds of the law. Authorities said the electronics and information technology ministry had approved the proposal in principle and that DoT would take up the needed legislative action with the ministry. However, authorities said TRAI did not seek to regulate call identifier apps but that the regulator felt that as information intermediaries, they should follow the laws and regulations administered by TRAI. 

Authorities felt that such apps’ labeling or blocking of numbers in the 1400 and 1600 series not only deprived authorized users of a reliable means of reaching out to them but also disrupted government-led outreach efforts, especially those using numbers in these series. Authorities said such interference disincentivized enterprises from using the 1400 and 1600 series of numbers and tempted them to use ordinary 10-digit mobile numbers for customer outreach. 

This defeats the purpose of having designated numbers since it becomes difficult for consumers to differentiate between legitimate and fraudulent callers, ultimately undermining consumer confidence and making it easier for spammers to masquerade as legitimate entities. Truecaller said in a statement reacting to the reports that it complied with the TRAI regulations about commercial numbers. 

The firm stated that it did not put spam labels over or block numbers in the 1400 and 1600 series despite being reported as spam on its app by many users. India seeks to balance consumer rights and obligations by regulating commercial communications while ensuring that legitimate communication avenues are not cut off for businesses that use spam calls to sell or inform the public.

UK Court Sentences Two Hackers to 5.5 Years for Transport for London Cyberattack That Caused £29 Million in Damages

 

Two hackers have been sentenced to five and a half years in prison each for carrying out the 2024 cyberattack on Transport for London (TfL), in what the UK's National Crime Agency (NCA) has described as the country's largest cybercrime prosecution to date.

Owen Flowers, 18, and Thalha Jubair, 20, received their sentences at Woolwich Crown Court on July 16, 2026. The duo had pleaded guilty on June 22, 2026, to an offence under Section 3ZA of the Computer Misuse Act 1990, acknowledging they acted recklessly and created a significant risk of serious harm to public welfare.

The cyberattack, which lasted from August 31 to September 3, 2024, severely disrupted TfL's operations. Around 148 systems were taken offline, forcing all 27,000 employees to report to offices in person to reset their passwords. Authorities estimate the attack resulted in approximately £29 million in financial losses and recovery costs.

Transport for London, which manages nearly 9 million passenger journeys daily, experienced widespread service disruptions. Dial-a-Ride services for vulnerable passengers became unavailable, digital payment systems were affected, concessionary travel card issuance was interrupted, Oyster photocard applications were suspended, and refunds faced significant delays.

The breach also exposed customer information, including names, email addresses, and, where stored, home addresses. Additionally, Oyster refund records containing bank account details and sort codes of approximately 5,000 customers may have been compromised.

According to prosecutors, messages exchanged between the defendants suggested they intended to erase their access before leaving the network. Investigators noted that a complete shutdown of TfL's systems could have caused economic losses of up to £56 billion. However, those damages were avoided after TfL proactively disconnected its own network to contain the intrusion.

Flowers was arrested on September 6, 2024, just days after the TfL breach ended. The NCA said officers found him actively targeting two U.S. healthcare organisations—SSM Health Care Corporation and Sutter Health—during the arrest.

Authorities recovered multiple digital devices, including laptops, desktop computers, hard drives, and USB storage devices. Evidence included screenshots showing access to TfL infrastructure and videos allegedly recorded by Flowers documenting Jubair's activity inside TfL systems. Investigators also uncovered Telegram conversations and an online collaboration platform used during the attacks.

The prosecution established that Flowers had access to the remote infrastructure used to launch all three cyberattacks, while evidence connecting Jubair to the TfL breach was obtained through international law enforcement cooperation.

Flowers also admitted to two additional cybercrime offences linked to attacks on the U.S. healthcare organisations. Prosecutors stated that he threatened to lock down healthcare systems while acknowledging in online conversations that it "might kill some 90-year-old on life support." Authorities said his arrest prevented those attacks from progressing further.

The NCA identified both individuals as senior members of the cybercrime group Scattered Spider, also known as Octo Tempest, UNC3944, and 0ktapus. However, the Crown Prosecution Service (CPS) stated only that the defendants had claimed affiliation with a group investigators believe was responsible for hundreds of cyberattacks between 2022 and 2025. The FBI has linked the group to data extortion, SIM swapping, and social engineering campaigns.

While authorities have not disclosed the exact method used to compromise TfL's network, Google has recommended strengthening identity verification procedures during password resets, device enrolment, and MFA changes to defend against such attacks.

Paul Foster, head of the NCA's National Cyber Crime Unit, urged organisations to contact law enforcement as soon as they detect cyber incidents, noting that the successful prosecution would likely not have been possible without TfL's prompt reporting.

Following the sentencing, the City of London Police also renewed calls for the introduction of Cyber Crime Risk Orders, which would allow courts to impose restrictions on offenders' access to digital devices, online services, and technology based on the level of cyber risk they pose. Commander Ollie Shaw described the proposed measures as a "digital prison" for cyber offenders. The two convicted hackers were 17 and 18 years old when the offences were committed.

Deepfake Cyber Fraud Costs Capillary Technologies Over ₹32 Crore

 

Capillary Technologies’ recent deepfake-enabled cyber fraud incident highlights how rapidly evolving AI tools are transforming from business enablers into serious security threats for global enterprises. The Bengaluru-based SaaS company disclosed that an overseas step-down subsidiary lost around €3 million, or over ₹32 crore, after attackers used sophisticated AI-powered impersonation to divert funds to unauthorized bank accounts. This case, reported in regulatory filings and multiple business media outlets, is now being seen as one of the most significant deepfake-related corporate frauds involving an Indian technology firm. 

According to the company’s stock exchange disclosure, fraudsters combined deepfake voice cloning, forged signatures and social engineering to convincingly pose as key managerial personnel and approve high-value fund transfers. By mimicking senior executives and manipulating trust within internal workflows, they managed to circumvent standard verification controls at the affected overseas subsidiary. The transfers were executed just before the first weekend of July, giving criminals a narrow yet effective window to move money across multiple accounts before robust checks could kick in. 

Capillary Technologies has said that no customer data, employee data or core technology infrastructure were compromised in the attack, which was restricted to banking transactions. The company has already recovered about €0.45 million and worked with local authorities to trace and freeze additional suspicious accounts linked to the fraud. Importantly, the impacted subsidiary is covered under cyber and crime insurance, and the insurer has been informed as the firm assesses how much of the loss will ultimately be absorbed.

Operationally, Capillary has emphasized that its business continues without material disruption and that this incident does not alter its annual or long-term growth guidance. However, the episode lands at a time when investors are already wary about rising AI-related pressures on the company’s business model and recent profit softness, potentially adding another layer of risk perception. While the direct fraud targeted a specific overseas unit, it underlines how AI-driven threats can quickly become a boardroom and investor concern, beyond just a cybersecurity issue. 

