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A regular smartphone can be used to find hidden spy A regular smartphone can be used to find hidden spy

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A regular smartphone can be used to find hidden spy cameras

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The new LAPD method provides a hidden camera detection rate of 88.9%.

Researchers from the National University of Singapore and Yonsei University in South Korea have developed a method of detecting hidden spy cameras using modern smartphones equipped with Time of flight sensors.

Time of flight is a measurement method based on reflected light to quickly determine the distance to objects. ToF sensors are used in lidar technology and applications based on simultaneous localization and mapping (SLAM) algorithms, which include analysis of the visible and near-visible spectrum.

“Tiny hidden spy cameras housed in hotel rooms or restrooms are an increasing threat to privacy around the world. For example, in South Korea alone, more than 6.8 thousand such cases were recorded in one year, ”the scientists explained.

There are dedicated signal detectors for finding hidden cameras and other electronics, such as the CC308 + and K18, not to mention what can be done with open source Wi-Fi analysis software. However, such devices are difficult to use correctly. Smartphones are commonplace today, so a new development called Laser-Assisted Photography Detection (LAPD) is likely to be more comfortable than wearing a dedicated signal detector all the time.

Experiments have shown that LAPD achieves an 88.9% hidden camera detection rate, compared to the naked eye, which only achieves 46% hidden camera detection. The dedicated K18 signal detector achieved 62.3% and 57.7% detection rates using continuous and blinking methods, respectively.

The LAPD method gave the lowest overall false positive rate (16.67%) compared to the two modes K18 (26.9% and 35.2%) and human vision (54.9%). Similar results were achieved thanks to the use of a deep learning filter, which is designed to remove false positives.

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Vulnerability found in the Apple M1 processor that cannot be closed programmatically

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Vulnerability found in the Apple M1 processor that cannot be

Specialists from the Computer Science and Artificial Intelligence Laboratory (CSAIL) from the Massachusetts Institute of Technology said that they were able to develop a PACMAN attack technique, which is possible due to a hardware vulnerability in the Apple M1 processor. Moreover, it cannot be closed by software.

Vulnerability found in the Apple M1 processor that cannot be closed programmatically

The attack itself is carried out using software and hardware, and it can be performed remotely. The PACMAN attack makes it possible to gain access to the kernel of the operating system. At the same time, potentially the same vulnerabilities can be in Qualcomm and Samsung processors, but this has not yet been confirmed.

The technical side of the attack is based on the Pointer Authentication function. It is used to check Pointer Authentication Codes (PACs), allowing only code-signed software to run. However, the PACMAN method allows you to select the necessary PAC values. In part, this technique is similar to Specter and Meltdown in Intel processors.

At the same time, Apple spokesman Scott Radcliffe said that the vulnerability does not pose an immediate threat to users and is not sufficient in itself to bypass operating system protections.

A few years ago, a vulnerability was already found in Arm processors that allows an attacker to gain unauthorized access to data.

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Security

So much for Unisoc. Companies have discovered a vulnerability in single-chip systems

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So much for Unisoc Companies have discovered a vulnerability in

Unisoc is actively capturing the market for single-chip systems, although it does so exclusively in the budget segment itself. However, it turned out that these platforms have a critical vulnerability.

So much for Unisoc.  Companies have discovered a vulnerability in single-chip systems

According to the source, the problem is in the modem’s firmware and affects both 4G and 5G platforms. The vulnerability, numbered CVE-2022-20210, was discovered while scanning Non-Access Stratum (NAS) message handlers. This vulnerability could be used to neutralize or block the device’s cellular capabilities.

The vulnerability was first discovered in the Motorola Moto G20 smartphone based on the Unisoc T700 SoC. But in the end it turned out that the same vulnerability occurs in other platforms, however, the source did not provide a list.

The Check Point specialists who discovered the vulnerability notified Unisoc back in May, and the company has already released a fix, so smartphone owners should not worry now if they update the software of their devices.

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Security

New vulnerability in Microsoft Office is heavily exploited by hackers

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New vulnerability in Microsoft Office is heavily exploited by hackers

A serious vulnerability has been found in the Microsoft Office suite that could potentially allow attackers to execute arbitrary code.

New vulnerability in Microsoft Office is heavily exploited by hackers

She was assigned the number CVE-2022-30190, and among the researchers they gave the name Follina. As noted in Kaspersky Lab, the most unpleasant thing is that there is no fix yet, and in the meantime, the vulnerability is already being actively exploited by attackers. Vulnerability CVE-2022-30190 threatens all operating systems of the Windows family, both regular and server.

While the update is being developed, experts recommend that all Windows users and administrators take advantage of temporary workarounds. As a Microsoft workaround recommends disable the MSDT URL protocol.

The CVE-2022-30190 vulnerability itself is contained in the Microsoft Windows Support Diagnostic Tool (MSDT), but due to the implementation of this tool, a single malicious office document is enough to exploit the vulnerability.

The scheme could be like this. Attackers create a malicious office document and slip it to the victim, for example by sending an email with an attachment. The infected file contains a link to an HTML file that contains JavaScript code that executes malicious code on the command line via MSDT. As a result, attackers are able to install programs, view, modify or destroy data, as well as create new accounts – that is, do everything that the privileges of the user who opened the infected file allow.

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