This Week In Security: Docker Auth, Windows Tools, And A Very Full Patch Tuesday

April 17, 2026 by Mike Kershaw No comments

CVE-2026-34040 lets attackers bypass some Docker authentication plugins by allowing an empty request body. Present since 2024, this bug was caused by a previous fix to the auth workflow. In the 2024 bug, the authentication system could be tricked into passing a zero-length request to the authentication handler. In the modern vulnerability, the system can be tricked into removing a too-large authentication request and passing a zero-length request to the authentication handler.

In both cases, the authentication system may not properly handle the malformed request and allow creation of docker images with access to stored credentials and secrets.

Bugs like these are increasing in visibility because AI agents running in Docker, like OpenClaw, may be tricked via prompt injection into leveraging the vulnerability.

Windows CPU Tools Compromised

videocardz.com notes that the popular Windows monitoring software Cpu-Z and HWMonitor appear to have been compromised. Reports indicate that the download site was compromised, not the actual packages, but that it was redirecting update requests to packages including malware. While the site has been repaired, unfortunately it looks like there is no warning to users that the downloads were compromised for a period of time.

Anecdotally, there has been a rash of Discord account takeovers in the past week, where long-standing accounts in multiple servers have been compromised and turned into spambots. While there is no evidence these events are linked, clearly a new credential or authentication stealing malware is in play, which involves stealing credentials from Discord.

X.Org and XWayland Updated

The X.Org and XWayland servers saw security updates this week, fixing a handful of vulnerabilities involving uninitialized memory use, use-after-free, and reading beyond the end of a buffer.

The vulnerabilities are generally classified as “moderate”, but of course, don’t leave known vulnerabilities when you can avoid it! Fixed releases should find their way into distributions soon.

Continue reading “This Week In Security: Docker Auth, Windows Tools, And A Very Full Patch Tuesday” →

Don’t Trust Password Managers? HIPPO May Be The Answer!

April 15, 2026 by Dave Rowntree 50 Comments

The modern web is a major pain to use without a password manager app. However, using such a service requires you to entrust your precious secrets to a third party. They could also be compromised, then you really are in trouble. You could manage passwords with local software or even a notebook, but that adds cognitive load. You could use the same password across multiple sites to reduce the load, but that would be unwise. Now, however, with the HIPPO system, there is another way.

HIPPO is implemented as a browser extension paired with a central server. The idea is not to store any password anywhere, but to compute them on the fly from a set of secrets. One secret at the server end, and one the user supplies as a passphrase. This works via an oblivious pseudorandom function (OPRF) protocol. Details from the linked site are sparse, but we think we’ve figured it out from other sources.

First, the user-supplied master password is hashed with the site identifier (i.e., the domain), blinded with a random number, and then processed using an OPRF, likely built on an elliptic-curve cryptographic scheme. This ensures the server never receives the raw password. Next, the server applies its own secret key via a Pseudorandom Function (PRF) and sends it back to the client. Obviously, its private key is also never sent raw. Next, the client removes the blinding factor (using the same random number it used when sending) from the original key, producing a site-specific high-entropy secret value that the extension passes to a Key Derivation Function (KDF), which formats it into a suitable form for use as a password. Finally, the extension auto-fills the password into the website form, ready to send to the site you want to access. This password is still unique per site and deterministic, which is how this whole scheme can replace a password database. Neat stuff!

This advantage to this whole scheme means there’s no vault to compromise, no storage requirements, and it generates a strong password for each unique site, meaning no password reuse and a low chance of brute-force cracking. The obvious flaw is that it creates a single point of failure (the HIPPO service) and shifts the risk of compromise from vault cracking the master password, infiltrating the server, or compromising its secret key. It’s an interesting idea for sure, but it doesn’t directly manage 2FA, which is a layer you’d want adding on top to ensure adequate security overall, and of course, it’s not a real, live service yet, but when (or if) it becomes one, we’ll be sure to report back.