For the broader ecosystem, the Capillary case is a cautionary illustration of how deepfake voice and identity spoofing can defeat traditional approval chains, especially in finance and treasury operations. Enterprises now need multi-factor verification for high-value transactions, routine out-of-band confirmations, and continuous employee training to resist social engineering built on AI-generated content. As deepfake tools become cheaper and more accessible, robust cyber insurance, AI-aware internal controls, and proactive regulatory reporting will be critical to limit financial and reputational damage when such attacks inevitably occur.

Bitdefender Uncovers Windows Bind Link Technique That Evades EDR Detection


 

Researchers at Bitdefender have discovered a new technique for hiding malware from Endpoint Detection and Response (EDR) solutions by utilizing bind links, a valid Windows feature. Despite Microsoft's classification of this issue as low severity due to the fact that administrator privileges are required, Bitdefender maintains that the attack technique poses a significant risk since attackers frequently obtain elevated access during actual intrusions. 

The Bind Link feature is a valid kernel-level functionality that can be used by components such as Windows Sandboxes, Microsoft Store apps, and Windows containers to redirect virtual paths to actual system locations. As Bitdefender reports, attackers can manipulate these links so that trusted Windows paths point to malicious files instead of legitimate ones, enabling malware to execute while appearing harmless to security applications.

The issue affects Windows 10 RS4 and later versions, including Windows 11, meaning that most modern enterprise Windows systems may be vulnerable if attackers gain local administrator privileges. As a result, Bitdefender reports that this technique is particularly relevant as ransomware groups often seek elevated permissions before deploying malicious software or disabling security controls, making it particularly effective. 

Several attack methods were identified by researchers that abuse bind links. The first, file-binding, redirects trusted Dynamic Link Libraries (DLLs) paths to malicious DLLs, thus allowing attackers to bypass security mechanisms such as the Antimalware Scan Interface (AMSI). Second, process-binding tricks EDR solutions into inspecting trusted executables while a malicious file is actually being executed. 

By using Windows silos to create isolated filesystem views, silo-binding is the most advanced technique. Using this technique, malware is permitted to run within the silo while external security tools will only view clean, legitimate files. By disguising Invoke-Mimikatz as a trusted Windows system process, Bitdefender successfully bypassed an EDR solution by demonstrating the technique in practice. 

In addition to bypassing built-in Windows security measures such as AppLocker, Windows Firewall, and Sysmon, researchers observed that bind-link abuse was an effective post-compromise evasion technique. A legitimate Windows capability is exploited by bind-link abuse, unlike traditional "EDR killer" techniques which often rely upon vulnerable drivers. 

Instead of creating a permanent file on disk, the malicious redirection occurs only in memory via the Windows' bindflt.sys minifilter driver. Although Microsoft acknowledged these findings, they rated the issue as low severity since it requires local administrator privileges to exploit it. A ransomware group and advanced threat actor routinely obtain elevated privileges after compromising a computer system, according to Bitdefender, who disagreed with that assessment. 

Using bind-link abuse is similar to the increasingly common Bring Your Own Vulnerable Driver (BYOVD) approach, as attackers are able to evade endpoint protection similarly, but utilizing legitimate Windows functionality rather than vulnerable drivers for evasion. To detect path manipulation, endpoint security products should repeatedly verify the underlying file during execution to detect path manipulation. 

In addition, Bitdefender recommended that security vendors refrain from solely using trusted file paths when validating processes. Moreover, the researchers noted that Windows 24H2 offers protection against certain bind-link scenarios, although they described the safeguard as only a partial one. The findings of Bitdefender have been shared with Microsoft and the company has recommended strengthening monitoring of administrator-level activity and kernel-level filesystem changes. 

In spite of the low severity of the issue, researchers report that attackers are increasingly utilizing legitimate Windows features rather than exploiting software vulnerabilities, resulting in a new challenge to endpoint security. Bitdefender's findings illustrate the importance of stronger endpoint security beyond trustable file paths as attackers continue to exploit legitimate Windows features to evade detection. To protect against evolving post-compromise threats, organizations should closely monitor privileged activity and employ advanced detection techniques.

Dutch Authorities Arrest Multiple Suspects in Global Investment Fraud Investigation


 

Dutch authorities have arrested multiple suspects as part of an international investigation into an alleged investment fraud network that investigators believe defrauded victims worldwide through fake online investment schemes, with the operation at one point generating more than €100 million in monthly proceeds.

According to the Dutch Police, the criminal organization is suspected of operating an extensive network of approximately 20 call centers staffed by more than 700 individuals who allegedly posed as professional financial advisers. Investigators said the operation targeted victims across multiple countries, with teams assigned to specific regions and responsibilities to maximize the effectiveness of the fraudulent campaigns.

The investigation's primary suspect, a 46-year-old dual Israeli-Polish national, was arrested in Poland on May 26 before being extradited to the Netherlands, where he has been placed in pre-trial detention. Dutch authorities allege that he played a central technical role in building and maintaining the infrastructure that enabled the organization to conduct its activities while making it more difficult for law enforcement agencies to identify those involved.

Police also noted that publicly available information indicates the suspect had previously faced prosecution in connection with cyberattacks targeting several foreign government organizations. Authorities now believe he occupied an indispensable position within the investment fraud network.

The investigation expanded further between July 7 and July 10, when law enforcement officers arrested several Dutch and Belgian nationals in Cyprus, Greece, and Belgium for their suspected involvement in the scheme. Officials said the investigation remains active and additional arrests are possible as authorities continue to identify other members of the organization.

Investigators describe the alleged operation as a highly organized criminal enterprise that functioned similarly to a legitimate international business. Multiple call centers reportedly operated under centralized coordination while individual teams focused on victims in different countries. Employees allegedly used false identities, pseudonyms, and technical measures designed to conceal both their real identities and their physical locations during communications with potential victims.

According to investigators, the fraud relied heavily on long-term social engineering rather than immediate financial deception. Victims were first approached by individuals presenting themselves as experienced investment advisers who gradually established trust through repeated conversations. Once that trust had been developed, victims were encouraged to invest relatively small amounts through professional-looking online investment platforms that appeared to display genuine market activity and growing returns.

Authorities said these platforms did not reflect legitimate investments. Instead, the displayed profits were fabricated to create the impression of successful trading and encourage victims to continue depositing larger sums. Many of the payments were made using cryptocurrency, making it incredibly more difficult to recover stolen funds after they had been transferred. While victims believed their portfolios were increasing in value, investigators said the money was instead diverted directly to the criminal organization.

