This document is based mostly on information posted on http://www.proxmark.org/forum/viewtopic.php?pid=35372#p35372
Useful docs:
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When a magic card configuration is really messed up and the card is not labeled, it may be hard to find out which type of card it is.
Here are some tips if the card doesn't react or gives error on a simple hf 14a reader:
Let's force a 4b UID anticollision and see what happens:
hf 14a config --atqa force --bcc ignore --cl2 skip --rats skip
hf 14a reader
It it responds, we know it's a TypeA card. But maybe it's a 7b UID, so let's force a 7b UID anticollision:
hf 14a config --atqa force --bcc ignore --cl2 force --cl3 skip --rats skip
hf 14a reader
At this stage, you know if it's a TypeA 4b or 7b card and you can check further on this page how to reconfigure different types of cards.
To restore anticollision config of the Proxmark3:
hf 14a config --std
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Referred as M1, S50 (1k), S70 (4k)
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UID 4b: (actually NUID as there are no more "unique" IDs on 4b)
11223344440804006263646566676869
^^^^^^^^ UID
^^ BCC
^^ SAK(*)
^^^^ ATQA
^^^^^^^^^^^^^^^^ Manufacturer data
(*) some cards have a different SAK in their anticollision and in block0: +0x80 in the block0 (e.g. 08->88, 18->98)
Computing BCC on UID 11223344: hf analyse lcr -d 11223344 = 44
UID 7b:
04112233445566884400c82000000000
^^ Manufacturer byte
^^^^^^^^^^^^^^ UID
^^ SAK(*)
^^^^ ATQA
^^^^^^^^^^^^ Manufacturer data
(*) all? cards have a different SAK in their anticollision and in block0: +0x80 in the block0 (e.g. 08->88, 18->98)
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hf 14a info
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[+] Magic capabilities : Gen 1a
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- Wipe:
40(7),41(use 2000ms timeout) - Read:
40(7),43,30xx+crc - Write:
40(7),43,A0xx+crc,xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx+crc
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- UID: Only 4b versions
- ATQA:
- all cards play blindly the block0 ATQA bytes, beware!
- SAK:
- some cards play blindly the block0 SAK byte, beware!
- some cards use a fix "08" in anticollision, no matter the block0
- some cards use a fix "08" in anticollision, unless SAK in block0 has most significant bit "80" set, in which case SAK="88"
- BCC:
- all cards play blindly the block0 BCC byte, beware!
- ATS:
- no card with ATS
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- SAK: play blindly the block0 SAK byte, beware!
- PRNG: static 01200145
- Wipe: filled with 0xFF
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- SAK: play blindly the block0 SAK byte, beware!
- PRNG: static 01200145
- Wipe: filled with 0x00
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- SAK: 08
- PRNG: static 01200145
- Wipe: filled with 0xFF
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- SAK: 08
- PRNG: weak
- Wipe: timeout, no wipe
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- SAK: 08
- PRNG: weak
- Wipe: reply ok but no wipe performed
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- SAK: 08 or 88 if block0_SAK most significant bit is set
- PRNG: weak
- Wipe: timeout, no wipe
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- SAK: 08 or 88 if block0_SAK most significant bit is set
- PRNG: weak
- Wipe: filled with 0x00
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hf mf csetuid
hf mf cwipe
hf mf csetblk
hf mf cgetblk
hf mf cgetsc
hf mf cload
hf mf csave
hf mf cview
When "soft-bricked" (by writing invalid data in block0), these ones may help:
# MFC Gen1A 1k:
hf mf cwipe -u 11223344 -a 0004 -s 08
# MFC Gen1A 4k:
hf mf cwipe -u 11223344 -a 0044 -s 18
or just fixing block0:
# MFC Gen1A 1k:
hf mf csetuid -u 11223344 -a 0004 -s 08
# MFC Gen1A 4k:
hf mf csetuid -u 11223344 -a 0044 -s 18
script run hf_mf_magicrevive
To execute commands manually:
hf 14a raw -a -k -b 7 40
hf 14a raw -k 43
hf 14a raw -k -c A000
hf 14a raw -c -t 1000 11223344440804006263646566676869
wipe:
hf 14a raw -a -k -b 7 40
hf 14a raw -t 1000 41
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nfc-mfsetuid
nfc-mfclassic R a u mydump
nfc-mfclassic W a u mydump
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Similar to Gen1A, but supports directly read/write after command 40
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hf 14a info
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[+] Magic capabilities : Gen 1b
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- Read:
40(7),30xx - Write:
40(7),A0xx+crc,xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx+crc
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(also referred as MCT compatible by some sellers)
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hf 14a info
...
