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Bambulab RFID Tag Guide

This guide gives you a basic overview how you can decrypt and read your tags. Since we don't know how Bambulab will react on this guide and the general reverse engineering of the tags: Please don't share you tag's UID and the related keys for now.

We are currently working on a way to submit the tag data in a secure way so analysis on the data could be done.

Table of contents

Todos/Timeline/Next steps

  • Tool for automatic trace analysis
  • Web service for tag submisson with automatic anonymized data publishing to github
  • Tag content analysis

Required Equipment

  • Bambulab 3D Printer with AMS
  • Bambulab Filament spool or the related tags
  • A proxmark3 compatible rfid reader
  • proxmark3 installed on your computer

Proxmark3 compatible readers

Proxmark3 easy

A Proxmark 3 easy is sufficient for all the tasks that need to be done. You can buy a clone from alixepress, amazon or dangerous things.

Hacking a Bambulab Tag and readout of its data

We document here the most simple approach to get all required A-Keys and the data of the tag. The easiest way is to sniff the data.

Bambulab AMS RFID readers and sniffing

The Bambulab AMS RFID readers are locate between slot 1&2 and slot 3&4

For sniffing you can place a bambulab spool in slot 1 and place the reader next to the AMS reader. If you have already a single tag you need to place a spool without a tag in slot one and tape a tag on the top side of the reader and hold the proxmark3 next to the reader in such a way that the proxmark3 reader's bottom side is directed to the AMS reader so the proxmark3 reader is between the tag and the AMS reader. It is recommended to rotate the proxmark3 reader similar to the spool. Details can be found in the next steps.

Sniffing the data

To start the sniffing connect your rfid reader and open your proxmark3. Start sniffing with:

hf 14a sniff -c -r

Hold the proxmark3 reader next to the AMS reader and load the filament, or if already loaded tap the update icon on the screen.

When you are done, you can press the button on the side of the Proxmark3 to stop the trace. To visualize the trace you just enter:

trace list -t mf

You should be able to already see the first keys. Until you see a message: "Nested authentication detected." with some bruteforce command: tools/mf_nonce_brute/mf_nonce_brute <parameters>

Execute this command in the proxmark3 directory in an other terminal and write down or save the found key.

Check the date for crc errors and if it's fine save the trace with the following command.

trace save -f <trace-name>

You can now record all your tags. If you want to load the traces later

trace load -f <trace-name>

To view the loaded trace just enter the following command.

trace list -1 -t mf

If you are using traces in the next steps you need to add the -1 option when you analyze the traces.

Getting the other keys by analyzing the log file

Remove the spool/tag from the printer and place it on the reader so we can check all the keys.

Now a dictionary (*.dic) file with all the already found and bruteforced keys must be created.

Enter the keys line by line into that file.

The next steps need to be repeated until you have all the keys. (A script for this is already WIP)

  1. trace list -t mf -f <dic_file>
  2. bruteforce the new keys with the displayed command in a separate terminal and add all new keys to the dict file
  3. verify the keys: hf mf fchk --1k -f <dic_file>
  4. Go to 1 until you found all keys

Data Readout

Before the data can be read we need to generate a key file

hf mf fchk --1k -f <dic_file> --dump

The output is a binary key file: hf-mf-<TAG UID>-key.bin

Dump now the data:

hf mf dump --1k --keys hf-mf-<TAG UID>-key.bin

This can be viewed now in a hex or binary editor or you can view it with:

