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User Privacy
Cyber Security Legislative Amendment Ransomware attack UK Government User Privacy

UK Government Proposes Mandatory Reporting of Ransomware Attacks

 

The British government's proposals to amend its ransomware strategy marked a minor milestone on Tuesday, when the Home Office issued its formal answer to a survey on modifying the law, but questions remain regarding the effectiveness of the measures. 

The legislative process in the United Kingdom regularly involves public consultations. In order to address the ransomware issue, the Home Office outlined three main policy recommendations and asked for public input in order to support forthcoming legislation. 

The three main policy ideas are prohibiting payments from public sector or critical national infrastructure organisations; requiring victims to notify the government prior to making any extortion payments; and requiring all victims to report attacks to law enforcement.

Following a string of high-profile ransomware incidents that affected the nation, including several that left the shelves of several high-street grocery stores empty and one that contributed to the death of a hospital patient in London, the official response was published on Tuesday, cataloguing feedback for and against the measures.

Despite being labelled as part of the government's much-talked-about Plan for Change, the plans are identical to those made while the Conservative Party was in control prior to Rishi Sunak's snap election, which delayed the consultation's introduction. Even that plan in 2024 was late to the game. 

In 2022, ransomware attacks dominated the British government's crisis management COBR meetings. However, successive home secretaries prioritised responding to small boat crossings of migrants in the English Channel. Ransomware attacks on British organisations had increased year after year for the past five years. 

“The proposals are a sign that the government is taking ransomware more seriously, which after five years of punishing attacks on UK businesses and critical national infrastructure is very welcome,” stated Jamie MacColl, a senior research fellow at think tank RUSI. But MacColl said there remained numerous questions regarding how effective the response might be. 

Earlier this year, the government announced what the Cyber Security and Resilience Bill (CSRB) will include when it is brought to Parliament. The CSRB, which only applies to regulated critical infrastructure firms, is likely to overlap with the ransomware regulations by enhancing cyber incident reporting requirements, but it is unclear how.
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User Privacy
Chinese Government Cyber Security Digital Protection National ID Online Surveillance User Privacy

Chinese Government Launches National Cyber ID Amid Privacy Concerns

 

China's national online ID service went into effect earlier this month with the promise of improving user privacy by limiting the amount of data collected by private-sector companies. However, the measures have been criticised by privacy and digital rights activists as giving the government more control over citizens' online activities.

The National Online Identity Authentication Public Service is a government-run digital identity system that will reduce the overall information footprint by allowing citizens to register with legitimate government documents and then protecting their data from Internet services. Users can choose not to utilise the service at this time, however businesses are expected to refrain from collecting users' personal information unless specifically mandated by law. 

Kendra Schaefer, a partner at Beijing-based policy consultancy Trivium China, claims that the rules, on the surface, give Internet users a centralised repository for their identity data, owned by the government, and to prevent inconsistent handling by private enterprises. 

"Basically, they're just switching the holder of data," Schaefer stated. "Users use to have to put their ID information into each new website when they logged into that website. ... It would be up to the collector of that data — for example, the platform itself — to properly encrypt it, properly transmit it to the state for verification. ... That is sort of being eliminated now.” 

Several nations are adopting regulations to establish digital identity systems that link online and offline identities. For instance, Australia expanded its government digital ID, permitted private sector participation, and strengthened privacy protections in 2024 with the adoption of the Digital ID Act of 2024. Based on Estonia's digital-government system, Singapore has long provided its people with a digital ID, SingPass, to facilitate transactions with government services. 

However, China's strategy has sparked serious concerns about escalating government monitoring under the guise of privacy and data security. According to an analysis by the Network of Chinese Human Rights Defenders (CHRD), a non-governmental collective of domestic and international Chinese human rights activists and groups, and Article 19, an international non-governmental organisation, the measures contain privacy and notification clauses, but several loopholes allow authorities to easily access private information without notification.

According to Shane Yi, a researcher with CHRD, the new Internet ID system is intended to bolster the state's monitoring apparatus rather than to safeguard individual privacy. 