Confused by all this? Why not dig into this article first? Or maybe you fancy a DIYable hardware solution?

Authenticate SSH With Your TPM

April 11, 2026 by Al Williams 19 Comments

You probably don’t think about it much, but your PC probably has a TPM or Trusted Platform Module. Windows 11 requires one, and most often, it stores keys to validate your boot process. Most people use it for that, and nothing else. However, it is, in reality, a perfectly good hardware token. It can store secret data in a way that is very difficult to hack. Even you can’t export your own secrets from the TPM. [Remy] shows us how to store your SSH keys right on your TPM device.

Continue reading “Authenticate SSH With Your TPM” →

This Week In Security: Flatpak Fixes, Android Malware, And SCADA Was IOT Before IOT Was Cool

April 10, 2026 by Mike Kershaw 9 Comments

Rowhammer attacks have been around since 2014, and mitigations are in place in most modern systems, but the team at gddr6.fail has found ways to apply the attack to current-generation GPUs.

Rowhammer attacks attach the electrical characteristics of RAM, using manipulation of the contents of RAM to cause changes in the contents of adjacent memory cells. Bit values are just voltage levels, after all, and if a little charge leaks across from one row to the next, you can potentially pull a bit high by writing repeatedly to its physical neighbors.

The attack was used to allow privilege escalation by manipulating the RAM defining the user data, and later, to allow reading and manipulation of any page in ram by modifying the system page table that maps memory and memory permissions. By 2015 researchers refined the attack to run in pure JavaScript against browsers, and in 2016 mobile devices were shown to be vulnerable. Mitigations have been put in place in physical memory design, CPU design, and in software. However, new attack vectors are still discovered regularly, with DDR4 and DDR5 RAM as well as AMD and RISC-V CPUs being vulnerable.

The GDDR6-Fail attack targets the video ram of modern graphics cards, and is able to trigger similar vulnerabilities in the graphics card itself, culminating in accessing and changing the memory of the PC via the PCI bus and bypassing protections.

For users who fear they are at risk — most likely larger AI customers or shared hosting environments where the code running on the GPU may belong to untrusted users — enabling error correcting (ECC) mode in the GPU reduces the amount of available RAM, but adds protection by performing checksums on the memory to detect corruption or bit flipping. For the average home user, your mileage may vary – there’s certainly easier ways to execute arbitrary code on your PC – like whatever application is running graphics in the first place!

Continue reading “This Week In Security: Flatpak Fixes, Android Malware, And SCADA Was IOT Before IOT Was Cool” →

This Week In Security: The Supply Chain Has Problems

April 3, 2026 by Mike Kershaw 7 Comments

The biggest story of the week is a new massive supply chain breach, which appears to be unrelated to the previous massive supply chain breaches, this time of the Axios HTTP project.

Axios was created as a more developer-friendly Javascript HTTP interface for node.js, giving a promise-based API instead of the basic callback API. (Promise-based programming allows for simpler coding workflows, where a program can wait for a promise to be fulfilled, instead of the developer having to manage the state of every request manually.) Javascript has since provided a modern Fetch API that provides similar functionality, but Axios remains one of the most popular packages on the node.js NPM repository, with 100 million weekly downloads.

The lead developer of Axios believes he was compromised by a collaboration request – a common tactic for phishing specific targets: a project for an IDE like VS Code can include code that executes on the developers system when the project is run. Even outside a traditional IDE, common development tools like configure scripts and makefiles can easily run commands.

Socket.dev breaks down the attack in detail. Once the attackers had credentials to publish to the Axios NPM, they inserted malware as a new dependency to Axios, instead of modifying Axios itself. This likely helped the attack bypass other security checkers. The dependency – plain-crypto-js – is itself simply a copy of a popular encryption utility library, but one which executes additional code during the post-installation process available to all NPM packages. Continue reading “This Week In Security: The Supply Chain Has Problems” →

This Week In Security: Second Verse, Worse Than The First

March 27, 2026 by Mike Kershaw 16 Comments

Isn’t there some claim events come in threes? After the extremely rare leak of the iOS Coruna exploit chain recently, now we have details from Google on a second significant exploit in the wild, dubbed Darksword.