[+] Magic capabilities : Gen 2 / CUID
Not all Gen2 cards can be identified with hf 14a info, only those replying to RATS.
To identify the other ones, you've to try to write to block0 and see if it works...
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Android compatible
- issue regular write to block0
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- UID: 4b and 7b versions
- ATQA:
- some cards play blindly the block0 ATQA bytes, beware!
- some cards use a fix ATQA in anticollision, no matter the block0. Including all 7b.
- SAK:
- some cards play blindly the block0 SAK byte, beware!
- some cards use a fix "08" or "18" in anticollision, no matter the block0. Including all 7b.
- BCC:
- some cards play blindly the block0 BCC byte, beware!
- some cards compute a proper BCC in anticollision. Including all 7b computing their BCC0 and BCC1.
- ATS:
- some cards don't reply to RATS
- some reply with an ATS
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- UID 4b
- ATQA: play blindly the block0 ATQA bytes, beware!
- SAK: play blindly the block0 SAK byte, beware!
- BCC: play blindly the block0 BCC byte, beware!
- ATS: no
- PRNG: weak
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- UID 4b
- ATQA: fixed
- SAK: fixed
- BCC: computed
- ATS: 0978009102DABC1910F005
- PRNG: weak
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- UID 4b
- ATQA: play blindly the block0 ATQA bytes, beware!
- SAK: fixed
- BCC: play blindly the block0 BCC byte, beware!
- ATS: no
- PRNG: weak
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- UID 7b
- ATQA: fixed
- SAK: fixed
- BCC: computed
- ATS: 0978009102DABC1910F005
- PRNG: static 00000000
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- UID 4b
- ATQA: fixed
- SAK: play blindly the block0 SAK byte, beware!
- BCC: computed
- ATS: no
- PRNG: weak
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TODO need more info
- UID 7b
- ATS: 0D780071028849A13020150608563D
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hf mf wrbl --blk 0 -k FFFFFFFFFFFF -d 11223344440804006263646566676869
hf mf wipe --gen2
When "soft-bricked" (by writing invalid data in block0), these ones may help:
hf 14a config -h
e.g. for 4b UID:
hf 14a config --atqa force --bcc ignore --cl2 skip --rats skip
hf mf wrbl --blk 0 -k FFFFFFFFFFFF -d 11223344440804006263646566676869 # for 1k
hf mf wrbl --blk 0 -k FFFFFFFFFFFF -d 11223344441802006263646566676869 # for 4k
hf 14a config --std
hf 14a reader
e.g. for 7b UID:
hf 14a config --atqa force --bcc ignore --cl2 force --cl3 skip --rats skip
hf mf wrbl --blk 0 -k FFFFFFFFFFFF -d 04112233445566084400626364656667 # for 1k
hf mf wrbl --blk 0 -k FFFFFFFFFFFF -d 04112233445566184200626364656667 # for 4k
hf 14a config --std
hf 14a reader
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Same as MIFARE Classic DirectWrite, but block0 can be written only once.
Initial UID is AA55C396
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Only possible before personalization.
hf 14a info
...
[+] Magic capabilities : Write Once / FUID
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Same as MIFARE Classic DirectWrite, but block0 can be locked with special command.
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TODO
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To lock definitively block0:
hf 14a raw -a -k -b 7 40
hf 14a raw -k 43
hf 14a raw -k -c e000
hf 14a raw -k -c e100
hf 14a raw -c 85000000000000000000000000000008
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TODO
- ZXUID, EUID, ICUID ?
- Some cards exhibit a specific SAK=28 ??
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hf 14a info
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[+] Magic capabilities : Gen 3 / APDU
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Android compatible
- issue special APDUs
cla ins p1 p2 len
90 F0 CC CC 10 <block0> - write block 0
90 FB CC CC 07 <uid> - change uid (independently of block0 data)
90 FD 11 11 00 - lock permanently
It seems the length byte gets ignored anyway.
