RFID Mifare Classic "clone"
Saturday, April 21. 2018
Toying around with RFID, tags has always been something I wanted to do, but never had the time. Contactless payment is gaining traction all around the world. The reason is very simple: it is fast and convenient for both the customer and vendor to just touch'n'go with your credit card or mobile phone on a point-of-sale.
Credit/Debit card payments are based on EMV, or Europay MasterCard and Visa, standard. See generic EMV info at https://en.wikipedia.org/wiki/EMV. Back in 2011 Visa started driving the contactless standard worldwide, and given the situation today, their efforts paid off. However, my understanding is, that at the time of writing this, regardless number of people attempting it, there are no known vulnerabilities in the contactless EMV. Finding one, would be sweet, but finding one would also be extremely hard and time consuming. So, I decided to go for something easier. MIFARE Classic.
What's this RFID, isn't it NFC?
Short answer: yes and no.
This infographic is courtesy of atlasRFIDstore
http://blog.atlasrfidstore.com/rfid-vs-nfc
MIFARE Classic info
Since this topic isn't especially new, I'm just posting some useful sites I found to be very useful when doing RFID-hacks:
- Finding the encryption keys:
- Cloning the tag:
- Information about Mifare Classic encryption key hacking:
- ISO/IEC 14443 Type A generations:
Going to eBay for the hardware
I had a real-world RFID -tag, and wanted to take a peek into it. For that to happen, I needed some hardware.
The choice for reader/writer is obvious, an ACR122. Info is at: https://www.acs.com.hk/en/products/3/acr122u-usb-nfc-reader/. The thing costs almost nothing and is extremely well supported by all kinds of hacking software.
Going to GitHub for the software
All the software needed in this project can be found from GitHub:
- libusb, https://github.com/libusb/libusb
- Some software want libusb 0.1 some 1.0. I had only 0.1 installed so I had to compile the latest also.
- libnfc, https://github.com/nfc-tools/libnfc
- Latest installed
- MiFare Classic Universal toolKit, mfcuk, https://github.com/nfc-tools/mfcuk
- Installed, because it has Mifare Classic DarkSide Key Recovery Tool. This is an advanced approach into cracking the encryption keys.
- mfoc, https://github.com/nfc-tools/mfoc
- offline nested attack by Nethemba
- This is the one, NXP tried to prevent the hack to be publicly released, see info from https://www.secureidnews.com/news-item/nxp-sues-to-prevent-hackers-from-releasing-mifare-flaws/
- Creating an own encryption algorithm and expecting nobody to figure out how it works will work for a very short period of time. Going to a judge to prevent the information from leaking also works... if you're high on something! But on real life it works never.
All of the above software was installed with ./configure --prefix=/usr/local/rfid
to avoid breaking anything already installed into the system.
Running the tools
Basic information from the tag (the actual tag UID is omitted):
# nfc-list
NFC device: ACS / ACR122U PICC Interface opened
1 ISO14443A passive target(s) found:
ISO/IEC 14443A (106 kbps) target:
ATQA (SENS_RES): 00 04
UID (NFCID1): 11 22 33 44
SAK (SEL_RES): 08
ATQA 00, 04 is listed in ISO/IEC 14443 Type A generations and is identified as MIFARE Classic. Goody! It's weak and hackable.
Just running mfoc to see if a slow attack can proceed:
# mfoc -O card.dmp
Found Mifare Classic 1k tag
ISO/IEC 14443A (106 kbps) target:
ATQA (SENS_RES): 00 04
UID size: single
bit frame anticollision supported
UID (NFCID1): 11 22 33 44
SAK (SEL_RES): 08
Not compliant with ISO/IEC 14443-4
Not compliant with ISO/IEC 18092
Fingerprinting based on MIFARE type Identification Procedure:
MIFARE Classic 1K
MIFARE Plus (4 Byte UID or 4 Byte RID) 2K, Security level 1
* SmartMX with MIFARE 1K emulation
And very soon, it results:
We have all sectors encrypted with the default keys..
Auth with all sectors succeeded, dumping keys to a file!
WHAAT! The card wasn't encrypted at all!
A closer look into card.dmp
reveals, that there was no payload in the 1024 bytes this particular MIFARE Classic stored.
Since, the card doesn't have any payload, the application has to work based on childish assumption, that the UID of a RFID-tag cannot be changed. Nice! Because it can be set to whatever I want it to be! Like this:
# nfc-mfsetuid 11223344
NFC reader: ACS / ACR122U PICC Interface opened
Found tag with
UID: 01234567
ATQA: 0004
SAK: 08
My blank UID-writable tag had UID of 01 02 03 04, but I changed it into something else. Note: This is not allowed by the specs, but using very cheap eBay-hardware, obviously it can be done! Nice.
To verify my hack:
I walked into the appliation and used my clone successfully. Also, I informed the owners, that their security is ... well ... not secure. They shouldn't use UIDs as the only authentication mechanism. It's only 4 bytes and anybody in the world can use that 4-byte password. Using encrypted payload would make more sense, if MIFARE Classic wouldn't have a major security flaw in it's key generation algorithm.
This was one of the easiest hacks I've completed for years.
Arnaud on :
Thank you
Jari Turkia on :
While at it, familiarize yourself with document How To Ask Questions The Smart Way
(http://www.catb.org/esr/faqs/smart-questions.html).
Anton on :
In your experience, is there any reason to buy a more expensive proxmark 3 over the model you mentioned in the post?
I have a much simpler RC 522 model that I successfully used to clone home keys and such in the past, but I'm finding myself in a situation where my new apartment uses a more sophisticated system where some of the keys have a password. simple cloning or UID copy no longer works.
So I am currently trying to decide between ACR122 and proxmark 3 from Aliexpress