Android constantly tightens app restrictions to prevent scammers from using malicious software to steal money, passwords, and users’ private secrets. However, a new vulnerability dubbed Pixnapping bypasses every protective layer and allows an attacker to imperceptibly read image pixels from the screen — essentially taking a screenshot. A malicious app with zero permissions can see passwords, bank account balances, one-time codes, and anything else the owner views on the screen. Fortunately, Pixnapping is currently a purely research-based project and is not yet being actively exploited by threat actors. The hope is that Google will thoroughly patch the vulnerability before the attack code is integrated into real-world malware. As of now, the Pixnapping vulnerability (CVE-2025-48561) likely affects all modern Android smartphones, including those running the latest Android versions.

Why screenshots, media projection and screen reading are dangerous

As demonstrated by the SparkCat OCR stealer we discovered, threat actors have already mastered image processing. If an image on a smartphone contains a valuable piece of information, the malware can detect it, perform optical character recognition directly on the phone, and then exfiltrate the extracted data to the attacker’s server. SparkCat is particularly noteworthy because it managed to infiltrate official app marketplaces including the App Store. It would not be difficult for a malicious Pixnapping-enabled app to replicate this trick, especially given that the attack requires zero special permissions. An app that appears to offer a legitimate, useful feature could simultaneously and silently send one-time multi-factor authentication codes, cryptowallet passwords, and any other information to scammers.

Another popular tactic used by malicious actors is to view the required data as it’s shown, in real-time. For this social engineering approach, the victim is contacted via a messaging app and, under various pretexts, convinced to enable screen sharing.

Anatomy of the Pixnapping attack

The researchers were able to screenshot content from other apps by combining previously known methods of stealing pixels from browsers and from ARM phone graphics processing units (GPUs). The attacking app silently overlays translucent windows atop the target information and then measures how the video system combines the pixels of these layered windows into a final image.

As far back as 2013, researchers described an attack that allowed one website to load another within part of its own window (via an iframe) and, by performing legitimate operations of image layering and transformation, infer exactly what was drawn or written on the other site. While modern browsers have mitigated that specific attack, a group of U.S. researchers have now figured out how to apply the same core principle to Android.

The malicious app first sends a system call to the target app. In Android, this is known as an intent. Intents typically enable not only simple app launching but also things like immediately opening a browser to a specific URL or a messaging app to a specific contact’s chat. The attacking app sends an intent designed to force the target app to draw the sensitive information onto the screen. Special hidden launch flags are used. The attacking app then sends a launch intent to itself. This specific combination of actions allows the victim app to not appear on the screen at all, yet it still renders the information sought by the attacker in its window, in the background.

In the second stage of the attack, the malicious app overlays the hidden window of the victim app with a series of translucent windows, each of which covers and blurs the content beneath it. This complex arrangement remains invisible to the user, but Android dutifully calculates how this combination of windows should look if the user were to bring it to the foreground.

The attacking app can only directly read the pixels from its own translucent windows; the final combined image, which incorporates the victim app’s screen content, is not directly accessible to the attacker. To bypass this restriction, the researchers employ two ingenious tricks. The specific pixel to be stolen is isolated from its surroundings by overlaying the victim app with a mostly opaque window that has a single transparent point precisely over the target pixel. A magnifying layer is then placed on top of this combination, consisting of a window with heavy blurring enabled.

How the Pixnapping vulnerability works

To decipher the resulting mush and determine the value of the pixel at the very bottom, the researchers leveraged another known vulnerability, GPU.zip (this may look like a file link, but it actually leads to a research paper site). This vulnerability is based on the fact that all modern smartphones compress the data of any images being sent from the CPU to the GPU. This compression is lossless (like a ZIP file), but the speed of packing and unpacking changes depending on the information being transmitted. GPU.zip permits an attacker to measure the time it takes to compress the information. By timing these operations, the attacker can infer what data is being transferred. With the help of GPU.zip, the isolated, blurred, and magnified single pixel from the victim app’s window can be successfully read by the attacking app.

Stealing something meaningful requires repeating the entire pixel-stealing process hundreds of times, as it needs to be applied to each point separately. However, this is entirely feasible within a short time frame. In a video demonstration of the attack, a six-digit code from Google Authenticator was successfully extracted in just 22 seconds, while it was still valid.