Dutch investigators have linked at least 550 fraud reports and approximately €25 million in reported losses in the Netherlands to the organization. Belgian authorities have also connected around 200 complaints to the same network. Police believe these figures represent only a fraction of the total impact, estimating that the operation may have claimed tens of thousands of victims globally, with many individuals losing more than €10,000 each.

Authorities believe the organization has been active since at least 2021 and employed sophisticated operational security practices to avoid detection. Investigators said members routinely relied on pseudonyms, concealed calling locations, and other technical methods to obscure their identities while communicating with victims.

The investigation ultimately progressed after authorities traced digital evidence, including IP addresses, financial transaction routes, and other forensic artifacts that helped identify critical infrastructure associated with the operation. The examination of technical equipment provided investigators with additional insight into how the organization functioned and helped establish the locations of several suspects.

Dutch Police said the investigation was conducted in cooperation with international law enforcement partners, while commercial service providers also assisted in disrupting elements of the group's digital infrastructure. Authorities emphasized that efforts to identify additional suspects and victims remain ongoing.

Police have also warned the public to remain cautious of so-called recovery services that claim they can retrieve money lost to investment scams. Investigators noted that, in some cases, such offers are themselves fraudulent attempts to exploit victims a second time by demanding additional payments under the false promise of recovering stolen funds.

Govt: Kudankulam Data Breach Did Not Impact Nuclear Security, No Immediate Review Planned

 

The Centre has attempted to reassure the public that the data breach incident involving electronic files of the Kudankulam Nuclear Power Plant (KKNPP) has no implication on the nation’s nuclear security or reactor operations. Union Minister of State for Atomic Energy Jitendra Singh stated that the breach did not affect any sensitive nuclear facility or infrastructure. 

Singh stated during an interaction with reporters on the sidelines of the press conference on July 16 that there was no need for an immediate security review since the breach did not concern nuclear activities or reactors. Nuclear Power Corporation of India Limited (NPCIL), which manages the Kudankulam plant, claimed that the data breach incident did not disclose any sensitive information about reactors. 

“In the given scenario, the data breach is related to the Engineering, Procurement and Construction (EPC) contract for the Common Services–Balance of Plant (BoP) package for Units 3 and 4 under Implementation Agreement 7 (IA-7),” the NPCIL stated. It added that the EPC contract is signed with Reliance Infrastructure via a public tender process in 2018 for Kudankulam NPP. “The balance of plant involves many elements such as auxiliary systems, services, and infrastructure like cooling towers, which are comparable to those in conventional thermal power stations,” NPCIL noted.

It added that the BoP does not contain any nuclear power plant equipment or components or safety and security features. “In this context, NPCIL is not contemplating any First Information Report (FIR) as the cyber-attack was on the data of Reliance Infrastructure,” an NPCIL spokesperson said. They added that the information shared with Reliance Infrastructure during the tendering procedure included indicative drawings and technical specifications on the common services balance of plant, typically provided to all bidders. “This information did not include any sensitive nuclear safety information,” the spokesperson added. 

NPCIL stated that Reliance Infrastructure develops engineering drawings using the technical specifications and drawings provided by NPCIL in coordination with original equipment manufacturers (OEMs) for the approval process. The breach of data came after Reuters reported that ransomware group World Leaks exfiltrated more than 19,000 files from servers hosting Kudankulam Nuclear Power Plant, covering the 2016 fiscal year through mid-2025. 

According to the report, the documents contain details on control, cooling, and ventilation systems, suppliers, inspections conducted by Indian and Russian personnel, meeting records, and insurance data. The breach was attributed to a server managed by data centre infrastructure provider Yotta, hosted by third-party Reliance Group, which was responsible for the EPC contract for the Kudankulam NPP, admitting that the attack resulted in a partial data breach. 

Tamil Nadu-based Kudankulam Nuclear Power Plant currently operates two 1,000 MW VVER reactors and is set to commission four more reactors under the Russian technical collaboration agreement. The project aims to make Kudankulam one of India’s largest nuclear power parks with a total capacity of 6,000 MW. The data breach incident does not appear to affect the nuclear security or safety of the nation, as the government and NPCIL continue to emphasize. 

The breach did, however, raise concerns about the safety of digital assets and data security in various contracts, including those of critical infrastructure like Kudankulam NPP.

Bengaluru Housewife’s WhatsApp Hacked; Morphed Obscene Videos Shared Online

 

A 42-year-old housewife in Bengaluru has fallen victim to a disturbing cybercrime after her WhatsApp account was hacked and morphed obscene videos were shared online, triggering widespread outrage and highlighting the growing threat of digital harassment against women. The incident came to light when the woman’s contacts began receiving explicit, AI-generated videos from her account, causing severe emotional trauma and reputational damage. City cyber police have registered a case and launched an investigation to identify the perpetrators behind the breach. 

The attack appears to follow a pattern seen in recent Bengaluru cybercrime cases, where hackers gain unauthorized access to victims’ messaging apps through deceptive tactics. In many instances, culprits trick individuals into sharing one-time passwords (OTPs) or clicking malicious links sent via SMS or WhatsApp, enabling remote control over their devices. Once inside, attackers use AI-powered tools to morph personal photos or videos into sexually explicit content, which is then circulated among the victim’s contacts or posted on social media. Such violations not only invade privacy but also weaponize technology to intimidate and shame victims, particularly women. 

This case is part of a troubling trend of gendered cyber harassment in Karnataka. Just months earlier, in April 2026, a 24-year-old woman in Bengaluru accused her cousin of using AI to morph her images into nude visuals and posting them on a fake Facebook profile. Another housewife was blackmailed with morphed photos after downloading a fraudulent loan app in 2024. These incidents underscore how rapidly evolving deepfake and morphing technologies are being misused to exploit victims, often with long-lasting psychological and social consequences. 

Legal recourse for such crimes exists under India’s Information Technology Act and the Bharatiya Nyaya Sanhita (BNS), including sections addressing sexual harassment, identity theft, and publishing sexually explicit material. In several recent cases, Bengaluru’s cybercrime police have successfully traced culprits through digital footprints and arrested suspects, including a group of four men who morphed and circulated photos of seven women, some of them minors. However, experts caution that legal processes can be slow, and many survivors hesitate to report incidents due to stigma, fear of retaliation, or lack of awareness about their rights. 

Safety recommendations 

Cybersecurity experts urge users to adopt proactive measures to protect their digital identities. Enabling two-factor authentication on WhatsApp, never sharing OTPs or verification codes, and avoiding unknown links or file downloads are critical first steps. Regularly updating apps, using strong passwords, and being cautious about the personal information shared online can significantly reduce risk. For those affected, immediate actions include reporting the incident to local cybercrime cells, preserving evidence such as screenshots and message logs, and seeking support from trusted friends or counselors. As digital threats grow more sophisticated, public awareness and robust security practices are essential to safeguard privacy and dignity in an increasingly connected world.