The goal of the Internet ID numbers, also known as Network Numbers, is to centralise the process of confirming residents' digital identities. Real-name verification is required by the Chinese government, but since it is spread across numerous internet services, it may pose a data security threat. The Chinese regulation states that Internet platforms cannot maintain information about a citizen's true identity if they use a digital ID. The new restrictions (translation) entered into effect on July 15, 2025.

"After internet platforms access the Public Service, where users elect to use Network Numbers or Network Credentials to register and verify their real identity information, and pass verification, the internet platforms must not require that the users separately provide explicit identification information, except where laws or administrative regulations provide otherwise or the users consent to provide it," the regulation reads. 

Chinese officials say that the strategy strengthens citizens' privacy. Lin Wei, president of the Southwest University of Political Science and Law in Chongqing, China, claims that the 67 sites and applications that use the virtual ID service collect 89% less personal information. According to reports, the Ministry of Public Security in China released the academic's work.
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Zero Day Vulnerabilities
CIS CISA Cyber Exploits Cyber Security CyberCrime DNA Global Attacks Malicious Software Microsoft 365 SharePoint Storm 2603 Zero Day Vulnerabilities

SharePoint Exploit Emerges as Root of Global Cyber Threat

 


A global cybersecurity crisis has been triggered by a newly discovered and unpatched vulnerability in Microsoft SharePoint Server, prompting the Governments of the United States, Canada, and Australia to conduct urgent investigations. In what experts are calling a coordinated and large-scale zero-day attack, which is a breach that takes advantage of a previously unknown security vulnerability, an exploit that enables remote code execution without the user's input, a critical flaw has been exploited to exploit a critical flaw that enables remote code execution without user interaction. 

A widely used enterprise platform called SharePoint, which facilitates the sharing and collaboration of documents and ideas, has been identified as one of the latest attack vectors by threat actors looking to gain access to high-value systems. Thousands of servers are said to be vulnerable to the attack, with organisations across the public and private sectors scrambling to protect their systems since there has been no official security patch available from Microsoft for some time. 

After this incident, concerns over Microsoft's security posture continue to grow, coming after a Chinese spying campaign in 2023 compromised email accounts belonging to U.S. government officials, including those belonging to the highest levels of the executive branch. As a result of the review, both the U.S. government and industry experts heavily criticised the company's security practices. 

The latest breach highlights persistent vulnerabilities in widely-used platforms, as well as raising serious concerns about whether the global infrastructure is sufficiently prepared for sophisticated, evolving cyber threats that are rapidly evolving in complexity. There has been an increase in threats surrounding the SharePoint vulnerability following the emergence of a ransomware attack by the threat actor referred to as Storm-2603. 

The group has changed its strategy from initially focusing on cyber-espionage operations to one focused on more destructive tactics, which is a troubling development in its campaign strategy. It appears that Storm-2603 is currently exploiting a vulnerable SharePoint flaw in order to infiltrate vulnerable systems and spread ransomware payloads. This is a worrying shift in the group's strategy. 

By encrypting entire networks with malicious software, this malicious software demands cryptocurrency payments to restore access, effectively paralysing the operations of the targeted businesses. As a result of this strategic pivot, Microsoft announced this in a blog post released late Wednesday. During its extended analysis, it found that the transition from silent data theft to overt disruption and extortion had occurred over the past couple of years. 

A ransomware campaign using this same zero-day vulnerability not only amplifies the threat posed by the campaign but also demonstrates that cybercriminal groups are blurring the line between espionage and financially motivated attacks as they become more prevalent in the world. As analysts warn, this dual-purpose exploitation could result in a greater financial and operational impact, especially for organisations that have not yet implemented compensating control or detection measures, which will lead to greater operational damage. 

Moreover, this incident underscores the urgency of timely patching, comprehensive threat monitoring, as well as cross-border cybersecurity collaboration, which are all imperative to preventing any future attacks on SharePoint. Microsoft has attributed the ongoing exploitation of the SharePoint vulnerability to a threat group known as Storm-263, which is rated as based in China with moderate confidence. 