How Android protects screen confidentiality

Google engineers have nearly two decades of experience combating various privacy attacks, which has resulted in a layered defense built against illegal capture of screenshots and videos. A complete list of these measures would span several pages, so we only list some key protections:

• The FLAG_SECURE window flag prevents the operating system from taking screenshots of content.
• Access to media projection tools (capturing screen content as a media stream) requires explicit user confirmation and can only be performed by an app that is visible and active.
• Tight restrictions are placed on access to administrative services like AccessibilityService and the ability to draw app elements over other apps.
• One-time passwords and other secret data are hidden automatically if media projection is detected.
• Android restricts apps from accessing other apps’ data. Additionally, apps cannot request a full list of all installed apps on the smartphone.

Unfortunately, Pixnapping bypasses all these existing restrictions and requires absolutely no special permissions. The attacking app only needs two fundamental capabilities: to draw within its own windows and to send system calls (intents) to other apps. These are basic building blocks of Android functionality, so they are very difficult to restrict.

Which devices are affected by Pixnapping, and how to defend oneself

The attack’s viability was confirmed on Android versions 13–16 across Google Pixel devices from generations 6–9, as well as Samsung Galaxy S25. The researchers believe the attack will be functional on other Android devices as well, as all the mechanisms used are standard. However, there may be nuances related to the implementation of the second phase of the attack (the pixel magnification technique).

Google released a patch in September after being notified of the attack in February. Unfortunately, the chosen method for fixing the vulnerability proved to be insufficiently reliable, and the researchers quickly devised a way to bypass the patch. A new attempt to eliminate the vulnerability is planned for Google’s December update release. As for GPU.zip, there are no plans to issue a patch for this specific data leakage channel. At least, no smartphone GPU manufacturer has announced plans to that effect since the flaw became public knowledge in 2024.

User capabilities to defend against Pixnapping are limited. We recommend the following measures:

• Promptly update to the latest version of Android with all current security patches.
• Avoid installing apps from unofficial sources, and exercise caution with apps from official stores if they are too new, have low download counts, or are poorly rated.
• Ensure a full-fledged security system is used on your phone, such as Kaspersky for Android.

What other non-standard Android attack methods exist:

• Spyware that pretends to be an antivirus
• Trojan embedded in fake Android smartphones
• Data theft during smartphone charging
• Your pics are at risk: the threat posed by the new SparkKitty Trojan
• How the Necro Trojan attacked 11 million Android users

Kaspersky official blog – ​Read More

“We’ve hacked your computer! Send money to the specified account, or all your photos will be posted online”. You or someone you know has probably encountered an email with this kind of alarming message.

We’re here to offer some reassurance: nearly every blackmail email we’ve ever seen has been a run-of-the-mill scam. Such messages, often using identical text, are sent out to a massive number of recipients. The threats described in them typically have absolutely no basis in reality. The attackers send these emails out in a “spray and pray” fashion to leaked email addresses, simply hoping that at least a few recipients will find the threats convincing enough to pay the “ransom”.

This article covers which types of spam emails are currently prevalent in various countries, and explains how to defend yourself against email blackmailers.

Classic scams: hacks, sextortion, and “your money or your life”

Classic scam emails may vary in their content, but their essence always remains the same: the blackmailer plays the role of a noble villain, allowing the victim to walk away unharmed if they transfer money (usually cryptocurrency). To make the threat more believable, attackers sometimes include some of the victim’s personal data in the email, such as their full name, tax ID, phone number, or even their physical address. This doesn’t mean you’ve actually been hacked — more often than not, this information is sourced from leaked databases widely available on the dark web.

The most popular theme among email blackmailers is a “hack” where they claim to have gained full access to your devices and data. Within this theme, there are three common scenarios:

1. The attacker is concise and gets straight to the point: they state the exact amount of money you need to transfer to prevent your private information from becoming public.
2. Detailed and dramatic emails: these elaborate spam emails contain a wealth of detail about the malware the attacker allegedly used to infect the recipient’s device, and the types of data they’ve accessed. This usually includes everything at once: the PC itself, the mouse, the webcam, and the keyboard. Sometimes, the scammers even graciously advise you to change your passwords regularly and avoid clicking on unknown links in the future to prevent unpleasant situations. On this point we actually agree with their recommendations.
3. The specific details of the “hacker attack” and the attacker’s demands are omitted from the email body. Instead, the recipient is prompted to find this information by clicking a link to a website. Scammers use this tactic to bypass email spam filters.