AI-Assisted TuxBot v3 Evolution Botnet Targets IoT Devices With Modular Multi-Channel Attack Framework


Cybersecurity researchers have uncovered a previously undocumented Internet of Things (IoT) botnet framework named TuxBot v3 Evolution, which appears to have been partially developed with the help of a large language model (LLM). However, researchers found that the AI-assisted code contained multiple implementation flaws, indicating the malware is still under development.

"While the AI complied with their request to generate botnet code, it included a safety disclaimer that the developer failed to remove before shipping," Palo Alto Networks Unit 42 said. "Although the LLM clearly aided in constructing the botnet, several functions in the analyzed samples failed to work correctly."

According to Palo Alto Networks' Unit 42 researchers, a manual review of the code could have easily corrected many of these issues, suggesting that more refined versions of the malware may already exist in the wild.

The TuxBot v3 Evolution framework is built using several interconnected components, including a C-based bot agent capable of cross-compiling across architectures such as ARM, MIPS, MIPSEL, MIPS64, x86_64, PowerPC, and RISC-V. It also features a Go-based command-and-control (C2) server equipped with a DDoS-for-hire management panel, a custom exploit virtual machine, Docker-based testing infrastructure, and an automated build system.

The bot agent is designed to brute-force Telnet credentials using a database of 1,496 username-password combinations while exploiting known vulnerabilities affecting more than 30 IoT device families. For communication, the malware relies on an encrypted TCP channel and incorporates multiple fallback mechanisms, including a SHA512-based domain generation algorithm (DGA), peer-to-peer (P2P) gossip protocol secured with Ed25519 signatures, Internet Relay Chat (IRC), DNS TXT queries, and HTTP polling.

Researchers traced the botnet's origins to code borrowed from multiple malware families, including Mirai, AISURU, and Wuhan, while also identifying portions adapted from the open-source MHDDoS Python DDoS toolkit. One malware sample was uploaded to VirusTotal on January 20, 2026, indicating the framework has existed for at least six months. Evidence also suggests development began approximately a year earlier after the threat actor cloned the MHDDoS repository from GitHub.

"According to the framework's description, the TuxBot developer built what they called a professional-grade C2 framework platform with a multi-user admin panel, automated deployment, and modular attack capabilities," researchers Chris Navarrete, Asher Davila, and Doel Santos said.

The Go-based C2 server listens on three separate TCP ports to perform different functions. Port 1999 (or 31337) handles encrypted communication with infected bots, port 2222 provides operators with an interactive SSH shell, and port 9999 offers a JSON-based interface for programmatic management.

After infecting a device, TuxBot executes a structured initialization process. This includes retrieving the C2 address through a multi-layered communication system, activating anti-debugging and anti-virtual machine protections, concealing its process name, establishing persistence, and launching several attack modules.

These modules support distributed denial-of-service (DDoS) attacks, terminate competing malware, establish communications through IRC, HTTP, DNS, and P2P channels, scan services including Telnet, SSH, HTTP, and Android Debug Bridge (ADB), deploy a SOCKS5 proxy, and reserve functionality for cryptocurrency mining.

Researchers also found that the malware's HTTP scanner is capable of maintaining up to 128 concurrent connections to identify vulnerable web interfaces. Persistence mechanisms include systemd services, cron jobs, and watchdog processes that ensure the malware remains active even after system reboots.

"Multiple files contain raw LLM chain-of-thought reasoning left verbatim in comments," Unit42 said. "These comments are the LLM's internal reasoning as it worked through porting tasks. This reasoning is complete with self-interruptions, decisions, and references to 'the user' (meaning the developer who prompted the LLM)."

Although TuxBot v3 Evolution remains an unfinished project, researchers believe its modular architecture and AI-assisted development demonstrate how threat actors can rapidly build sophisticated malware with limited resources. The framework combines multiple C2 communication channels, a custom exploit virtual machine, and a Go-based DDoS-for-hire panel into a single platform.

"Shared infrastructure with Kaitori v3.9 and AISURU tooling places the TuxBot operator within the Keksec ecosystem," Unit 42 concluded. "This group is known for running multiple IoT botnet variants in parallel. TuxBot appears to be another variant in that portfolio. It's one that aims to go beyond the usual Mirai fork with its encrypted C2, its DGA, and a modular exploit system, even though that system does not work yet in the version we recovered."

The findings come shortly after researchers identified two additional botnets, RustDuck and AryStinger, which have been targeting routers, IP cameras, Android TV boxes, and inadequately secured servers to build networks capable of launching DDoS attacks and conducting reconnaissance activities.

Windows 11 KB5101650 and KB5099414 Updates Released With Security Fixes and New Features


 

A cumulative update for Windows 11 based on Patch Tuesday July 2026 is now available, with KB5101650 for versions 25H2 and 24H2 and KB5099414 for version 23H2. As well as addressing 571 security vulnerabilities, the mandatory updates also improve the usability, accessibility, and performance of the operating system. 

Using the Microsoft Update Catalog or by navigating to Settings > Windows Update and selecting Check for updates, users may download the updates manually, following installation. As a result of the installation, Windows 11 build numbers have been updated to 26200.8875 (25H2), 26100.8875 (24H2), and 22631.7376 (23H). It is noteworthy to note the wider rollout of Point-in-Time Restore, which allows users to restore their systems to a previous state in a more efficient manner. 

Aside from new features, Microsoft has introduced several security-focused improvements as part of the July Patch Tuesday release, as well as enhanced controls for enterprise administrators. As a result of improved device targeting in the update, more eligible systems will be able to receive updated Secure Boot certificates automatically via Windows Update, thus expanding Secure Boot certificate deployment. 

Moreover, Microsoft has also upgraded the built-in curl command-line utility to version 8.21.0, which provides additional security features. In addition to reducing unnecessary notifications and taskbar badges, this update also disables automatic opening on hover, and provides more customization options for Widgets. There are several additional improvements to File Explorer, including quicker launch times, improved responsiveness, enhanced support for complex file paths, and new quick actions such as Open File Location and Ask Copilot for work and school accounts. 

Several additional features have been added to enhance accessibility, including a Screen Tint feature which reduces eye strain and improved Magnifier controls that provide the ability to set precise zoom levels for the Magnifier. 

A number of languages are now supported by Voice Access and Voice Typing, including French, German, and Spanish. These languages now support real-time grammar, punctuation, and recognition enhancements, enhancing dictation accuracy. In addition to improving connectivity and hardware reliability, the release also enhances Bluetooth performance by improving device pairing time, microphone synchronization, voice calls that are more reliable, and LE Audio accessory stability.