Storm-2603 has not been directly connected to any other known Chinese threat actors, but has been linked to the attempted exfiltration of sensitive data, including MachineKeys, via on-premises SharePoint flaws. As of July 18, 2025, Microsoft has been observing the group actively deploying ransomware using the exploited vulnerability, despite not being directly linked to any Chinese threat actors. 

An attack chain for this attack starts when a malicious payload (spinstall0.aspx) is executed on internet-exposed SharePoint servers in order to enable the execution of commands through the w3wp.exe process. In addition to conducting reconnaissance through tools such as whoami, cmd.exe, and batch scripts, Storm-2603 disables Microsoft Defender by altering the system registry. 

An actor maintains persistence by installing web shells, creating scheduled tasks, and manipulating IIS components in a way that allows malicious .NET assemblies to be loaded and to maintain persistence. In order to move around and steal credentials, tools such as Mimikatz, PsExec, Impacket, and WMI are employed. 

Ultimately, the operation results in the installation of the Warlock ransomware using modified Group Policy Objects (GPOs). Moreover, Microsoft warns that other threat actors may exploit the same vulnerability, which emphasises the necessity of organisations to implement security mitigations and apply patches without delay to prevent further damage from occurring. 

According to the CVSS scale, CVE-2025-53770 is the critical zero-day vulnerability at the centre of the ongoing exploitation campaign. It has been assigned a severity score of 9.8 on the CVSS scale, meaning it is a critical zero-day flaw. There has been a classification given by security researchers for this vulnerability that which is a variation of the CVE-2025-49704 vulnerability that has been patched in the past, with a slightly less severe rating of 8.8. This vulnerability entailed code injection and remote code execution within Microsoft SharePoint Server. 

Although Microsoft's Patch Tuesday release of July 2025 addressed the earlier flaw, the newly discovered variant has not been patched, which leaves many SharePoint environments running on-premises at risk. A Microsoft advisory issued on July 19 says that the core problem stems from the derivation of untrusted data, which could lead to attackers remotely executing arbitrary code over a network without authenticating themselves. 

According to the company, the exploit is a serious one, and a comprehensive fix is in the process of being developed and undergoing extensive testing at the moment. Viettel Cyber Security has been credited with discovering the vulnerability via Trend Micro Zero Day Initiative (ZDI). The issue was reported to Trend Micro via the Zero Day Initiative (ZDI) and has been credited with the discovery. 

As outlined in a separate security bulletin released by Microsoft on the following weekend, Microsoft has confirmed that an active exploit of the vulnerability is still in progress, specifically targeting on-premise deployments. However, according to the company, SharePoint Online services within Microsoft 365 are not affected by the threat. 

A zero-day vulnerability known as CVE-2025-53770 has become a growing threat to the U.S. Cybersecurity and Infrastructure Security Agency (CISA) as a result of its increasing threats. Earlier this week, the U.S. Cybersecurity and Infrastructure Security Agency (CISA) released a list of the Known Exploited Vulnerabilities (KEV) catalogue. 

Federal agencies have a limited timeframe—until Monday—to implement immediate mitigations. As a consequence of the active exploitation, according to Chris Butera, Acting Executive Assistant Director for Cybersecurity, the agency was alerted to the issue by a trusted partner, who promptly coordinated with Microsoft to resolve it. 

Researchers have attributed this vulnerability to the broader version of CVE-2025-49706, a vulnerability that was previously patched by Microsoft for spoofing. This vulnerability has been referred to as "ToolShell" by researchers. As the first cybersecurity firm to notice the attacks in action, Eye Security, a Dutch cybersecurity firm, reported that several high-profile targets, including multinational corporations, government institutions, and major banks, have already been compromised across several countries, including the United States, Germany, France, and Australia. 

It has been stated by Eye Security CTO Piet Kerkhofs that attackers are executing large numbers of exploit waves to gain unauthorised control through the use of the remote code execution (RCE) flaw. As a result of a technical analysis, it has been discovered that attackers are using the exploit to install web shells on compromised SharePoint servers and then to retrieve cryptographic keys from those servers. 

