- cross-posted to:
- hackernews@lemmy.smeargle.fans
- cross-posted to:
- hackernews@lemmy.smeargle.fans
Summary
OnlyFake, an underground website, employs neural networks to swiftly produce convincing fake IDs for just $15, potentially facilitating bank fraud and money laundering. Verified by 404 Media, the service allows users to input desired information and a passport photo, generating realistic IDs, even mimicking signatures. With its purported use of neural networks and generators, OnlyFake claims to churn out up to 20,000 documents daily, mainly for US identities. The IDs, backed by real-looking backgrounds, can pass online verification, posing challenges to platforms like OKX cryptocurrency exchange. While some companies, such as Jumio and Coinbase, aim to counter such fraud, OnlyFake’s AI-powered IDs present a formidable challenge. Wick, the service’s owner, aims to expand its capabilities, potentially including face and selfie generation. Discussions within OnlyFake’s community suggest a pursuit of solutions for video verification challenges. Senator Ron Wyden warns of the growing threat posed by AI-based tools, urging the adoption of secure authentication methods. This revelation comes amidst a broader trend of AI-driven fraud, exemplified by AI-generated voices and images, highlighting the need for robust cybersecurity measures.
The chip in a passport or ID card is not a simple data storage device. It’s more like a tiny computer that the reader talks to. This is unlike a simple NDEF tag that you can easily clone, there are several layers of protection.
First, you need a key to even access the chip. This key is derived from 3 pieces of information on the document: the document number, the date of birth and the date of expiry. The idea is that to get this data, you already have to be looking at the data page of the passport, that is: to access the privacy-sensitive data inside the chip, you already have to be able to look at that same data printed on the page.
This data then goes into a key derivation function. Some handshake messages are exchanged which I won’t bore you with, and both the chip and the reader should at that point be able to derive another key that will then be used to encrypt any communication between chip and reader. There are actually 2 different mechanisms for this, the older BAC mechanism (Basic Access Control) and the newer PACE mechanism (Password Authenticated Connection Establishment). The latter uses newer and even more secure crypto.
This prevents eavesdropping and ensures you cannot remotely read the document.
Once the connection has been established, the reader can request certain chunks of data from the document. This includes everything that is printed on the data page, as well as a higher-quality color version of the photo on you document.
The data that can be read from the document is digitally signed by the government of the issuing country. You can verify this signature against a list of trusted certificates. Only the government that issued the document should have access to the corresponding private key and as such you cannot forge this data (unless you are able to break certain cryptographic standards, but if someone can do that we have bigger problems than fake IDs). This is called ‘passive authentication’.
Now, if you get your hands on someone’s passport, you could still copy the data, you can’t modify it, but you can clone it. To prevent this passports also have a clone detection mechanism. Again there are multiple versions of this, but the most basic form is called Active Authentication. Part of the data read from the passport, is a public key. The chip in the passport has the corresponding private key, but there is no way to read this key. You can confirm it’s not a clone by sending a piece of random data to the passport and asking it to sign that data with its private key. You then use the public key to check the signature and confirm the document is in possession of the corresponding private key. You can also confirm the authenticity of the public key, because that is also signed with the private key of the issuing government.
Now, theoretically you could try to extract the private key used in clone detection from the physical document, you would need some extremely advanced tech to do this, and the chips in ID documents have all kinds of physical protections against these kind of attacks. Maybe some intelligence services would have this capability, but it would only allow you to clone a document, not forge one.
After reading about all the trouble they go to for passports, social security numbers are hilariously fucking inadequate by comparison (or even in absolute terms, for that matter).
Thank you so, so much for this explanation! I’ve been wondering for years and years and I finally get it, it’s so cool to see public key cryptography being used for clone detection.