Note: it seems some cards only accept the "change UID" command.
It accepts direct read of block0 (and only block0) without prior auth.
Writing to block 0 has some side-effects:
- It changes also the UID. Changing the UID does not change block 0.
- ATQA and SAK bytes are automatically replaced by fixed values.
- On 4-byte UID cards, BCC byte is automatically corrected.
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- UID: 4b and 7b versions
- ATQA/SAK: fixed
- BCC: auto
- ATS: none
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# change just UID:
hf mf gen3uid
# write block0:
hf mf gen3blk
# lock (uid/block0?) forever:
hf mf gen3freeze
See also
script run hf_mf_gen3_writer -h
Equivalent:
# change just UID:
hf 14a raw -s -c -t 2000 90FBCCCC07 11223344556677
# read block0:
hf 14a raw -s -c 3000
# write block0:
hf 14a raw -s -c -t 2000 90F0CCCC10 041219c3219316984200e32000000000
# lock (uid/block0?) forever:
hf 14a raw -s -c 90FD111100
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It behaves like DirectWrite but records reader auth attempts.
To change UID: same commands as for MFC DirectWrite
To do reader-only attack: at least two versions exist.
- type 1: https://github.com/nfc-tools/nfc-supercard for card with ATS: 0978009102DABC1910F005
- type 2: https://github.com/netscylla/super-card/blob/master/libnfc-1.7.1/utils/nfc-super.c for ??
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Only type 1 at the moment:
hf 14a info
...
[+] Magic capabilities : super card
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SN0 SN1 SN2 BCC0
SN3 SN4 SN5 SN6
BCC1 Int LCK0 LCK1
UID is made of SN0..SN6 bytes
Computing BCC0 on UID 04112233445566: analyse lcr -d 88041122 = bf
Computing BCC1 on UID 04112233445566: analyse lcr -d 33445566 = 44
Int is internal, typically 0x48
Anticol shortcut (CL1/3000) is supported for UL, ULC, NTAG except NTAG I2C
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TODO
TODO
Only 7b versions
TODO need more tests
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script run hf_mfu_setuid -h
When "soft-bricked" (by writing invalid data in block0), these ones may help:
hf 14a config -h
script run hf_mf_magicrevive -u
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hf 14a info
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[+] Magic capabilities : Gen 2 / CUID
It seems so far that all MFUL DW have an ATS.
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Issue three regular MFU write commands in a row to write first three blocks.
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- UID: Only 7b versions
- ATQA:
- all cards play fix ATQA
- SAK:
- all cards play fix SAK
- BCC:
- some cards play blindly the block0 BCC0 and block2 BCC1 bytes, beware!
- some cards compute proper BCC0 and BCC1 in anticollision
- ATS:
- all cards reply with an ATS
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- BCC: computed
- ATS: 0A78008102DBA0C119402AB5
- Anticol shortcut (CL1/3000): fails
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- BCC: play blindly the block0 BCC0 and block2 BCC1 bytes, beware!
- ATS: 850000A00A000AB00000000000000000184D
- Anticol shortcut (CL1/3000): succeeds
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hf mfu setuid -h
Equivalent: don't use hf mfu wrbl as you need to write three blocks in a row, but do, with proper BCCx:
hf 14a raw -s -c -k a2 00 041122bf
hf 14a raw -c -k a2 01 33445566
hf 14a raw -c a2 02 44480000
When "soft-bricked" (by writing invalid data in block0), these ones may help:
hf 14a config -h
E.g.:
hf 14a config --atqa force --bcc ignore --cl2 force --cl3 skip --rats skip
hf mfu setuid --uid 04112233445566
hf 14a config --std
hf 14a reader
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nfc-mfultralight -h
See --uid and --full
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- MIFARE++ Ultralight
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Similar to MFUL DirectWrite
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hf 14a info
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[+] Magic capabilities : Gen 2 / CUID
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- UID: Only 7b versions
- ATQA:
- all cards play fix ATQA
- SAK:
- all cards play fix SAK
- BCC:
- cards play blindly the block0 BCC0 and block2 BCC1 bytes, beware!
- ATS:
- all cards reply with an ATS
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- BCC: play blindly the block0 BCC0 and block2 BCC1 bytes, beware!