Through these keys, adversaries can forge authentication tokens and retain privileged access even after patches have been applied. Microsoft has advised organisations to make sure that all SharePoint servers have Defender Antivirus installed and that the Antimalware Scan Interface (AMSI) is integrated into SharePoint.

In case AMSI implementation is not possible, Microsoft recommends that vulnerable SharePoint instances be temporarily disconnected from the internet until a full security update is made available. Note that this vulnerability does not affect users of SharePoint Online within Microsoft 365, which is the cloud-based version of SharePoint. 

It has been reported that the CISA was first notified by a private cyber research firm on Friday of an active exploit of the SharePoint vulnerability, and Microsoft has been immediately notified, according to a spokesperson for the agency. A number of critical questions have been raised once again regarding Microsoft’s vulnerability management procedures as a result of this incident. 

There has previously been controversy surrounding the company due to its narrowly focused patches that do not often address similar attack paths, leaving organisations vulnerable to follow-up attacks that target similar exploits. It has been reported that Microsoft, one of the largest technology providers to global governments, has experienced a number of cybersecurity failures over the past two years, including attacks on its corporate infrastructure and executive email accounts, among other high-profile incidents. 

The Chinese government-backed threat actors were able to access federal official emails by exploiting a programming flaw in Microsoft's cloud services in one major incident. In addition, controversy was sparked after investigative outlet ProPublica reported Microsoft had hired engineers based in China to work on Department of Defence cloud projects. In response to the report, Defence Secretary Pete Hegseth immediately inspected the Pentagon cloud contracts and a formal review was initiated. 

Additionally, the nonprofit Centre for Internet Security (CIS) warned more than 100 vulnerable organisations, including public schools and universities, that they were at risk of being compromised by the threat. While Randy Rose, Vice President of CIS, indicated that incident response efforts had been significantly delayed as a result of a 65% cut to funding, CISA has had to significantly reduce its threat intelligence staffing.

In the future, this incident should serve as a crucial turning point for enterprises as they attempt to develop a comprehensive cybersecurity strategy beyond immediate containment. Organisations will need to adopt a mindset of continuous vigilance, integrating secure architecture with timely intelligence sharing, and automating threat detection into their operational DNA. 

When threat actors are constantly adapting and repurposing vulnerabilities, it is no longer sufficient to rely on vendor assurances without independent validation, especially in an environment where threat actors are constantly adapting and repurposing vulnerabilities. To minimise the blast radius in the event of a breach, organisations should prioritise scenario-based resilience planning, routine red teams, and strict access governance. 

Additionally, a close alignment between cybersecurity, legal, and executive leadership is essential in order to make informed decisions at the speed of modern threats. There is more to security than patchwork responses, as the threat matrix is evolving; it requires a security-first culture that is backed by investment, accountability, and strategic planning.
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User Security
CrowdStrike outage Cyber Security Hospital System threat report User Security

Patient Care Technology Disruptions Linked With the CrowdStrike Outage, Study Finds

 

A little more than a year ago, nearly 8.5 million Windows-based IT systems went down due to a simple error made during a routine software update. Computers were unable to reboot for several hours due to a bug from CrowdStrike, a cybersecurity business whose products are used to detect and respond to security attacks. Many of the systems needed further manual patches, which prolonged the outage.

The estimated financial toll? Anywhere between $5 billion and $10 billion for Fortune 500 firms – and close to $2 billion for the healthcare sector specifically.

A new report reveals that the negative repercussions on healthcare organisations have gone far beyond financial. A study published in JAMA Network Open by the University of California San Diego found that the incident triggered measurable disruptions in a large proportion of US hospitals, including technical issues that impacted basic operations, research activities, and direct patient care. The researchers discovered that immediately following the CrowdStrike upgrade on July 19, 759 hospitals (out of 2232 with available data) had measurable service disruptions. That represents more than one-third of healthcare organisations.

