Security Hacks

1494 Articles

Break The Air Gap With Ultrasound

June 29, 2025 by 13 Comments

In the world of information security, much thought goes into ensuring that no information can leave computer networks without expressly being permitted to do so. Conversely, a lot of effort is expended on the part of would-be attackers to break through whatever layers are present. [Halcy] has a way to share data between computers, whether they are networked or not, and it uses ultrasound.

To be fair, this is more of a fun toy than an elite exploit, because it involves a web interface that encodes text as ultrasonic frequency shift keying. Your computer speakers and microphone can handle it, but it’s way above the human hearing range. Testing it here, we were able to send text mostly without errors over a short distance, but at least on this laptop, we wouldn’t call it reliable.

We doubt that many sensitive servers have a sound card and speakers installed where you can overhear them, but by contrast, there are doubtless many laptops containing valuable information, so we could imagine it as a possible attack vector. The code is on the linked page, should you be interested, and if you want more ultrasonic goodness, this definitely isn’t the first time we have touched upon it. While a sound card might be exotic on a server, a hard drive LED isn’t.

Reading The Chip In Your Passport

June 28, 2025 by 34 Comments

For over a decade, most passports have contained an NFC chip that holds a set of electronically readable data about the document and its holder. This has resulted in a much quicker passage through some borders as automatic barriers can replace human officials, but at the same time, it adds an opaque layer to the process. Just what data is on your passport, and can you read it for yourself? [Terence Eden] wanted to find out.

The write-up explains what’s on the passport and how to access it. Surprisingly, it’s a straightforward process, unlike, for example, the NFC on a bank card. Security against drive-by scanning is provided by the key being printed on the passport, requiring the passport to be physically opened.

Continue reading “Reading The Chip In Your Passport”

This Week In Security: MegaOWNed, Store Danger, And FileFix

June 27, 2025 by 7 Comments

Earlier this year, I was required to move my server to a different datacenter. The tech that helped handle the logistics suggested I assign one of my public IPs to the server’s Baseboard Management Controller (BMC) port, so I could access the controls there if something went sideways. I passed on the offer, and not only because IPv4 addresses are a scarce commodity these days. No, I’ve never trusted a server’s built-in BMC. For reasons like this MegaOWN of MegaRAC, courtesy of a CVSS 10.0 CVE, under active exploitation in the wild.

This vulnerability was discovered by Eclypsium back in March and it’s a pretty simple authentication bypass, exploited by setting an X-Server-Addr header to the device IP address and adding an extra colon symbol to that string. Send this along inside an HTTP request, and it’s automatically allowed without authentication. This was assigned CVE-2024-54085, and for servers with the BMC accessible from the Internet, it scores that scorching 10.0 CVSS.

We’re talking about this now, because CISA has added this CVE to the official list of vulnerabilities known to be exploited in the wild. And it’s hardly surprising, as this is a near-trivial vulnerability to exploit, and it’s not particularly challenging to find web interfaces for the MegaRAC devices using tools like Shodan and others.

There’s a particularly ugly scenario that’s likely to play out here: Embedded malware. This vulnerability could be chained with others, and the OS running on the BMC itself could be permanently modified. It would be very difficult to disinfect and then verify the integrity of one of these embedded systems, short of physically removing and replacing the flash chip. And malware running from this very advantageous position very nearly have the keys to the kingdom, particularly if the architecture connects the BMC controller over the PCIe bus, which includes Direct Memory Access.

This brings us to the really bad news. These devices are everywhere. The list of hardware that ships with the MegaRAC Redfish UI includes select units from “AMD, Ampere Computing, ASRock, ARM, Fujitsu, Gigabyte, Huawei, Nvidia, Supermicro, and Qualcomm”. Some of these vendors have released patches. But at this point, any of the vulnerable devices on the Internet, still unpatched, should probably be considered compromised. Continue reading “This Week In Security: MegaOWNed, Store Danger, And FileFix”

This Week In Security: That Time I Caused A 9.5 CVE, IOS Spyware, And The Day The Internet Went Down

June 20, 2025 by 18 Comments

Meshtastic just released an eye-watering 9.5 CVSS CVE, warning about public/private keys being re-used among devices. And I’m the one that wrote the code. Not to mention, I triaged and fixed it. And I’m part of Meshtastic Solutions, the company associated with the project. This is is the story of how we got here, and a bit of perspective.

First things first, what kind of keys are we talking about, and what does Meshtastic use them for? These are X25519 keys, used specifically for encrypting and authenticating Direct Messages (DMs), as well as optionally for authorizing remote administration actions. It is, by the way, this remote administration scenario using a compromised key, that leads to such a high CVSS rating. Before version 2.5 of Meshtastic, the only cryptography in place was simple AES-CTR encryption using shared symmetric keys, still in use for multi-user channels. The problem was that DMs were also encrypted with this channel key, and just sent with the “to” field populated. Anyone with the channel key could read the DM.

I re-worked an old pull request that generated X25519 keys on boot, using the rweather/crypto library. This sentence highlights two separate problems, that both can lead to unintentional key re-use. First, the keys are generated at first boot. I was made painfully aware that this was a weakness, when a user sent an email to the project warning us that he had purchased two devices, and they had matching keys out of the box. When the vendor had manufactured this device, they flashed Meshtastic on one device, let it boot up once, and then use a debugger to copy off a “golden image” of the flash. Then every other device in that particular manufacturing run was flashed with this golden image — containing same private key. sigh

Continue reading “This Week In Security: That Time I Caused A 9.5 CVE, IOS Spyware, And The Day The Internet Went Down”

A coiled black USB-C to USB-C cable is shown on a white background.