Blackmailers also don’t shy away from the topic of adult content. Typically, they simply intimidate the victim with threats that everyone will find out what kind of explicit content they’ve allegedly been viewing. Some attackers go further — they claim to have gained access to the person’s webcam and recorded intimate activity while simultaneously screen-recording their PC. The price of their silence starts at several hundred dollars in cryptocurrency. Crucially, these blackmailers intentionally try to isolate the victim by telling them not to report the email to law enforcement or loved ones, and claiming that doing so will immediately trigger the threats. By the way, safe and private viewing of adult content is a challenge unto itself, but we’ve covered that in Watching porn safely: a guide for grown-ups.

A scammer threatens to publish a victim’s intimate videos and demands cryptocurrency

Perhaps the most extreme form of email blackmail involves death threats. Naturally, such an email would make anyone uneasy, and many people become genuinely worried for their own safety. The noble hitman, however, is always willing to spare the victim’s life if they can “outbid the one who ordered the hit”.

“You have 72 hours left to live.” The blackmailer suggests not involving the police and simply paying off “the one who ordered the hit” instead

You’ve been served: law enforcement impersonation scams in Europe

Besides legends of “noble hackers” and “hitmen” who immediately offer a way out for a hefty fee, there are longer, more elaborate scams.

In these attacks, scammers pose as law enforcement officers. They don’t ask for money right away, as that would arouse suspicion. Instead, the victim receives a “summons” accusing them of committing a serious, often highly delicate crime. This typically involves allegations of distributing pornography (including child pornography), of pedophilia, human trafficking, or even indecent exposure. The “evidence” isn’t pulled out of thin air, but supposedly taken directly from the victim’s computer, to which the “special services” have gained “remote access”.

Spam blackmail targeting users in France

The document is designed to instill absolute terror: it includes a threat of arrest and a large fine, a signature with a seal, an official address, and names of high-ranking prosecutors. The scammers demand that the victim promptly makes contact via the email address provided in the message to offer an explanation — then, perhaps, the charges will be dropped. If the victim fails to respond, they’re threatened with arrest, registration on a list of sex offenders, and having their “file” passed to the media.

When the terrified victim contacts the attackers, the scammers then offer to “pay a fine” for an “out-of-court settlement of the criminal case” — a case that, of course, doesn’t exist.

Scammers once again accuse victims of viewing child pornography

These types of emails are sent under the guise of coming from major law enforcement organizations like Europol. They’re most frequently addressed to residents of France, Spain, the Czech Republic, Portugal, and other European countries. They also share a curious feature: typically, the subject line and the body of the email are quite brief, with the entire fraudulent case being laid out in attached documents. Reminder: we can’t stress this enough — never open email attachments if you don’t know or trust the sender! And to ensure that malicious and phishing emails don’t even reach your inbox, use a reliable protective solution.

Authority scams in CIS countries

The “law enforcement theme” is also prevalent in CIS (former-Soviet-Union) countries. In 2025, scammers circulated “Summons for Criminal Investigation” alleging the initiation of a criminal case. This was supposedly issued by the Russian Ministry of Internal Affairs in collaboration with such fantastic units as “Russian Interpol” and the “Bureau of Investigation Against Organized Crime”.

According to the fictional narrative, a certain “National Center for the Analysis of Child Pornography and Exhibitionism Images” had seized computers somewhere and determined that the recipient’s IP address was used to “access inappropriate and pornographic websites”. Of course, a quick online search will reveal that none of the organizations mentioned in that email have ever officially existed in Russia.

The “Director of the Police Criminal Investigation Department” will, for added persuasiveness, write in ALL CAPS, and sign their name with an English transliteration

In another similar email, the recipient, at the behest of the head of the “Russian Federal Bureau of Investigation (FBI)”, supposedly became a person of interest to a certain “International Criminal Police Organization — Interpol of the Federal Police of Russia”. (We should clarify that no law enforcement agencies with even remotely similar names have ever existed in Russia.) In the email, the attackers refer to a “Cybercrime Act in accordance with the Crimes Act of 1900 (sic!) from 245RU(2)” — laws so secret that apparently no legal expert knows they exist. Moreover, the message, sent from a generic Gmail address, is supposedly from the Minister of Internal Affairs himself. However, in the attached summons, he is referred to as the “Commissioner of the Federal Police of the Russian Federation” — likely a clumsy translation from English.