- ATS: 850000A000000AC30004030101000B0341DF
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- BCC: play blindly the block0 BCC0 and block2 BCC1 bytes, beware!
- ATS: 850000A00A000AC30004030101000B0316D7
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Similar to MFUL Gen1A
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Similar to MFUL DirectWrite
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hf 14a info
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[+] Magic capabilities : Gen 2 / CUID
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- UID: Only 7b versions
- ATQA:
- all cards play fix ATQA
- SAK:
- all cards play fix SAK
- BCC:
- cards compute proper BCC0 and BCC1 in anticollision
- ATS:
- all cards reply with an ATS
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- BCC: computed
- ATS: 0A78008102DBA0C119402AB5
- Anticol shortcut (CL1/3000): fails
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Similar to MFUL DirectWrite
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hf 14a info
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[+] Magic capabilities : Gen 2 / CUID
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- UID: Only 7b versions
- ATQA:
- all cards play fix ATQA
- SAK:
- all cards play fix SAK
- BCC:
- cards play blindly the block0 BCC0 and block2 BCC1 bytes, beware!
- ATS:
- all cards reply with an ATS
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- BCC: play blindly the block0 BCC0 and block2 BCC1 bytes, beware!
- ATS: 0A78008102DBA0C119402AB5
- Anticol shortcut (CL1/3000): succeeds
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hf 14a info
...
[+] Magic capabilities : NTAG21x
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Emulates fully NTAG213, 213F, 215, 216, 216F
Emulates partially UL EV1 48k/128k, NTAG210, NTAG212, NTAGI2C 1K/2K, NTAGI2C 1K/2K PLUS
Anticol shortcut (CL1/3000): fails
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script run hf_mfu_magicwrite -h
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TODO
Android compatible
- issue special APDUs
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- ATQA: 0344
- SAK: 20
- ATS: 0675338102005110 or 06757781028002F0
Only mimics DESFire anticollision (but wrong ATS), no further DESFire support
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UID 04112233445566
hf 14a raw -s -c 0200ab00000704112233445566
or equivalently
hf 14a apdu -s 00ab00000704112233445566
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pn53x-tamashell
4a0100
420200ab00000704112233445566
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Android compatible
- issue special APDUs
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- ATQA: 0008 ??? This is not DESFire, 0008/20 doesn't match anything
- SAK: 20
- ATS: 0675338102005110 or 06757781028002F0
Only mimics DESFire anticollision (but wrong ATS), no further DESFire support
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UID 04112233445566
hf 14a raw -s -c 0200ab00000411223344
or equivalently
hf 14a apdu -s 00ab00000411223344
It accepts longer UID but that doesn't affect BCC/ATQA/SAK
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4a0100
420200ab00000411223344
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The same effect (with better ATQA!) can be obtained with a MFC Gen1A that uses SAK defined in block0:
hf mf csetblk --blk 0 -d 1122334444204403A1A2A3A4A5A6A7A8
hf 14a info
[+] UID: 11 22 33 44
[+] ATQA: 03 44
[+] SAK: 20 [1]
[+] Possible types:
[+] MIFARE DESFire MF3ICD40
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No such card is available.
Some vendor allow to specify an ID (PUPI) when ordering a card.
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TODO
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Always set a UID starting with E0.
hf 15 csetuid E011223344556677
or (ignore errors):
script run hf_15_magic -u E004013344556677
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A.k.a ultimate magic card, most promenent feature is shadow mode (GTU) and optional password protected backdoor commands.
Can emulate MIFARE Classic, Ultralight/NTAG families, 14b UID & App Data
- Identify
- Magic commands
- Characteristics
- Proxmark3 commands
- Change ATQA / SAK
- Change ATS
- Set UID length (4, 7, 10)
- Set 14443A UID
- Set 14443B UID and ATQB
- (De)Activate Ultralight mode
- Select Ultralight mode
- Set shadow mode (GTU)
- Direct block read and write
- Change backdoor password
- Dump configuration
- Fast configuration
- Presets
- Version and Signature
👉 TODO Tag doesn't get identified correctly by latest Proxmark3 client (it might get mislabeled as MFC Gen2/CUID, Gen3/APDU or NTAG21x Modifiable, depending on configured UID/ATQA/SAK/ATS)
One can identify manually such card if the password is still the default one, with the command to get the current configuration:
hf 14a raw -s -c -t 1000 CF00000000C6
If the card is an Ultimate Magic Card, it returns 30 bytes.