With networking enhancements, Wi-Fi crashes are reduced, VPN compatibility is improved, virtualization networks are strengthened, and network settings are preserved during operating system upgrades. The security of Remote Desktop (RDP) has also been enhanced by supporting SHA-2 certificate thumbprints for trusted RDP publishers, while maintaining SHA-1 only for backward compatibility. 

In order to reduce phishing risks and prepare for eventually terminating SHA-1 support, organizations are encouraged to migrate to stronger SHA-256 certificates and update Group Policy settings for Remote Desktop files. Furthermore, the cumulative update resolves a compatibility issue that was caused by the June 2026 security update, which prevented third-party applications using OLE Automation from launching Microsoft Office or opening Office files. 

A further step to strengthen network security was taken by Microsoft by implementing stricter registration requirements for Transport Driver Interfaces (TDI). This may affect applications that rely on unregistered third-party TDI transports. Additionally, improved HD Audio reliability, stability of the Start menu, graphics performance on multiple monitors, Windows Subsystem for Linux (WSL) network improvements, improved printer installation that uses the Internet Printing Protocol (IPP) by default, and enhanced touchpad customization options are also included. 

Microsoft has reported no known issues with this month's Patch Tuesday update, which makes it a relatively stable release in comparison with previous Patch Tuesday releases. Considering the large number of security fixes included, users are encouraged to install the updates immediately to ensure protection against recently disclosed vulnerabilities. Also included in this update is a minor modification to the handling of keyboard shortcuts in Windows by altering how hotkey cleanup is conducted. 

There is a possibility that, in rare cases, certain built-in Windows experiences may temporarily cease to respond to specific keyboard shortcuts after installation. Restarting the affected application should typically resolve the issue, and users may also report persistent problems through the Feedback Hub.

Patch Tuesday updates in July 2026 reinforce Microsoft's ongoing commitment to enhancing the security, stability, and user experience of Windows 11. Hundreds of vulnerabilities have been addressed along with new features and reliability enhancements. Users and organizations are encouraged to install the updates as soon as possible to ensure optimal protection.

RabbitMQ Flaw Exposes OAuth Secrets, Risks Full Broker Takeover

 

A serious vulnerability in RabbitMQ is threatening enterprise messaging systems by allowing attackers to steal OAuth secrets and take full control of brokers. Tracked as CVE-2026-57219, the flaw has a CVSS score of 8.7 and affects popular RabbitMQ versions used across organizations for asynchronous communication and event-driven architectures. 

Discovered by security researchers at Miggo, the vulnerability stems from an obsolete HTTP API endpoint, GET /api/auth, within RabbitMQ's management plugin. When the management plugin is enabled and OAuth 2 is configured using the management.oauth_client_secret setting, the endpoint returns the broker's confidential OAuth client secret to anyone who can reach it, without requiring authentication. Attackers can then exchange this secret for an administrator token, gaining complete control over every message, queue, user, and broker setting in the deployment.

The affected versions span all releases from 3.13.0 onwards, including branches 4.0, 4.1, and 4.2, up to the patched versions 3.13.15, 4.0.20, 4.1.11, and 4.2.6. Enterprises running RabbitMQ in cloud environments, multi-tenant architectures, or setups where the management interface has been inadvertently exposed to the internet face the highest risk. Installations without the management plugin or those not using the specific OAuth client secret configuration are not vulnerable, but many production systems do rely on these features for identity integration and centralized access control. 

In addition to the primary flaw, RabbitMQ also addressed a second, medium-severity vulnerability, CVE-2026-57221, which allows any authenticated user to bypass tenant isolation and read statistics about queues and exchanges across virtual hosts. While this does not permit data modification, it enables attackers with low-level access to perform reconnaissance, map an organization's messaging topology, and plan more targeted follow-up exploits. Both vulnerabilities have existed in the codebase since early 2024, but there is currently no evidence of active exploitation in the wild. 

Mitigation tips 

Organizations using RabbitMQ should prioritize applying the latest patches immediately, as software updates are the only reliable way to close the /api/auth endpoint and fix the authorization bypass. Until patches can be deployed, administrators should restrict network access to the management plugin, block internet exposure, and monitor for suspicious API requests. 

After updating, it is critical to rotate OAuth client secrets, because the vulnerability may have already leaked credentials that remain valid even after the software is fixed. With enterprise messaging at the core of modern application workflows, prompt remediation is essential to prevent potential data breaches and operational disruptions.

Researchers Find Claude for Chrome Flaws That Could Let Malicious Extensions Trigger Sensitive Google Tasks




Researchers at Manifold Security have disclosed two security weaknesses in Anthropic's Claude for Chrome extension that could allow another browser extension with access to the Claude website to trigger predefined AI-powered actions involving a user's Gmail, Google Docs and Google Calendar.

According to the researchers, the issues remain present in version 1.0.80 of the extension despite earlier mitigations introduced after the disclosure of the "ClaudeBleed" vulnerability. While Anthropic restricted how external webpages can communicate with the extension, Manifold says the underlying trust boundary that determines whether a user intentionally initiated an action has not been fully addressed.

The findings do not indicate that arbitrary websites can directly read a user's email or documents. Instead, the attack requires another browser extension that already has permission to execute scripts on the claude.ai domain. If such an extension is malicious or becomes compromised, it could abuse Claude's existing capabilities to initiate AI tasks that access a user's connected Google services.


Forged clicks can initiate predefined Claude actions

Following the earlier ClaudeBleed disclosure, Anthropic replaced unrestricted prompt handling with a fixed allowlist of predefined onboarding tasks. Rather than allowing external callers to submit arbitrary prompts, the extension now recognizes only nine task identifiers embedded within its code.

Among these are demonstration workflows for third-party services such as DoorDash, Salesforce and Zillow, along with tasks that interact with Gmail, Google Docs and Google Calendar. This design significantly narrows the attack surface because outside scripts can no longer provide custom instructions for Claude to execute.

However, Manifold Security found that the mechanism responsible for launching these tasks can still be manipulated.

The researchers explain that a content script running within the extension monitors the Claude webpage for clicks on a specific onboarding element. When a click occurs, the script reads the associated task identifier and forwards it to the extension, which opens Claude's side panel with the corresponding workflow prepared.

The problem lies in how those clicks are validated. Instead of confirming that the event originated from an actual user interaction, the extension accepts any matching click event, including one generated programmatically by JavaScript.

Modern browsers provide an "event.isTrusted" property that distinguishes genuine user actions from synthetic events created by scripts. According to Manifold, the extension does not verify this property before processing the request.

As a result, another extension capable of interacting with the Claude webpage can dynamically create the required element, assign one of the approved task identifiers and dispatch an artificial click event. Because the extension treats the event as legitimate, Claude opens the selected workflow as though the user had manually initiated it.