The scam email from the non-existent “Russian Federal Bureau of Investigation” is signed by none other than the Minister of Internal Affairs

Similar scam emails also reach residents of Belarus, arriving in both Russian and Belarusian. The victims are supposedly being pursued by multiple agencies simultaneously: the Ministry of Internal Affairs and Ministry of Foreign Affairs of Belarus, the Militsiya of the Republic of Belarus, and a certain “Main Directorate for Combating Cybercrime of the Minsk City Internal Affairs Directorate for Interpol in Belarus”. One might assume that the email recipient is the country’s most wanted villain, being hunted by the “cyberpolice” itself.

In the summons, the blackmailers cite non-existent laws, and threaten to add the victim to a fictitious “National Register of Underage (sic!) Sexual Offenders” — a clear machine translation failure — and, of course, request an urgent reply to the email.

An email from the non-existent cyberpolice of Belarus

In another campaign, attackers sent emails in the name of the real State Security Committee of Belarus. However, they referenced a fake law and contacted the accused at the behest of the President of Europol — never mind that Europol doesn’t have a President, and the name of the real executive director is completely different.

Another scam campaign in Belarusian

In addition to sex crimes, citizens of Belarus are also accused of “repeated use of necrotic (sic!) and psychotropic drugs”. In these emails, the attackers claim to be from the DEA — the U.S. Drug Enforcement Administration. Why a U.S. federal agency would be interested in Belarusian citizens remains a mystery.

The scammers failed to realize that the law enforcement body in Belarus is called the “militsya” (militia) rather than “politsya” (police)

Identifying scam emails

As you can see from the examples above, the majority of these scam emails appear highly implausible — and yet they still find victims. That said, with scammers increasingly adopting AI tools, it’s reasonable to expect a significant improvement in both the text quality and design of these fraudulent campaigns. Let’s highlight several indicators that will help you recognize even the most skillfully crafted fakes.

• Personal data. Although it makes scam emails look formal and believable, even if the email features your address, tax ID, phone number, or passport details, it doesn’t mean that the threat is legitimate. In all likelihood, your information was simply sourced from leaked databases and exploited by the scammers. The opposite is also true: impersonal greetings like “Dear Sir/Madam” or “Dear Customer” are undoubtedly also a red flag.
• The sender’s address is registered on a free email service.
• A request to open an attached file, or follow a link to “find out the details”.
• Manipulation, threats, calls for urgent action, and demands not to tell anyone about the email. Attackers deliberately use these psychological tricks to throw you off balance and deprive you of external support.
• Typos and grammatical errors. If you suspect the email is a very poor word-for-word translation from another language, you’re probably right. However, a well-written email is no reason to let your guard down: while scammers are often not the most skilled linguists, they sometimes create exceptionally high-quality spam campaigns.
• Character substitution to bypass spam filters. Attackers mix alphabets, use characters with diacritics such as “Ƙ” instead of “K”, and sometimes simply insert chunks of incoherent text or “noise up” the body with random characters. The text remains readable but often looks odd.

An example of scammers attempting to bypass spam filters by substituting characters and adding meaningless blocks of text

How to protect yourself from email blackmail

• Don’t panic. Scammers deliberately use fear, create a sense of urgency, and rely on your trust in authority. Their goal is for you to believe their fabricated story, but they have no real leverage. If you’re being rushed, threatened, or given ultimatums, make a conscious effort to slow down and avoid making impulsive decisions.
• Install a reliable security solution that will promptly alert you about suspicious emails, malicious files, or links.
• Pay attention to the details. If you receive an email supposedly from a government or law enforcement agency, first examine the sender’s email address. If there’s a reply-to address, compare it with the sender’s. Use search engines to check if the organizations mentioned in the email actually exist, and who manages them. Look up the laws they cite. Pay close attention to signatures and titles — in short, do a full fact-check. Finally, ask yourself if you’re really important enough for, say, the Minister of Internal Affairs to be writing to you personally.
• Use only verified communication channels. Remember that government agencies will never blackmail or threaten you in official correspondence. If you’re still unsure whether the email is real or fake, find the official contact information of the organization mentioned in it, and reach out through an alternative, verified channel — for instance, by phone. Don’t click links or call phone numbers (especially mobile numbers) provided in the email you received — always verify contacts online.
• If you receive an email with a death threat, don’t engage with the scammer, and contact the police immediately. The vast majority of these scare tactics are blatant blackmail, which is a criminal offense in most countries. The key is to remain calm.