There are two ways to program this card.
- Use the raw commands designated by the
hf 14aexamples.
OR
- Use the hf_mf_ultimatecard.lua script commands designated but the
script run hf_mf_ulimatecardexamples.
script run hf_mf_ultimatecard.lua -h
This script enables easy programming of an Ultimate Mifare Magic card
Usage
script run hf_mf_ultimatecard -h -k <passwd> -c -w <type> -u <uid> -t <type> -p <passwd> -a <pack> -s <signature> -o <otp> -v <version> -q <atqa/sak> -g <gtu> -z <ats> -m <ul-mode> -n <ul-protocol>
Arguments
-h this help
-c read magic configuration
-u UID (8-14 hexsymbols), set UID on tag
-t tag type to impersonate
1 = Mifare Mini S20 4-byte 12 = NTAG 210
2 = Mifare Mini S20 7-byte 13 = NTAG 212
3 = Mifare 1k S50 4-byte 14 = NTAG 213
4 = Mifare 1k S50 7-byte 15 = NTAG 215
5 = Mifare 4k S70 4-byte 16 = NTAG 216
6 = Mifare 4k S70 7-byte 17 = NTAG I2C 1K
*** 7 = UL - NOT WORKING FULLY 18 = NTAG I2C 2K
*** 8 = UL-C - NOT WORKING FULLY 19 = NTAG I2C 1K PLUS
9 = UL EV1 48b 20 = NTAG I2C 2K PLUS
10 = UL EV1 128b 21 = NTAG 213F
*** 11 = UL Plus - NOT WORKING YET 22 = NTAG 216F
-p NTAG password (8 hexsymbols), set NTAG password on tag.
-a NTAG pack ( 4 hexsymbols), set NTAG pack on tag.
-s Signature data (64 hexsymbols), set signature data on tag.
-o OTP data (8 hexsymbols), set `One-Time Programmable` data on tag.
-v Version data (16 hexsymbols), set version data on tag.
-q ATQA/SAK (<2b ATQA><1b SAK> hexsymbols), set ATQA/SAK on tag.
-g GTU Mode (1 hexsymbol), set GTU shadow mode.
-z ATS (<1b length><0-16 ATS> hexsymbols), Configure ATS. Length set to 00 will disable ATS.
-w Wipe tag. 0 for Mifare or 1 for UL. Fills tag with zeros and put default values for type selected.
-m Ultralight mode (00 UL EV1, 01 NTAG, 02 UL-C, 03 UL) Set type of UL.
-n Ultralight protocol (00 MFC, 01 UL), switches between UL and MFC mode
-k Ultimate Magic Card Key (IF DIFFERENT THAN DEFAULT 00000000)
Example usage
-- read magic tag configuration
script run hf_mf_ultimatecard -c
-- set uid
script run hf_mf_ultimatecard -u 04112233445566
-- set NTAG pwd / pack
script run hf_mf_ultimatecard -p 11223344 -a 8080
-- set version to NTAG213
script run hf_mf_ultimatecard -v 0004040201000f03
-- set ATQA/SAK to [00 44] [08]
script run hf_mf_ultimatecard -q 004408
-- wipe tag with a NTAG213 or Mifare 1k S50 4 byte
script run hf_mf_ultimatecard -w 1
-- use a non default UMC key. Only use this if the default key for the MAGIC CARD was changed.
script run hf_mf_ultimatecard -k ffffffff -w 1
-- Wipe tag, turn into NTAG215, set sig, version, NTAG pwd/pak, and OTP.