The researchers demonstrated this behavior using a short proof-of-concept script executed within the Claude page, showing that synthetic click events marked as untrusted were still accepted by the extension.


Approval settings determine the level of risk

Whether the forged action progresses beyond this point depends largely on how the extension has been configured.

For users operating under Claude's default "Ask before acting" setting, the extension still presents an approval prompt before carrying out actions involving Gmail, Google Docs or Google Calendar. This additional confirmation prevents automatic execution, although users could still unknowingly approve an attacker-triggered request.

The risk increases considerably for users who have enabled the optional "Act without asking" mode. In this configuration, the extension can perform supported tasks without requesting further confirmation, allowing attacker-triggered workflows to execute automatically.

Manifold assigned a CVSS severity score of 7.7 under the default approval model and 9.6 when unattended execution is enabled.

The researchers say a straightforward mitigation would be to reject any click event that was not generated by a genuine user, preventing scripts from activating these workflows through synthetic browser events.


Researchers identify second permission-handling concern

Manifold also disclosed a separate issue involving how the extension initializes permission settings when its side panel loads.

According to the researchers, if the panel starts with a specific URL parameter indicating that permission checks should be skipped, the extension immediately enters a mode that bypasses user approval for supported actions.

Although users receive a warning indicating that Claude now has broader authority to perform actions on their behalf, the privileged session has already been established by the time the notification appears.

The researchers emphasize that this second issue is not directly exploitable under current conditions because the parameter can presently be generated only by the extension itself. Nevertheless, they argue that any future vulnerability allowing a lower-privileged component to influence this parameter could eliminate the remaining approval barrier and enable silent execution.

Potential attack paths discussed by the researchers include future message-handling flaws, panel initialization bugs or cross-site scripting vulnerabilities that could expose the parameter to untrusted input.

To reduce that risk, Manifold recommends that the extension ignore permission-related values supplied through URLs and instead always initialize new sessions in approval mode.

The researchers classify the forged-task technique as an example of indirect prompt injection within the OWASP Top 10 for Large Language Model Applications because an attacker manipulates the AI agent into executing one of its own predefined workflows rather than supplying new instructions directly.

They also associate the unattended execution scenario with excessive agency, referring to AI systems that are granted broad authority to perform sensitive actions with minimal user oversight.

According to the report, these behaviors occur regardless of whether users are running Claude Opus, Sonnet or Fable, indicating that the weaknesses originate in the browser extension rather than the underlying language models.


Issues remain unresolved months after disclosure

Manifold Security reported both vulnerabilities to Anthropic on May 21 while testing version 1.0.72 of the extension. Anthropic acknowledged the reports the following day.

The forged-click issue was closed on the basis that it fell within the scope of the previously reported ClaudeBleed investigation, which Anthropic indicated remained open while a more comprehensive solution was being developed.

The permission-handling report was classified as informational because the relevant parameter was intended for workflows that users had already configured for unattended execution.

Despite those responses, Manifold says it found the same vulnerable code paths unchanged after examining version 1.0.80 released on July 7.

As of July 14, the researchers noted that no CVE identifier had been assigned to either issue and Anthropic had not published a public advisory addressing the findings.

The latest research follows a series of security concerns involving AI-powered browser agents.

Earlier this year, researchers disclosed ClaudeBleed, a vulnerability that allowed websites to inject prompts into Claude for Chrome by exploiting how the extension trusted requests originating from the Claude website itself rather than verifying which script generated them.

LayerX, which originally disclosed ClaudeBleed, described the issue as a classic "confused deputy" problem, where software possessing legitimate privileges unknowingly performs actions on behalf of an untrusted requester.

Security researchers have also identified comparable trust-boundary weaknesses affecting other Anthropic products, including Claude Code, demonstrating broader challenges associated with AI agents that can directly interact with browsers, developer environments and online accounts.

The latest findings reinforce the importance of carefully validating user intent before granting AI assistants access to sensitive online services. As AI-powered browser agents become increasingly capable of interacting with email, documents and productivity platforms, researchers argue that ensuring those actions genuinely originate from users remains one of the most critical security controls.

Pentagon Pauses CMMC Phase Two Rollout for 60-Day Review of Cybersecurity Program

 

The US Department of Defense (DoD) has decided to suspend the implementation of the cybersecurity maturity model certification (CMMC) second phase on a temporary basis. The DoD will conduct a 60-day review before continuing with the implementation of the new cybersecurity requirements that were supposed to take effect in November 2026. Chief information officer of the Department of War (DoW), Kirsten Davies, stated that the CMMC pause gives an opportunity to “remove burdensome requirements while still maintaining national security.” 

Davies emphasized that DoD’s phase one requirements as well as all the regulations regarding the protection of information, are still in full force until further notice. Additionally, Davies noted that the creation of the CMMC Review and Reform Task Force charged with soliciting feedback from industry constituencies ahead of any reconsideration of the program will contribute to burden reduction. 

In particular, the task force will ensure that small businesses and nontraditional contractors are not overly burdened by certification requirements, thus facilitating their participation in defense contracting. Undersecretary of War for Acquisition and Sustainment Michael Duffey stated that the DoD wants to prevent “small manufacturers from being shut out of the defense market due to the cost and complexity of the CMMC.” 

The cybersecurity maturity model certification policy sets out cybersecurity requirements for defense industrial base (DIB) companies and contractors. The CMMC 2.0 requirement is applicable to all DoD contractors and subcontractors handling Federal Contract Information (FCI) or Controlled Unclassified Information (CUI). 

The newly implemented CMMC 2.0 cybersecurity requirements came into full force on November 10, 2025, and will be implemented in phases. During phase one, which was completed on November 10, 2025, organizations had to conduct self-assessments for Level 1 and some Level 2 contract work. Level 1 of the CMMC 2.0 covers the protection of FCI and requires a minimal level of cybersecurity maturity, while Level 2 covers the protection of CUI and includes the security requirements of the National Institute of Standards and Technology (NIST) Special Publication (SP) 800-171. 

On the other hand, Level 3 includes more stringent measures to protect against advanced persistent threats to sensitive DIB information. As of November 10, 2026, the beginning of the second phase, organizations will be required to undergo third-party assessment organization (TPO) certification for many Level 2 contracts. One of the reasons for postponing the second-phase implementation, as stated by officials, is the shortage of TPOs accredited to certify organizations ahead of the November 10, 2026 deadline. 

Under the initially established schedule, the third phase of the CMMC 2.0 implementation was set to begin in 2027. It included the introduction of Level 3 requirements for organizations that handle sensitive information and will affect most DoD contracts in Fiscal Year (FY) 2028. Finally, the fourth phase was supposed to ensure complete transition to the new framework in order to meet all CMMC requirements. 