Read more on popular scammer tricks:

• How phishers and scammers use AI
• The scam on your doorstep
• Beware of Google Forms bearing crypto gifts
• You’re in for a big payout again
• Spam 101: what is spam, and how to defeat it

Kaspersky official blog – ​Read More

The implementation of Software-Defined Wide Area Networks (SD-WANs) boosts enterprise operational efficiency, saves money, and enhances security. These impacts are so significant that they’re sometimes visible on a national scale. According to The Transformative Impact of SD-WAN on Society and Global Development article from the International Journal for Multidisciplinary Research, the technology’s implementation can result in a 1.38% increase in GDP for developing countries. At the company level, the effects are even more pronounced. For example, in modern, deeply digitized industrial manufacturing, it can reduce unplanned downtime by 25%.

Furthermore, SD-WAN implementation projects not only offer a fast return on investment, but also continue to deliver additional benefits and increased efficiency as the solution receives updates, and new versions are released. To demonstrate this, we present the new Kaspersky SD-WAN 2.5 and its most compelling features.

Optimized traffic rerouting algorithms

This is a classic SD-WAN feature, and one of the technology’s primary competitive advantages. Traffic routing depends on the nature and location of the business application, but it also considers current priorities and network conditions: in some cases, reliability is paramount; in others, speed or low latency is key. The new version of Kaspersky SD-WAN improves the algorithm, and factors in detailed data about traffic loss on every possible path. This ensures the stable operation of critical services across geographically distributed networks — for example, by reducing issues with large-scale, nationwide video conferences. Crucially, this increase in reliability is accompanied by a reduced workload on network engineers and support staff, as the route adaptation process is fully automated.

Conditional DNS forwarding

This feature optimizes the speed of domain name resolution, and helps maintain security policies for different types of applications. For example, requests related to MS Office cloud infrastructure will be forwarded directly from the local office to Microsoft’s CDN, while internal network server names will be resolved through the corporate DNS server. This approach significantly improves the speed of establishing connections, and eliminates the need for manual configuration of routers in every office. Instead, a single, unified policy is sufficient for the entire network.

Scheduled CPE configuration changes

Any large-scale network reconfiguration increases the risk of interruptions and outages — even if brief. To ensure such an event doesn’t disrupt critical business processes, any policy change within Kaspersky SD-WAN can be scheduled for a specific time. Want to change the router settings in a hundred offices simultaneously? Schedule the change for 02:00 local time or Saturday morning. This eliminates the need for regional IT staff to be physically present during the deployment.

Simplified BGP and OSPF debugging

Analysis of BGP routing can now be done entirely through the orchestrator’s graphical interface. Did a routing loop suddenly appear somewhere between the Milan and Paris offices? Instead of logging into the equipment in each office and all intermediary nodes via SSH, you can now identify and resolve the issue through a single interface — significantly reducing downtime.

Easy CPE replacement

If the network equipment in an office needs to be replaced, you can now preserve all existing settings when swapping it out. The technician in the office simply plugs in the new CPE unit, and the Kaspersky SD-WAN orchestrator automatically restores all policies and tunnels on it. This offers several immediate benefits: it significantly reduces downtime; the replacement can be performed by a technician without deep expert knowledge of network protocols; and it substantially reduces the probability of additional failures caused by manual configuration errors.

LTE diagnostics

While often the fastest and most cost-effective corporate communication channel to deploy, LTE comes with a drawback: instability. Both cellular coverage and operational speed can fluctuate frequently, requiring network engineers to take action — such as relocating the CPE to an area with better reception. Now, you can make these decisions with diagnostic data collected directly within the orchestrator. It displays the service parameters of connected LTE devices, including the signal strength level.

Handling power failures

For companies with the most stringent requirements for fault tolerance and recovery time, specialized CPE variants equipped with a small built-in power source are available by special order. In the event of a power failure, the CPE will be able to send detailed data about the failure type to the orchestrator. This gives administrators time to investigate the cause so they can resolve the issue much faster.

These are just some of the innovations in Kaspersky SD-WAN. Others include the ability to configure security policies for connections to the CPE console port, and support for large-scale networks with 2000+ CPEs and load balancing across multiple orchestrators. To learn more about how all these new features increase the value of SD-WAN for your organization, our experts are available to provide a personalized demo. The solution is available in select regions.

Kaspersky official blog – ​Read More