script run hf_mf_ultimatecard -w 1 -t 15 -u 04112233445566 -s 112233445566778899001122334455667788990011223344556677 -p FFFFFFFF -a 8080 -o 11111111
Special raw commands summary:
CF <passwd> 32 <00-03> // Configure GTU shadow mode
CF <passwd> 34 <1b length><0-16b ATS> // Configure ATS
CF <passwd> 35 <2b ATQA><1b SAK> // Configure ATQA/SAK (swap ATQA bytes)
CF <passwd> 68 <00-02> // Configure UID length
CF <passwd> 69 <00-01> // (De)Activate Ultralight mode
CF <passwd> 6A <00-03> // Select Ultralight mode
CF <passwd> C6 // Dump configuration
CF <passwd> CC // Factory test, returns 6666
CF <passwd> CD <1b block number><16b block data> // Backdoor write 16b block
CF <passwd> CE <1b block number> // Backdoor read 16b block
CF <passwd> F0 <30b configuration data> // Configure all params in one cmd
CF <passwd> F1 <30b configuration data> // Configure all params in one cmd and fuse the configuration permanently
CF <passwd> FE <4b new_password> // change password
Default <passwd>: 00000000
- UID: 4b, 7b and 10b versions
- ATQA/SAK: changeable
- BCC: auto
- ATS: changeable, can be disabled
- Card Type: changeable
- Shadow mode: GTU
- Backdoor password mode
# view contents of tag memory:
hf mf gview
👉 TODO hf mf gview is currently missing Ultralight memory maps
Equivalent:
hf 14a raw -s -c -t 1000 CF00000000CE00
hf 14a raw -s -c -t 1000 CF00000000CE01
hf 14a raw -s -c -t 1000 CF00000000CE02
...
hf 14a raw -s -c -t 1000 CF<passwd>35<2b ATQA><1b SAK>
- ⚠ ATQA bytes are swapped in the command
- ⚠ ATQA bytes that result in
iso14443a card select failed(I.E. ATQA=0040 in raw form) can be corrected withhf 14a config --atqa force - ⚠ when SAK bit 6 is set (e.g. SAK=20 or 28), ATS must be turned on, otherwise the card may not be recognized by some readers!
- ⚠ never set SAK bit 3 (e.g. SAK=04), it indicates an extra cascade level is required (see
hf 14a config --cl2 skiporhf 14a config --cl3 skipto recover a misconfigured card)
Example: ATQA 0044 SAK 28, default pwd
hf 14a raw -s -c -t 1000 CF0000000035440028
OR (Note the script will correct the ATQA correctly)
script run hf_mf_ultimatecard -q 004428
hf 14a raw -s -c -t 1000 CF<passwd>34<1b length><0-16b ATS>
<length>: ATS length byte, set to00to disable ATS- ⚠ when SAK bit 6 is set (e.g. SAK=20 or 28), ATS must be turned on, otherwise the card may not be recognized by some readers!
- ATS CRC will be added automatically, don't configure it
- Max ATS length: 16 bytes (+CRC)
Example: ATS to 0606757781028002F0, default pwd
hf 14a raw -s -c -t 1000 CF000000003406067577810280
Or
script run hf_mf_ultimatecard -z 06067577810280`
hf 14a raw -s -c -t 1000 CF<passwd>68<1b param>
<param>00: 4 bytes01: 7 bytes02: 10 bytes
Example: set UID length to 7 bytes, default pwd
hf 14a raw -s -c -t 1000 CF000000006801
UID is configured according to block0 with a backdoor write. (Script commands are below the UID length examples)
Example: preparing first two blocks: (Note the UMC has to be in MFC mode and the correct UID byte length set)
hf 14a raw -s -c -t 1000 CF00000000CD00000102030405060708090A0B0C0D0E0F
hf 14a raw -s -c -t 1000 CF00000000CD01101112131415161718191A1B1C1D1E1F
hf 14a reader
MFC mode 4b UID
=> UID 00010203
script run hf_mf_ultimatecard -t 3 -u 00010203
MFC mode 7b UID
=> UID 00010203040506
script run hf_mf_ultimatecard -t 3 -u 00010203040506
MFC mode, 10b UID
=> UID 00010203040506070809
Ultralight mode, 4b UID
=> UID 00010203
Ultralight mode, 7b UID
=> UID 00010210111213
👉 the UID is composed of first two blocks as in regular Ultralights
- Examples
- UL-EV1 48b =
script run hf_mf_ultimatecard -t 9 -u 00010203040506 - UL EV1 128b =
script run hf_mf_ultimatecard -t 10 -u 00010203040506 - NTAG 215 =
script run hf_mf_ultimatecard -t 15 -u 00010203040506
- UL-EV1 48b =
Ultralight mode, 10b UID
=> UID 00010203040506070809
👉 the UID is composed only from block0
UID and ATQB are configured according to block0 with a (14a) backdoor write.