As a result of the 60-day review, DoD officials will make recommendations on revising the CMMC 2.0 in order to reduce the burden on industry while addressing warfighters’ and authorizers’ needs in terms of enhanced cybersecurity.

Microsoft Issues Record 622 Security Fixes in July Patch Tuesday, Urges Immediate Action on Two Exploited Zero-Day Flaws

 

Microsoft has rolled out its largest-ever Patch Tuesday update, addressing 622 vulnerabilities across its software ecosystem. The July release significantly surpasses June's update, which fixed around 200 vulnerabilities, making it the company's most extensive security update to date.

Among the fixes are two zero-day vulnerabilities that Microsoft confirmed are already being actively exploited. The flaws impact on-premises SharePoint Server and Active Directory Federation Services (AD FS), making them the highest-priority patches for organizations.

The first flaw, CVE-2026-56164, affects Microsoft SharePoint Server. According to Microsoft, attackers can exploit the vulnerability remotely to gain elevated privileges without requiring authentication, user interaction, or valid credentials. The company credited Mandiant's incident response team and Google's FLARE team for identifying the issue during active attacks, although it has not disclosed details about the threat actors or attack techniques involved.

Organizations running self-hosted SharePoint servers are advised to deploy the update immediately. Microsoft also noted that enabling Antimalware Scan Interface (AMSI) in Full Mode provides additional protection against exploitation. The timing is particularly significant as SharePoint Server 2016 and 2019 have reached the end of extended support, with no Extended Security Updates (ESU) program available for either version.

The second exploited vulnerability, CVE-2026-56155, impacts Active Directory Federation Services (AD FS). The flaw enables an authenticated attacker to elevate privileges locally due to weak access controls. Microsoft's Detection and Response Team (DART) discovered the issue. While Microsoft has not revealed how attackers are leveraging the flaw or the privileges it grants, AD FS plays a critical role in enterprise authentication by issuing security tokens across trusted environments, making the vulnerability particularly important.

Although neither of the two vulnerabilities has been added to the Cybersecurity and Infrastructure Security Agency's (CISA) Known Exploited Vulnerabilities (KEV) catalog at the time of writing, Microsoft has already classified both as actively exploited. Security experts recommend organizations prioritize these patches without waiting for a KEV listing.

Microsoft also fixed CVE-2026-50661, a publicly disclosed vulnerability affecting BitLocker. The issue allows attackers with physical access to bypass BitLocker protections. Since the flaw cannot be exploited remotely, it is considered less urgent than the actively exploited zero-days but should still be addressed as part of routine patch management.

Another notable update addresses CVE-2026-55040, a SharePoint JWT authentication bypass vulnerability disclosed by Rapid7 Labs. Researchers demonstrated that the flaw could be chained with a separate remote code execution (RCE) vulnerability to achieve unauthenticated code execution on vulnerable servers. Microsoft has confirmed that the authentication bypass is fixed in July, while the associated RCE vulnerability is scheduled to receive a patch in August.

Kerberos RC4 Hardening Completed

The July release also marks the completion of Microsoft's long-running effort to phase out RC4 encryption within Kerberos authentication. The update removes the rollback mechanism that administrators had been using since January.

After installing the update, RC4 authentication will only function for accounts specifically configured to allow it. Organizations are advised to audit service accounts using Microsoft's RC4 audit events and rotate passwords where necessary so that modern AES encryption keys are generated before deploying the update. Failure to prepare legacy systems could lead to authentication failures after patching.

AI-Driven Security Research Expands Patch Volume

Microsoft previously indicated that customers should expect larger Patch Tuesday releases as artificial intelligence improves vulnerability discovery. In a July 9 announcement, the company said it anticipated a "higher volume of security updates included in each security release" due to AI-assisted security research.

The company highlighted its MDASH multi-model agentic scanning platform, which previously identified multiple vulnerabilities in earlier Patch Tuesday releases. However, Microsoft has not disclosed how many of July's 622 vulnerabilities were discovered using the system.

Faster Patching Becoming Increasingly Important

Security experts warn that the growing number of vulnerabilities makes traditional severity-based prioritization less effective. Once patches become publicly available, attackers can rapidly analyze them to develop exploits, significantly reducing the time organizations have to respond.

Rather than relying solely on CVSS scores, experts recommend prioritizing vulnerabilities based on active exploitation indicators, including Microsoft's exploited status, CISA's Known Exploited Vulnerabilities catalog, and Exploit Prediction Scoring System (EPSS) data.

Microsoft's July Patch Tuesday demonstrates how AI-driven vulnerability discovery is accelerating both defensive and offensive security efforts, making timely patch deployment increasingly critical for organizations.

Japan's Largest Taxi Service Goes Offline After Cyberattack


Nihon Kotsu, Japan’s largest taxi operator, said that its systems were impacted in a cyberattack, causing the company to close down some of its infrastructure.

The incident happened last week and impacted business operations such as the company’s taxi dispatch system, currently offline.

Nihon Kotsu has an annual revenue of around $1 billion.

The company has 18,228 employees and has 8,588 taxis and over 2000 chauffeur vehicles.

Nihon Kotsu said in a statement, “We have confirmed that our internal systems were subjected to unauthorized external access (malware infection)”. It further added that “immediately after detecting the unauthorized access, we implemented emergency measures, such as disconnecting systems to prevent further damage.”

The impact

The company has closed down systems to offline to stop the threat but it has widely caused disruption in services.

The incident has disrupted web booking, car hire, reservation management, few internal systems, and telephone dispatch service.

Nihon Kotsu advised people to use the ‘GO’ taxi app instead, or use a taxi stand for booking a Nihon Kotsu vehicle. It is a major operational damage for a company that has one of  Tokyo’s biggest fleets but the manual working is still operational. The hire car reservation system is offline.

In a different announcement, Nihon Kotsu said that the “labor taxi” service for pregnant women is shut down in a few areas.

Investigation

The firm has brought in external cybersecurity experts to assist in investigating if there has been a data leak. The internal network has been separated to limit further spread.

Currently, no data leak has been confirmed and Nihon Kotsu will provide updates via official channels. “We are currently conducting a detailed investigation with specialized agencies into whether and to what extent data has been leaked. At this time, no information leak has been confirmed. However, in the unlikely event that we discover any leak or potential leak of personal information of our customers or related parties, we will promptly make an official announcement and contact those affected individually, in accordance with the law,” Nihon Kotsu said.

What next

Customers of Nihon Kotsu are cautioned not to click on any links in suspicious communications purporting to be from the company and not to open anything they receive. 

CrashStealer macOS Malware Uses Apple-Notarized App to Evade Security Checks



CrashStealer, a new macOS information-stealing malware named for Apple's Mac operating system, bypasses built-in security protections by using an Apple notarized application, demonstrating a growing trend of malicious actors utilizing legitimate software verification mechanisms in order to target Apple users. 