Of a total of 1098 service outages across those organisations, 21.8% were patient-facing and had a direct impact on patient care. Just over 15% were relevant to health-care operations, with 5.3% affecting research activities. The remaining 57% were either not classified as significant or unknown. 

“Patient-facing services spanned imaging platforms, prehospital medicine health record systems, patient transfer portals, access to secure documentation, and staff portals for viewing patient details,” the researchers explained. “In addition to staff portals, we saw outages in patient access platforms across diverse hospital systems; these platforms, when operating as usual, allow patients to schedule appointments, contact health care practitioners, access laboratory results, and refill prescriptions.” 

Additionally, some hospitals experienced outages in laboratory information systems (LIS), behavioural health apps, and patient monitoring systems like foetal monitors and cardiac telemetry devices. Software in development or pre-deployment stages, informational pages, educational resources for medical and nursing students, or donation pages for institutions were primarily impacted by the outages classified as irrelevant or unknown.

3.9% of hospitals had outages longer than 48 hours, while the majority of hospital services returned within 6 hours. Outages lasting longer than two full days were most common in hospitals in South Carolina, Maryland, and New Jersey. With the majority of assessed hospitals returning to service within six hours, Southern US organizations—including those in Tennessee, North Carolina, Louisiana, Alabama, Texas, and Florida—were among the quickest to recover.

The incident served as a stark reminder that human error is and always will be a serious threat to even the most resilient-seeming technologies, while also highlighting the extraordinarily fragile nature of the modern, hyperconnected healthcare ecosystem. CrowdStrike criticised the UCSD research methods and findings, but it also acknowledged and apologised to its customers and other impacted parties for the disruption and promised to be focused on enhancing the resilience of its platform.
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User Privacy
Cyber Security Dark Web threat report Travel Agencies User Privacy

Trustwave Reveals Dark Web Travel Agencies' Secrets

 

Within the underground economy, dark web travel agencies have become one of the more sophisticated and profitable businesses. 

According to the Wall Street Journal's report on Trustwave's findings, these shady companies use credit card fraud, compromised loyalty program accounts, and fake identification documents to provide drastically reduced airfare, upscale hotel stays, rental cars, and full vacation packages. However, what some may consider to be inexpensive vacation packages are actually the last in a series of cybercrimes.

One of their main advantages is their flexibility; as soon as one channel is closed, another one opens up, often with better strategies and more extensive service offerings. The core of the issue is a robust, decentralised underground economy that views fraudulent travel as just another way to make money, rather than any one platform or provider. 

Credential theft campaigns, automation, and the development of AI tools only increase the accessibility and scalability of these services. Dark web travel firms will persist as long as there is a need for big travel bargains with no questions asked and as long as data breaches continue to generate profits. 

Potential red flags in the system 

For airlines, hotels, car rental services, and booking platforms, the symptoms of fraud perpetrated by dark web travel companies are often subtle at first, but if ignored, these indicators can swiftly develop into financial losses, reputation harm, and increased fraud risk exposure. Recognising early symptoms of carded bookings is critical for any organisation involved in the travel industry. 

One of the most prevalent red flags is a high-value or international booking made under a newly formed account, especially if it's linked with last-minute travel or same-day check-in. These are traditional methods to shorten the time frame for detecting or reversing fraud. 

  • Mismatched information is another crucial indicator. This includes discrepancies between the ID shown at check-in, the credit card name, and the booking name. In situations involving hotels and rental cars, a visitor may act evasively when asked for confirmation, appear unfamiliar with the booking details, or refuse to provide further proof. 
  • Loyalty-based bookings may show high or unexpected point redemptions, particularly from dormant accounts or those accessed from foreign IP addresses. Fraudsters frequently abuse these apps using previously compromised login credentials or phishing efforts. 
  • Finally, be wary of repeat bookings with similar names or patterns that come from different accounts. This could imply organised abuse, in which a dark web agency operates primarily through a specific travel platform or API.