UID size is always 4 bytes.
Example:
hf 14a raw -s -c -t 1000 CF00000000CD00000102030405060708090A0B0C0D0E0F
hf 14b reader
=> UID 00010203
=> ATQB 0405060708090A
hf 14a raw -s -c -t 1000 CF<passwd>69<1b param>
<param>00: MIFARE Classic mode01: MIFARE Ultralight/NTAG mode
Example: activate Ultralight protocol, default pwd
hf 14a raw -s -c -t 1000 CF000000006901
Or
script run hf_mf_ultimatecard -n 01
In this mode, if SAK=00 and ATQA=0044, it acts as an Ultralight card
⚠ only the first four bytes of each block will be mapped in the Ultralight memory map (so the Ultralight block numbers follow backdoor R/W block numbers).
hf 14a raw -s -c -t 1000 CF<passwd>6A<1b param>
<param>00: UL EV101: NTAG02: UL-C03: UL
⚠ it supposes Ultralight mode was activated (cf command 69)
Example: set Ultralight mode to Ultralight-C, default pwd
hf 14a raw -s -c -t 1000 CF000000006A02
Or
script run hf_mf_ultimatecard -m 02
Now the card supports the 3DES UL-C authentication.
This mode is divided into four states: off (pre-write), on (on restore), don’t care, and high-speed read and write. If you use it, please enter the pre-write mode first. At this time, write the full card data. After writing, set it to on. At this time, after writing the data, the first time you read the data just written, the next time you read It is the pre-written data. All modes support this operation. It should be noted that using any block to read and write in this mode may give wrong results.
Example:
script run hf_mf_ultimatecard -w 1 -g 00 -t 15 -u 04112233445566 -s 112233445566778899001122334455667788990011223344556677 -p FFFFFFFF -a 8080 -o 11111111 -g 01
- -w 1 = wipe the card in Ultralight Mode
- -g 00 = turn on pre-write mode
- -t 15 = change the type of card to NTAG 215
- -u = set the uid
- -s = set the signature
- -p = set the NTAG password
- -a = set the PACK
- -o = set the OTP
- -g 01 = turn on restore mode
At this point the card is set to a unwritten NTAG 215. Now any data written to the card will only last for 1 read. Write a popular game toy to it, read it, now it is back to the unwritten NTAG 215.
👉 Remember to disable GTU mode to get the card back to a normal state.
script run hf_mf_ultimatecard -g 03
hf 14a raw -s -c -t 1000 CF<passwd>32<1b param>
<param>00: pre-write, shadow data can be written01: restore mode02: disabled03: disabled, high speed R/W mode for Ultralight?
Using the backdoor command, one can read and write any area without MFC password, similarly to MFC Gen1 card. It should be noted that this command must be used to modify UID.
Backdoor read 16b block:
hf 14a raw -s -c -t 1000 CF<passwd>CE<1b block number>
Backdoor write 16b block:
hf 14a raw -s -c -t 1000 CF<passwd>CD<1b block number><16b block data>
Read/Write operations work on 16 bytes, no matter the Ultralight mode.
Note that only the first four bytes of each block will be mapped in the Ultralight memory map.
Example: read block0, default pwd
hf 14a raw -s -c -t 1000 CF00000000CE00
Example: write block0 with factory data, default pwd
hf 14a raw -s -c -t 1000 CF00000000CD00112233441C000011778185BA18000000
All backdoor operations are protected by a password. If password is forgotten, the card can't be recovered. Default password is 00000000.
Change password:
hf 14a raw -s -c -t 1000 CF <passwd> FE <4b new_password>
Example: change password from 00000000 to AABBCCDD
hf 14a raw -s -c -t 1000 CF00000000FEAABBCCDD
Example: change password from AABBCCDD back to 00000000
hf 14a raw -s -c -t 1000 CFAABBCCDDFE00000000
hf 14a raw -s -c -t 1000 CF<passwd>C6
Default configuration:
00000000000002000978009102DABC191010111213141516040008004F6B
^^^^ ??