Jamf Threat Labs researchers discovered that the malware is distributed via a disk image named Werkbit.app that is signed and notarized by Apple. Due to the fact that the installer is notarized by Apple and has a valid developer ID, Gatekeeper security checks can be successfully passed by the installer, increasing user confidence and acceptance of the application.

In early May 2026, Jamf Threat Labs identified CrashStealer as a suspicious macOS sample uploaded to VirusTotal. Activated infections were detected by researchers in early July, indicating the malware had progressed from development to real-world deployment. 

Based on the timeline, the operators seem to have refined the malware before launching broader attacks on macOS. This macOS stealer is written in native C++, unlike many macOS stealers, which rely on AppleScript or Objective-C wrappers. As a result, CrashStealer is more difficult to analyze while ensuring enhanced performance. Researchers have reported that the malware validates the user's macOS login password. 

Once the password has been validated, the malware can unlock the user's login keychain and gain access to additional sensitive information. The attack chain is designed to keep the user's identity hidden. A GitHub repository is utilized by the malware to retrieve configuration data after the victim launches the installer, which is then used to download the final malicious payload. 

GitHub-hosted configurations contain instructions for downloading shell scripts that are responsible for retrieving the final malware payload from attacker-controlled infrastructure when the victim launches the installer. CrashStealer reduces its forensic footprint by decoding its contents during execution rather than storing them in plain text during execution. 

The CrashStealer application establishes persistence as a LaunchAgent, utilizes multiple anti-analysis techniques, and checks for installed security or forensic tools before harvesting data by employing multiple anti-analysis techniques. As a precaution, the malware masquerades as CrashReporter, Apple's legitimate crash reporting utility. 

By using Apple's bundle identifier, icon, and naming conventions, the malware makes malicious activity appear to be similar to legitimate system activity. This malware targets credentials stored in Chromium-based browsers as well as Mozilla Firefox, resulting in a significant increase in browsers affected. MetaMask, Phantom, Coinbase Wallet, Trust Wallet, Rabby, OKX Wallet, Exodus, Keplr, Solflare, Backpack, and MetaMask are among the many cryptocurrency wallet extensions that search for data. 

As part of the attack, CrashStealer attempts to extract information from 14 password managers, including 1Password, Bitwarden, LastPass, Dashlane, Keeper, KeePassXC, NordPass, Enpass, and RoboForm. In addition to collecting files from the user's Documents and Downloads folder, the malware compresses the data into a ZIP archive to reduce the possibility of interception. 

To protect the collected data, it is encrypted using AES-GCM before being transmitted via libcurl to an attacker-controlled server. CrashStealer is noted by researchers as encrypting each file before exfiltration, rather than protecting the entire archive. As a result of its use of industry-standard cryptographic techniques, the malware makes intercepted data significantly more difficult for defenders to analyze without the appropriate key to decrypt. 

Researchers at Jamf observed that the malware incorporates code obfuscation, encrypted strings, control-flow flattening, and layered anti-debugging techniques into its data exfiltration mechanism, making it significantly more resilient than typical information commodity thieves.

Investigators also discovered additional domains and operator infrastructure linked to the campaign, including a password-protected management panel that is believed to be used by the attackers. It has been demonstrated that CrashStealer is not a standalone malware sample, but is part of a coordinated operation. 

Researchers believe CrashStealer exemplifies a growing trend in macOS malware, demonstrating the combination of trusted software signing, multiple stages of delivery, sophisticated anti-analysis techniques, and strong encryption to make it more difficult to detect. Furthermore, the campaign emphasizes the growing tendency of attackers to exploit legitimate Apple security mechanisms for malicious delivery, reinforcing the need for users to verify software sources even when applications pass Gatekeeper checks. 

In CrashStealer, cybercriminals demonstrate the increasing use of trusted security mechanisms to avoid detection and compromise macOS systems by exploiting trusted security mechanisms to evade detection. Increasingly sophisticated methods of delivery and stronger encryption are being adopted by attackers; therefore, organizations and users need to remain vigilant by ensuring that they download software only from trusted sources, monitoring unusual activity, and updating their security solutions.

GoDaddy Challenges Indian Court Order Over Domain Privacy and Internet Governance Rules

 

A legal battle in India over online fraud could have major implications for privacy and regulation of the internet around the globe, as domain name registrar Go Daddy takes exception to a Delhi High Court ruling that would impose severe restrictions on domain registration, privacy, and trademark protection. 

The ruling comes in response to an uptick in cyber fraud in India. Government figures from last year show that authorities received 2.4 million fraud complaints, resulting in $2.4 billion in losses. In recent years, Amazon, McDonald’s, Microsoft, and other companies have taken legal action against fake websites that misled consumers into giving away personal information or making purchases. Last December, the Delhi High Court ordered removal of more than 1,100 fraudulent websites. 

With that, the court issued additional directives concerning the management of domain names and registrars. These mandates include forbidding registrars from offering privacy protection services by default, disclosing private domain owner information to third parties upon request if that party can demonstrate a “legitimate interest,” and prohibiting domain name registrations that use trademarks of others. Go Daddy argues in a petition to a larger bench of the Delhi High Court that those measures go significantly beyond what’s needed to combat fraud. 

The company believes such restrictions, if applied consistently, would disrupt internet governance worldwide. Go Daddy also objects to the requirement that domain ownership information be disclosed to anybody demonstrating a “legitimate interest.” The company argues in its petition that the language could prove too broad and that domain registrars shouldn’t be tasked with reviewing requests for domain owner information and deciding whether they meet a “legitimate interest” standard. The firm says the language could create “significant legal and operational challenges.” 

The company raises additional concerns about the order’s potential impact on international domain name sales, arguing that because the global internet isn’t bound by one jurisdiction, requiring local registrars to follow the kind of rules set out in the December ruling would, in essence, require them to follow Indian law for all international transactions. 

Go Daddy further argues that the privacy restrictions could run contrary to India’s data protection laws as well as the European Union’s General Data Protection Regulation (GDPR). By mandating that privacy protections be revoked by default for domain owners, India’s data laws and the GDPR would instead be weakened. 

Many internet governance experts believe the ruling places India at risk of negatively impacting citizens, particularly journalists, activists, bloggers, and small businesses, and that it fails to consider tactics bad actors will use to exploit weaknesses in the domain system. Other domain name registrars have raised similar objections to the December ruling, including Namecheap and Hosting Concepts. 

These companies expect that the ruling will spark similar actions in other jurisdictions. Delhi High Court is set to hear the challenges on July 16, with implications for the future of internet governance and fraud prevention measures yet to be determined.