Safety tips 

  • Monitor the Dark Web and Telegram Channels for Brand Abuse: Invest in threat intelligence tools or collaborate with cybersecurity firms that can detect unauthorised mentions of your company on underground forums, marketplaces, and encrypted messaging platforms.
  • Improve loyalty program security: Add MFA, transaction alerts, and geofencing to your loyalty accounts. These programs are commonly targeted since they make it easy to monetise miles and points for bookings. 
  • Review API Access and Third-Party Integrations: Dark web retailers frequently exploit flaws in booking APIs or third-party aggregators. Regularly check these systems for abuse patterns, access controls, and rate-limiting enforcement.
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Malware Attack
AI Models AI Prompt AI prompt injection attack Cyber Security cybercriminals DNS DNS attacks DNS Hacking DOH DoT Hacker attack Malware Attack

Hackers Use DNS Records to Hide Malware and AI Prompt Injections

 

Cybercriminals are increasingly leveraging an unexpected and largely unmonitored part of the internet’s infrastructure—the Domain Name System (DNS)—to hide malicious code and exploit security weaknesses. Security researchers at DomainTools have uncovered a campaign in which attackers embedded malware directly into DNS records, a method that helps them avoid traditional detection systems. 

DNS records are typically used to translate website names into IP addresses, allowing users to access websites without memorizing numerical codes. However, they can also include TXT records, which are designed to hold arbitrary text. These records are often used for legitimate purposes, such as domain verification for services like Google Workspace. Unfortunately, they can also be misused to store and distribute malicious scripts. 

In a recent case, attackers converted a binary file of the Joke Screenmate malware into hexadecimal code and split it into hundreds of fragments. These fragments were stored across multiple subdomains of a single domain, with each piece placed inside a TXT record. Once an attacker gains access to a system, they can quietly retrieve these fragments through DNS queries, reconstruct the binary code, and deploy the malware. Since DNS traffic often escapes close scrutiny—especially when encrypted via DNS over HTTPS (DOH) or DNS over TLS (DOT)—this method is particularly stealthy. 

Ian Campbell, a senior security engineer at DomainTools, noted that even companies with their own internal DNS resolvers often struggle to distinguish between normal and suspicious DNS requests. The rise of encrypted DNS traffic only makes it harder to detect such activity, as the actual content of DNS queries remains hidden from most monitoring tools. This isn’t a new tactic. Security researchers have observed similar methods in the past, including the use of DNS records to host PowerShell scripts. 

However, the specific use of hexadecimal-encoded binaries in TXT records, as described in DomainTools’ latest findings, adds a new layer of sophistication. Beyond malware, the research also revealed that TXT records are being used to launch prompt injection attacks against AI chatbots. These injections involve embedding deceptive or malicious prompts into files or documents processed by AI models. 

In one instance, TXT records were found to contain commands instructing a chatbot to delete its training data, return nonsensical information, or ignore future instructions entirely. This discovery highlights how the DNS system—an essential but often overlooked component of the internet—can be weaponized in creative and potentially damaging ways. 

As encryption becomes more widespread, organizations need to enhance their DNS monitoring capabilities and adopt more robust defensive strategies to close this blind spot before it’s further exploited.
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Websites
browser extensions Chrome Cyber Security Emoji keyboard Websites

Over 2 Million Users Affected: Browser Extensions Turned Into Silent Spying Tools


An alarming cyber threat has come to light involving common browser extensions used by millions across the world. According to a recent investigation by cybersecurity firm Koi Security, at least 18 browser add-ons, once considered safe were secretly turned into tools to track users without their knowledge. The attack, named “RedDirection,” affected more than 2.3 million people.

What makes this case especially alarming is that many of these extensions were originally trusted. They included tools like emoji keyboards, volume boosters, and weather forecasts popular utilities often downloaded from official platforms like the Chrome Web Store and Microsoft Edge Add-ons Store. With high ratings and verified badges, they seemed completely legitimate.