hf mf view -f hf-mf-<TAG UID>-dump.bin

Generate Keys based on random UID

TODO

Tag stucture

The following infos are already known

Overview

sec blk Data
0 0 UID and Manufacturing Data - Tag specific
0 1 Block 1 Description
0 2 Block 2 Description
0 3 A-Keys Sector 0 (6 bytes), Permission Sector 1 (4 bytes), B-Keys Sector 0 (6 bytes)
1 4 Block 4 Description
1 5 Block 5 Description
1 6 Block 6 Description
1 7 A-Keys Sector 1 (6 bytes), Permission Sector 1 (4 bytes), B-Keys Sector 1 (6 bytes)
2 8 Block 8 Description
2 9 Block 9 Description
2 10 Unknown binary data
2 11 A-Keys Sector 2 (6 bytes), Permission Sector 2 (4 bytes), B-Keys Sector 2 (6 bytes)
3 12 Block 12 Description
3 13 Unkown string data could be part of production date/time
3 14 Unkown binary data
3 15 A-Keys Sector 3 (6 bytes), Permission Sector 3 (4 bytes), B-Keys Sector 3 (6 bytes)
4 16 Empty
4 17 Empty
4 18 Empty
4 19 A-Keys Sector 4 (6 bytes), Permission Sector 4 (4 bytes), B-Keys Sector 4 (6 bytes)
5 20 Empty
5 21 Empty
5 22 Empty
5 23 A-Keys Sector 5 (6 bytes), Permission Sector 5 (4 bytes), B-Keys Sector 5 (6 bytes)
6 24 Empty
6 25 Empty
6 26 Empty
6 27 A-Keys Sector 6 (6 bytes), Permission Sector 6 (4 bytes), B-Keys Sector 6 (6 bytes)
7 28 Empty
7 29 Empty
7 30 Empty
7 31 A-Keys Sector 7 (6 bytes), Permission Sector 7 (4 bytes), B-Keys Sector 7 (6 bytes)
8 32 Empty
8 33 Empty
8 34 Empty
8 35 A-Keys Sector 8 (6 bytes), Permission Sector 8 (4 bytes), B-Keys Sector 8 (6 bytes)
9 37 Empty
9 38 Empty
9 39 Empty
9 15 A-Keys Sector 9 (6 bytes), Permission Sector 9 (4 bytes), B-Keys Sector 9 (6 bytes)
10-15 * Unknown binary data Maybe CRC

The first part of the filament serial number seems to be the Tag UID.

LE = Little Endian

Block 1

Example Data: AA AA AA AA AA AA AA AA BB BB BB BB BB BB BB BB

bytes type example data location Description
7-0 string BB BB BB BB BB BB BB BB Tray Info Index - Unique Material Identifier
15-8 string AA AA AA AA AA AA AA AA Unkown

Block 2

Example Data: AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA

bytes type example data location Description
15-0 string AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA Filament type

Block 4

Example Data: AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA

bytes type example data location description
15-0 string AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA detailed Filament type

Known Values:

  • PLA Basic

Block 5

Example Data: AA AA AA AA BB BB CC CC CC CC CC CC CC CC CC CC

bytes type example data location Description
9-0 Unkown CC CC CC CC CC CC CC CC CC CC Unkown
11-10 uint16 (LE) BB BB Spool Weight in g HEX: E803 --> 1000 g
15-12 RGBA in HEX AA AA AA AA Color in hex RBGA

Block 6

Example Data: AA AA BB BB CC CC DD DD EE EE FF FF GG GG GG GG

bytes type example data location Description
3-0 Unused? GG GG GG GG Unkown
5-4 uint16 (LE) FF FF Min- or Maxtemperature for Hotend
7-6 uint16 (LE) EE EE Min- or Maxtemperature for Hotend
9-8 uint16 (LE) DD DD Bed Temperatur in °C
11-10 uint16 (LE) CC CC Bed Temerature Type
13-12 uint16 (LE) BB BB Drying time in h
15-14 uint16 (LE) AA AA Drying temp in °C

Block 8

Example Data: AA AA AA AA AA AA AA AA AA AA AA AA BB BB BB BB

bytes type example data location description
3-0 Unkown BB BB BB BB Unkown
15-4 RAW Bin AA AA AA AA AA AA AA AA AA AA AA AA X Cam info

Block 9

Example Data: AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA

bytes type example data location Description
15-0 UID AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA TrayUID

Block 12

Example Data: AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA

bytes type example data location Description
15-0 string AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA Production Date and Time in ASCII ? <year>_<month>_<day>_<hour>_<minute>

Compatible RFID tags - By generation

Gen 1 --> Not compatible(due to AMS checking if tag is unlockable with command 0x40)

Gen 2 --> Works

Gen 2 OTW --> Not tested

Gen 3 --> Not tested

Gen 4 --> Not tested(The best option but pricey and hard to source in small chip formfactor)

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