Like Coruna, Darksword appears to have followed the path of government security contractors, to different government actors, to crypto stealer. It appears to focus on exploits already fixed in modern iOS releases, with most affecting iOS 18 and all patched by iOS 26.3.

Going from almost no public examples of modern iOS exploits to two in as many weeks is wild, so if mobile device security is of interest, be sure to check out the Google write-up.

Another FBI Router Warning

The second too early to be retro – but too important to ignore – repeat security item is a second alert by the FBI cautioning about end-of-life consumer network hardware under active exploitation, with the FBI tracking almost 400,000 device infections so far.

Like the warning two weeks ago, the FBI calls out a handful of consumer routers – but this time they’re devices that may actually still be service in some of our homes (or our less cutting edge friends and family), calling out devices from Netgear, TP-Link, D-Link, and Zyxel:

Netgear DGN2200v4 and AC1900 R700
TP-Link Archer C20, TL-WR840N, TL-WR849N, and WR841N
D-Link DIR-818LW, 850L, and 860L
Zyxel EMG6726-B10A, VMG1312-B10D, VMG1312-T20B, VMG3925-B10A, VMG3925-B10C, VMG4825-B10A, VMG4927-B50A, VMG8825-T50K

While many of these devices are over ten years old, they still support modern networking – some of them even supporting 802.11ac (also called Wi-Fi 5). Unfortunately, since support has been ended by the manufacturers, publicly disclosed vulnerabilities have not been patched (and now never will be, officially) Continue reading “This Week In Security: Second Verse, Worse Than The First” →

Electric Motorcycles Don’t Have To Be Security Nightmares, But This One Was

March 25, 2026 by Tyler August 31 Comments

Once upon a time, they told us we wouldn’t download a car, and they were wrong. Later, Zero Motorcycles stated in their FAQ that you cannot hack an electric motorcycle, a statement which [Persephone Karnstein] and collaborator [Mitchell Marasch] evidently took issue with. Not only can you hack an electric motorcycle, it is — in [Persephone]’s words — a security nightmare.

You should absolutely go over to [Persephone]’s website and check out the whole write-up, which is adapted from a talk given at BSides Seattle 2026. There’s simply way more detail than we can get into here. Everything from “what horridly toxic solvents would I need to unpot this PCB?” to the scripts used in de-compiling and understanding code, it’s all there, and in a lively and readable style to boot. Even if you have no interest in security, or electric motorcycles, you should check it out.

The upshot is that not only were Zero Motorcycles wrong when they said their electric motorcycles could not be hacked, they were hilariously wrong. The problem isn’t the motorcycle alone: it has an app that talks to the electronics on the bike, which take over-the-air (OTA) updates. What about the code linked to the VIN alluded to in that screenshot? Well, it turns out you just need a code structured like a VIN, not an actual number. Oops. By the end of it, [Persephone] and [Mitchell] have taken absolute control of the bike’s firmware, an so have them full control over all its systems.

Why cut the brake lines when you can perform an OTA update that will do the same thing invisibly? And don’t think you can just reset the bike to factory settings to fix it: they thought of this, and the purely-conceptual, never-deployed malware has enough access to prevent that. Or they could just set the battery on fire. That was an option, too, because the battery management system gets OTA updates as well.

To be clear, we don’t have any problem with a motorcycle that’s dependent on electronics to operate. After all, we’ve seen many projects that would meet that definition over the years. But the difference is none of those projects fumbled the execution this badly. Even this 3 kW unicycle, which has a computer for balance control, doesn’t see the need to expose itself. It’s horribly unsafe in very different ways.