However, after gaining a large number of users, the attackers behind the campaign quietly pushed harmful updates. These updates gave the extensions the ability to access users’ online activity, including the websites they visited, cookies, and even login information. In some cases, users were redirected to fake websites designed to steal sensitive data like passwords.

Extensions such as “Emoji keyboard online,” “Free Weather Forecast,” and “Volume Max” on Chrome, as well as “Unlock TikTok” and “Volume Booster” on Edge, were found to be connected to the same background server. This suggests that all of them may have been controlled by a single group or organization.

One of the biggest concerns is how easily these harmful changes were delivered. Most browser extensions update automatically in the background, with no alerts or approval required from users. This allowed attackers to silently take control of millions of browsers without anyone noticing.

This isn’t the first case of browser extensions being misused. Past incidents like the 2019 “DataSpii” leak and 2021’s “CursedChrome” attack followed a similar pattern, trustworthy tools were hijacked over time and repurposed for spying or data collection.

If you use browser extensions, it’s important to take action now. Open your browser settings (by typing chrome://extensions or edge://extensions in the address bar), review all installed extensions, and remove anything suspicious or unused. You should also clear your browsing history and run a full antivirus scan on your device.

To stay safe in the future, treat browser extensions carefully. Only install what you truly need, and review the permissions each extension asks for. Think of your extensions like apps on your phone or medications in your home, regular cleanups can prevent major problems.

This recent discovery reminds us that even trusted tools can be misused over time. Staying alert and informed is the best defense.

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Phobos ransomware
8Base decryptor Cyber Security free ransomware decryptor Japanese police cybersecurity Phobos ransomware

Free Ransomware Decryptor Released for Phobos and 8Base Victims by Japanese Police

 

In a significant win against cybercrime, the Japanese police have unveiled a free ransomware decryptor that helps victims of Phobos and 8Base ransomware recover their encrypted files without paying a ransom. The tool has been independently tested and verified by BleepingComputer, which confirmed its effectiveness in decrypting compromised files.

Phobos, a ransomware-as-a-service (RaaS) operation, has been active since December 2018, allowing cybercriminals to deploy its encryption software in exchange for a share of the ransom. While it hasn’t gained as much public attention as other ransomware strains, it has been behind numerous global attacks, particularly targeting businesses.

In 2023, a subgroup of Phobos affiliates launched the 8Base ransomware, using a tweaked version of the original Phobos encryptor. This group adopted a more aggressive double extortion model—encrypting files and stealing data, then threatening to leak the information unless payment was made.

The international crackdown on these ransomware groups escalated in 2024, when a Russian national suspected of being a Phobos administrator was extradited from South Korea to the U.S. on a 13-count indictment. Later, a coordinated law enforcement operation dismantled the infrastructure behind the ransomware, seizing 27 servers and arresting four individuals linked to the 8Base group.

Now, leveraging intelligence reportedly gathered during these actions, the Japanese police have developed and released a decryptor tool. It is accessible via their official website and through Europol’s NoMoreRansom platform, with usage instructions available in English. Europol and the FBI are also backing the tool, underlining its legitimacy.

Though some browsers like Chrome and Firefox may flag the decryptor as malware, BleepingComputer assures users that it is safe and effective. In their test, the tool successfully decrypted all 150 files encrypted by a recent Phobos variant using the .LIZARD extension.

Currently, the decryptor supports several file extensions including .phobos, .8base, .elbie, .faust, and .LIZARD, but the Japanese authorities note it may work with additional file types as well.

To use the tool:
  • Launch the decryptor and accept the license agreement.
  • Enable long file name support if prompted.
  • Select the encrypted files and specify an output directory.
  • Click Decrypt to start the process.

The tool also supports recursive decryption—preserving the original folder structure when restoring files.

Victims of Phobos and 8Base attacks are strongly encouraged to try the decryptor, even if their files use a different extension, as it may still work.

“BleepingComputer can confirm that the decryptor successfully decrypted all 150 files encrypted by the LIZARD variant of Phobos ransomware.”

This development marks another step forward in the global fight against ransomware, giving victims a much-needed lifeline without resorting to ransom payments.
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