Researchers have discovered a vulnerability in Peloton stationary bicycles, one that would give the attacker complete control over the device.
The attack requires physical access to the Peloton, so it’s not really a practical attack. President Biden’s Peloton was not in danger.
Posted on June 18, 2021 at 6:18 AM •
General Packet Radio Service (GPRS) is a mobile data standard that was widely used in the early 2000s. The first encryption algorithm for that standard was GEA-1, a stream cipher built on three linear-feedback shift registers and a non-linear combining function. Although the algorithm has a 64-bit key, the effective key length is only 40 bits, due to “an exceptional interaction of the deployed LFSRs and the key initialization, which is highly unlikely to occur by chance.”
GEA-1 was designed by the European Telecommunications Standards Institute in 1998. ETSI was — and maybe still is — under the auspices of SOGIS: the Senior Officials Group, Information Systems Security. That’s basically the intelligence agencies of the EU countries.
Details are in the paper: “Cryptanalysis of the GPRS Encryption Algorithms GEA-1 and GEA-2.” GEA-2 does not have the same flaw, although the researchers found a practical attack with enough keystream.
Hacker News thread.
EDITED TO ADD (6/18): News article.
Posted on June 17, 2021 at 1:51 PM •
TorrentFreak surveyed nineteen VPN providers, asking them questions about their privacy practices: what data they keep, how they respond to court order, what country they are incorporated in, and so on.
Most interesting to me is the home countries of these companies. Express VPN is incorporated in the British Virgin Islands. NordVPN is incorporated in Panama. There are VPNs from the Seychelles, Malaysia, and Bulgaria. There are VPNs from more Western and democratic countries like the US, Switzerland, Canada, and Sweden. Presumably all of those companies follow the laws of their home country.
And it matters. I’ve been thinking about this since Trojan Shield was made public. This is the joint US/Australia-run encrypted messaging service that lured criminals to use it, and then spied on everything they did. Or, at least, Australian law enforcement spied on everyone. The FBI wasn’t able to because the US has better privacy laws.
We don’t talk about it a lot, but VPNs are entirely based on trust. As a consumer, you have no idea which company will best protect your privacy. You don’t know the data protection laws of the Seychelles or Panama. You don’t know which countries can put extra-legal pressure on companies operating within their jurisdiction. You don’t know who actually owns and runs the VPNs. You don’t even know which foreign companies the NSA has targeted for mass surveillance. All you can do is make your best guess, and hope you guessed well.
Posted on June 16, 2021 at 6:17 AM •
Really interesting two part analysis of the audit conducted after the 2020 election in Windham, New Hampshire.
Based on preliminary reports published by the team of experts that New Hampshire engaged to examine an election discrepancy, it appears that a buildup of dust in the read heads of optical-scan voting machines (possibly over several years of use) can cause paper-fold lines in absentee ballots to be interpreted as votes… New Hampshire (and other states) may need to maintain the accuracy of their optical-scan voting machines by paying attention to three issues:
- Routine risk-limiting audits to detect inaccuracies if/when they occur.
- Clean the dust out of optical-scan read heads regularly; pay attention to the calibration of the optical-scan machines.
- Make sure that the machines that automatically fold absentee ballots (before mailing them to voters) don’t put the fold lines over vote-target ovals. (Same for election workers who fold ballots by hand.)
Posted on June 15, 2021 at 10:45 AM •
This is a current list of where and when I am scheduled to speak:
The list is maintained on this page.
Posted on June 14, 2021 at 11:55 AM •
This is probably worth paying attention to:
Posted on June 14, 2021 at 10:11 AM •
We now have a fossil of a squid eating a crustacean while it is being eaten by a shark.
As usual, you can also use this squid post to talk about the security stories in the news that I haven’t covered.
Read my blog posting guidelines here.
Posted on June 11, 2021 at 4:18 PM •
For three years, the Federal Bureau of Investigation and the Australian Federal Police owned and operated a commercial encrypted phone app, called AN0M, that was used by organized crime around the world. Of course, the police were able to read everything — I don’t even know if this qualifies as a backdoor. This week, the world’s police organizations announced 800 arrests based on text messages sent over the app. We’ve seen law enforcement take over encrypted apps before: for example, EncroChat. This operation, code-named Trojan Shield, is the first time law enforcement managed an app from the beginning.
If there is any moral to this, it’s one that all of my blog readers should already know: trust is essential to security. And the number of people you need to trust is larger than you might originally think. For an app to be secure, you need to trust the hardware, the operating system, the software, the update mechanism, the login mechanism, and on and on and on. If one of those is untrustworthy, the whole system is insecure.
It’s the same reason blockchain-based currencies are so insecure, even if the cryptography is sound.
Posted on June 11, 2021 at 6:32 AM •
“Markpainting” is a clever technique to watermark photos in such a way that makes it easier to detect ML-based manipulation:
An image owner can modify their image in subtle ways which are not themselves very visible, but will sabotage any attempt to inpaint it by adding visible information determined in advance by the markpainter.
One application is tamper-resistant marks. For example, a photo agency that makes stock photos available on its website with copyright watermarks can markpaint them in such a way that anyone using common editing software to remove a watermark will fail; the copyright mark will be markpainted right back. So watermarks can be made a lot more robust.
Here’s the paper: “Markpainting: Adversarial Machine Learning Meets Inpainting,” by David Khachaturov, Ilia Shumailov, Yiren Zhao, Nicolas Papernot, and Ross Anderson.
Abstract: Inpainting is a learned interpolation technique that is based on generative modeling and used to populate masked or missing pieces in an image; it has wide applications in picture editing and retouching. Recently, inpainting started being used for watermark removal, raising concerns. In this paper we study how to manipulate it using our markpainting technique. First, we show how an image owner with access to an inpainting model can augment their image in such a way that any attempt to edit it using that model will add arbitrary visible information. We find that we can target multiple different models simultaneously with our technique. This can be designed to reconstitute a watermark if the editor had been trying to remove it. Second, we show that our markpainting technique is transferable to models that have different architectures or were trained on different datasets, so watermarks created using it are difficult for adversaries to remove. Markpainting is novel and can be used as a manipulation alarm that becomes visible in the event of inpainting.
Posted on June 10, 2021 at 6:19 AM •
Sidebar photo of Bruce Schneier by Joe MacInnis.