^^ cf cmd 6a: UL mode
^^^^^^ cf cmd 35: ATQA/SAK
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ cf cmd 34: ATS length & content
^^ cf cmd 32: GTU mode
^^^^^^^^ cf cmd fe: password
^^ cf cmd 68: UID length
^^ cf cmd 69: Ultralight protocol
hf 14a raw -s -c -t 1000 CF<passwd>F0<30b configuration data>
cf Dump configuration for configuration data description.
Example: Write factory configuration, using default password
hf 14a raw -s -c -t 1000 CF00000000F000000000000002000978009102DABC191010111213141516040008004F6B
⚠ Variant with command F1 instead of F0 will set and fuse permanently the configuration. Backdoor R/W will still work.
Here are some presets available in the FuseTool (but with all ATS disabled)
MIFARE Mini S20 4-byte UID
hf 14a raw -s -c -t 1000 CF00000000F000000000000002000978009102DABC19101011121314151604000900
MIFARE Mini S20 7-byte UID
hf 14a raw -s -c -t 1000 CF00000000F000010000000002000978009102DABC19101011121314151644000900
MIFARE 1k S50 4-byte UID (this is the factory setting)
hf 14a raw -s -c -t 1000 CF00000000F000000000000002000978009102DABC19101011121314151604000800
MIFARE 1k S50 7-byte UID
hf 14a raw -s -c -t 1000 CF00000000F000010000000002000978009102DABC19101011121314151644000800
MIFARE 4k S70 4-byte UID
hf 14a raw -s -c -t 1000 CF00000000F000000000000002000978009102DABC19101011121314151602001800
MIFARE 4k S70 7 byte UID
hf 14a raw -s -c -t 1000 CF00000000F000010000000002000978009102DABC19101011121314151642001800
Ultralight
hf 14a raw -s -c -t 1000 CF00000000F001010000000003000978009102DABC19101011121314151644000003
Ultralight-C
hf 14a raw -s -c -t 1000 CF00000000F001010000000003000978009102DABC19101011121314151644000002
Ultralight EV1
hf 14a raw -s -c -t 1000 CF00000000F001010000000003000978009102DABC19101011121314151644000000
NTAG21x
hf 14a raw -s -c -t 1000 CF00000000F001010000000003000978009102DABC19101011121314151644000001
Ultralight EV1 and NTAG Version info and Signature are stored respectively in blocks 250-251 and 242-249.
Example for an Ultralight EV1 128b with the signature sample from tools/recover_pk.py
hf 14a raw -s -c -t 1000 CF00000000F001010000000003000978009102DABC19101011121314151644000000
hf mfu wrbl -b 0 -d 04C12865
hf mfu wrbl -b 1 -d 5A373080
hf mfu wrbl -b 242 -d CEA2EB0B --force
hf mfu wrbl -b 243 -d 3C95D084 --force
hf mfu wrbl -b 244 -d 4A95B824 --force
hf mfu wrbl -b 245 -d A7553703 --force
hf mfu wrbl -b 246 -d B3702378 --force
hf mfu wrbl -b 247 -d 033BF098 --force
hf mfu wrbl -b 248 -d 7899DB70 --force
hf mfu wrbl -b 249 -d 151A19E7 --force
hf mfu wrbl -b 250 -d 00040301 --force
hf mfu wrbl -b 251 -d 01000E03 --force
hf mfu info
Example for an NTAG216 with the signature sample from tools/recover_pk.py
hf 14a raw -s -c -t 1000 CF00000000F001010000000003000978009102DABC19101011121314151644000001
hf mfu wrbl -b 0 -d 04E10C61
hf mfu wrbl -b 1 -d DA993C80
hf mfu wrbl -b 242 -d 8B76052E --force
hf mfu wrbl -b 243 -d E42F5567 --force
hf mfu wrbl -b 244 -d BEB53238 --force
hf mfu wrbl -b 245 -d B3E3F995 --force
hf mfu wrbl -b 246 -d 0707C0DC --force
hf mfu wrbl -b 247 -d C956B5C5 --force
hf mfu wrbl -b 248 -d EFCFDB70 --force
hf mfu wrbl -b 249 -d 9B2D82B3 --force
hf mfu wrbl -b 250 -d 00040402 --force
hf mfu wrbl -b 251 -d 01001303 --force
hf mfu info