/pimiibo

A tool to create your own amiibo!-Pi4B tested

Primary LanguageC++

pimiibo

This is a tool for spoofing amiibo NFC tags using a Raspberry Pi and PN532 NFC reader/writer with libnfc. Enjoy and please let me know if you have any issues :)

Hardware

This project requires 3 main components: a Pi, a PN532 NFC reader/writer, and NTAG 215 NFC tags. You must use NTAG 215 tags. Any other tag type (e.g NTAG 210, 216, etc.) will not work. Anything meeting these requirements should be fine, but here is my setup for reference:

  1. Raspberry Pi Zero W ($10). A Pi Zero (not W) would cost $5.(I test Pi4B, it runs well.)

  2. Elechouse PN532 NFC Module v3 ($10): Amazon. RMB20 in Taobao China.

  3. NTAG 215 tags. I've personally tested with these ($10 for 11) and these ($28 for 60).

Software setup

  1. Clone this repository with submodules:

    git clone --recurse-submodules https://github.com/garrett-davidson/pimiibo.git

  2. Install libnfc-dev:

    sudo apt-get update && sudo apt-get install libnfc-dev

  3. Compile sources. This will probably take a minute or two the first time on a Pi. (you should be in pimiibo directory) make

Set up I2C (Optional)

This section is dependent on your NFC board and how plan to communicate with it. If you plan to use I2C, you need to enable I2C on your Pi and tell libnfc how to find it. If you plan to use SPI, HSU, or other communication methods, follow the specific instructions for your board.

(Note for SPI and HSU/UART users: if you're using a Pi 3 or Pi Zero W with Bluetooth built-in, then you will want to disable Bluetooth when communicating with the board. This is because the serial pin got hijacked for Bluetooth and the software pin has clocking issues. You can read more here.)

  1. Enable I2C on your Pi.

    sudo raspi-config

    Then navigate to Interfacing Options -> I2C -> Yes.

  2. Install i2c-tools

    sudo apt-get install i2c-tools

  3. Configure libnfc to search for your board:

    sudo nano /etc/nfc/libnfc.conf

    Add these lines to the end of the file:

    device.name = "_PN532_I2c"
    device.connstring = "pn532_i2c:/dev/i2c-1"
    
  4. Make sure your board is in I2C mode. Some boards, like the one linked above, support multiple communication modes, which are selected with physical dipswitches. For that Elechouse board, I2C mode is 1 0. This means toggle the top switch on (to the right), and the bottom switch off (to the left).

  5. Wire the board. For through-hole boards (including the Pi), I highly recommend soldering all of the headers on before continuing. A loose connection on any of these wires can damage your Pi and your NFC board, or waste an NFC tag. Once that is done, wire the board as follows:

    NFC Board Pin Pi Pin
    Ground Ground -GPIO Pin 6
    VCC 5 V -GPIO Pin 4
    SDA SDA.1 (Pin 3)
    SCL SCL.1 (Pin 5)

Note: Make sure you have set the DIP swith for set the interface is I2C, as the default is HSU(UART) 6. Check to make sure it is working.

sudo i2cdetect –y 1
( when I use this cmd in Pi4B, it tells no matched bus, I use such cmd: sudo i2cdetect 1
  Note, 1 is ONE, not L/l)

If all goes well, you should see a device show up as a number on that list (mine is 24). If the list is empty (all dashes), double check your setup.

Getting the required files

After you have followed the above setup, you just need two more files to start making your own amiibo: an amiibo dump, and the key file.

Amiibo Dump

Amiibo dumps are not hard to get. Amiibo are 540 bytes and usually stored in a .bin (binary) file. Assuming you are simply cloning your own legitimate amiibo, you can use any dumping tool to dump it to a .bin file. Otherwise, that's probably copyright infringement or something.

Key file

This is the file containing Nintendo's key, which they use to encrypt/decrypt data on the amiibo. It is probably also copyrighted content, but it's a 160 byte .bin file which matches the MD5 45fd53569f5765eef9c337bd5172f937.

Usage

Start the program: ./pimiibo path-to-key-file path-to-amiibo-file (ie: ./pimiibo key.bin Redd.bin here you should put *.bin in ./pimiibo Once you see ***Scan tag***, place and hold your blank NFC tag on the reader/writer. You should then see messages scrolling past with each data page as it begins writing them. Do not remove your tag until the write is finished. When you see Finished writing tag, it is safe to remove your tag and enjoy your new amiibo!

Common Problems

  • Failed to initialize adapter

    Initializing NFC adapter
    error	libnfc.bus.i2c	Error: wrote only -1 bytes (10 expected).
    

    Your Pi could not find your NFC device. Double check your wiring and try again.

  • Failed to write a page

    Writing to 4: a5 b0 d1 00...Failed
    Failed to write to tag
    Write: RF Transmission Error
    

    This means your tag is already locked. The NTAG 21x spec declares locking bits which permanently prevent certain parts of a tag from being written to once they are set. Therefore once the locking bits are set, you cannot rewrite this tag to another amiibo. All amiibo are required to have certain locking bits sets, so you cannot change a tag once you've used it.

    If this happened anywhere other than page 4, it probably means that your device lost connection to the tag. Try again while keeping the tag closer to your device. Hopefully in the future I'll add a feature to check which of these problems occurred.