An Open-Source Justification For USB Cable Paranoia

June 16, 2025 by 37 Comments

Most people know that they shouldn’t plug strange flash drives into their computers, but what about a USB cable? A cable doesn’t immediately register as an active electronic device to most people, but it’s entirely possible to hide a small, malicious microcontroller inside the shell of one of the plugs. [Joel Serna Moreno] and some collaborators have done just that with their Evil Crow Cable-Wind.

This cable comes in two variants: one USB-A to USB-C, and one with USB-C to USB-C. A tiny circuit board containing an ESP32-S3 hides inside a USB-C plug on each cable, and can carry out a keystroke injection attack. The cable’s firmware is open-source, and has an impressive set of features: a payload syntax checker, payload autocompletion, OS detection, and the ability to impersonate the USB device of your choice.

The cable provides a control interface over WiFi, and it’s possible to edit and deploy live payloads without physical access to the cable (this is where the syntax checker should be particularly useful). The firmware also provides a remote shell for computers without a network connection; the cable opens a shell on the target computer which routes commands and responses through the cable’s WiFi connection (demonstrated in the video below).

The main advantage of the Evil Crow Cable Wind is its price: only about $25, at which point you can afford to lose a few during deployment. We’ve previously seen a malicious cable once before. Of course, these attacks aren’t limited to cables and USB drives; we’ve seen them in USB-C docks, in a gaming mouse, and the fear of them in fans.

Thanks to [rustysun9] for the tip!

This Week In Security: The Localhost Bypass, Reflections, And X

June 13, 2025 by 26 Comments

Facebook and Yandex have been caught performing user-hostile tracking. This sort of makes today just another Friday, but this is a bit special. This time, it’s Local Mess. OK, it’s an attack with a dorky name, but very clever. The short explanation is that web sites can open connections to localhost. And on Android, apps can be listening to those ports, allowing web pages to talk to apps.

That may not sound too terrible, but there’s a couple things to be aware of. First, Android (and iOS) apps are sandboxed — intentionally making it difficult for one app to talk to another, except in ways approved by the OS maker. The browser is similarly sandboxed away from the apps. This is a security boundary, but it is especially an important security boundary when the user is in incognito mode.

The tracking Pixel is important to explain here. This is a snippet of code, that puts an invisible image on a website, and as a result allows the tracker to run JavaScript in your browser in the context of that site. Facebook is famous for this, but is not the only advertising service that tracks users in this way. If you’ve searched for an item on one site, and then suddenly been bombarded with ads for that item on other sites, you’ve been tracked by the pixel.

This is most useful when a user is logged in, but on a mobile device, the user is much more likely to be logged in on an app and not the browser. The constant pressure for more and better data led to a novel and completely unethical solution. On Android, applications with permission to access the Internet can listen on localhost (127.0.0.1) on unprivileged ports, those above 1024.

Facebook abused this quirk by opening a WebRTC connection to localhost, to one of the ports the Facebook app was listening on. This triggers an SDP connection to localhost, which starts by sending a STUN packet, a UDP tool for NAT traversal. Packed into that STUN packet is the contents of a Facebook Cookie, which the Facebook app happily forwards up to Facebook. The browser also sends that cookie to Facebook when loading the pixel, and boom Facebook knows what website you’re on. Even if you’re not logged in, or incognito mode is turned on.

Yandex has been doing something similar since 2017, though with a different, simpler mechanism. Rather than call localhost directly, Yandex just sets aside yandexmetrica.com for this purpose, with the domain pointing to 127.0.0.1. This was just used to open an HTTP connection to the native Yandex apps, which passed the data up to Yandex over HTTPS. Meta apps were first seen using this trick in September 2024, though it’s very possible it was in use earlier.

Both companies have ceased since this report was released. What’s interesting is that this is a flagrant violation of GDPR and CCPA, and will likely lead to record-setting fines, at least for Facebook.

Continue reading “This Week In Security: The Localhost Bypass, Reflections, And X”

A circuit board is shown on a white background. It has a USB-A port on the front side, and a coiled wire antenna extending from another circuit board mounted above the first one.

A Remote-Controlled USB Rubber Ducky Clone

June 13, 2025 by 17 Comments

Despite the repeated warnings of system administrators, IT personnel, and anyone moderately aware of operational security, there are still quite a few people who will gladly plug a mysterious flash drive into their computers to see what’s on it. Devices which take advantage of this well-known behavioral vulnerability have a long history, the most famous of which is Hak5’s USB Rubber Ducky. That emulates a USB input device to rapidly execute attacker-defined commands on the target computer.

The main disadvantage of these keystroke injection attacks, from the attacker’s point of view, is that they’re not particularly subtle. It’s usually fairly obvious when something starts typing thousands of words per minute on your computer, and the victim’s next move is probably a call to IT. This is where [Krzysztof Witek]’s open-source Rubber Ducky clone has an advantage: it uses a signal detected by a SYN480R1 RF receiver to trigger the deployment of its payload. This does require the penetration tester who uses this to be on the site of the attack, but unlike with an always-on or timer-delayed Rubber Ducky, the attacker can trigger the payload when the victim is distracted or away from the computer.

This project is based around the ATmega16U2, and runs a firmware based on microdevt, a C framework for embedded development which [Krzysztof] also wrote. The project includes a custom compiler for a reduced form of Hak5’s payload programming language, so at least some of the available DuckyScript programs should be compatible with this. All of the project’s files are available on GitHub.

Perhaps due to the simplicity of the underlying concept, we’ve seen a few open source implementations of malicious input devices. One was even built into a USB cable.