I have researched Mifare and other card emulation I have very good knowledge in programming (not Android, but C/C++). I have proxmark and I have made multiple emulation codes for proxmark, so I know how the cards communicate.

I don't understand currently, does android enable full card emulation. I have researched this for about 3 days now, and the conclusion is there is no one constant pattern. Some people say it is possible, some say it is not. I looked through android API and the Host-based card emulation seems to be able to do the trick, but as I understand it is new thing in 4.4 Kitkat, does anyone have any experience with that?

To make things simple, currently I'm investigating the basic most simple emulation for Mifare Ultralight. This card is a security nightmare, there is no encryption and only about 10 functions it does. So I'm interested in starting research with this card, because it is the easiest one to reproduce.

So does anyone have any knowledge in card emulation on android. Maybe not using the stock OS. Any thing that is worth knowing would be very appreciated.


  • I think at this moment it is hard to find somebody, currently there is the Android 4.4 update not yet rolled out for all the nexus devices.
    – rekire
    Nov 18 '13 at 18:54
  • Ok, if I'm asking does theoretically the Host-based card emulation should do the trick, for me it seems that that should, but I have no experience in android. What I wan't to know is can a UID and content be simulated? Nov 18 '13 at 19:07
  • I have also problems to understand how nfc works internally in Android, especially alternative NDEF records. However did you read the documentation?
    – rekire
    Nov 18 '13 at 19:16
  • Yea, I read that, but as I sad I have very little experience in android. So I can look at it as theory. The documentation states that the UID should be assumed as random. But for Mifare UL page 0-3 stores the UID, so is the UID random for anticollision only, or are the page 0-3 static too? Because readers usually don't extract UID from anticollision but read them directly, Nov 18 '13 at 19:24

With host-based card emulation (HCE) in Android 4.4 you can only emulate the ISO/IEC 14443-4 protocol. More specifically you can only emulate application structures according to ISO/IEC 7816-4 (thus card emulation applications need to be selected though an AID). Moreover, the API doesn't give you any means to specify if card emulation should be done using Type A or Type B protocol.

So regarding emulation of various MIFARE protocols:

  • MIFARE Ultralight (and derivates) protocol operates on top of ISO/IEC 14443-3. It is not possible to emulate cards using such low layer protocols using Android HCE.
  • MIFARE Classic protocol partially operates on top of ISO/IEC 14443-3 (with some different framing). Thus, its also not possible to emulate MIFARE Classic using Android HCE.
  • MIFARE DESFire protocols operate on top of ISO/IEC 14443-4. There are three variants of the DESFire protocol:

    1. native protocol: As this protocol does not use APDUs according to ISO/IEC 7816-4 its not possible to emulate it using Android HCE.
    2. wrapped native protocol: This protocol uses APDUs according to ISO/IEC 7816-4, however, readers will typically not issue a SELECT command using the DESFire AID when starting to communicate with a card in wrapped native command mode. (Note: Newer reader implementations are more likely to issue a SELECT command that is compatible with Android HCE as this is also required for some of NXP's newer smartcard products with DESFire protocol emulation.)
    3. ISO protocol: This protocol is based on ISO/IEC 7816-4 and uses application selection by AID. Thus, it may be possible to emulate this protocol using Android HCE.

    Some readers may require certain parameter values in lower protocol layers (such as a specific UID cascade-level, a certain ATQA value, a certain SAK value, or a certain ATS). Android HCE does not have any means to set these values. See Editing Functionality of Host Card Emulation in Android for a possible approach to modify those values on certain rooted devices and my answer to Host-based Card Emulation with Fixed Card ID for a strategy to programatically change those values in a custom ROM.

A note on the HCE feature available in CyanogenMod from version 9.1 to version 10.2: This will emulate any ISO/IEC 14443-4 based protocol without the requirement for an application structure according to ISO/IEC 7816-4. You can even choose if you want to emulate Type A or Type B protocol. So it should be possible (though I haven't tested) to emulate any of the three DESFire protocols. However, even with the HCE feature of CyanogenMod it is not possible to emulate MIFARE Ultralight or Classic protocols. Moreover, it's also not possible to influence low-level protocol parameters such as a UID, ATQA, SAK, or ATS.

  • Do you know if MIFARE DESFire EV1 or DESFIRE SAM are also supported?
    – lujop
    Mar 14 '14 at 23:09
  • 1
    The answer about DESFire also applies to DESFire EV1. I have no information about DESFire SAM, but emulating a SAM would not make much sense in my opinion because the whole point of using a SAM is the security of the dedicated hardware module. Mar 16 '14 at 19:44
  • 2
    Can you post your source about the HCE feature in CyanogenMod?
    – Greeny
    Mar 11 '15 at 7:58
  • Hi, good answer! So we can use default / standard HCE from Android code to emulate a Mifare Ultralight card on smartphone? Nov 18 '16 at 9:41
  • 2
    @MarcoSanfilippo Did you read the answer? Specifically these two sentences: "MIFARE Ultralight (and derivates) protocol operates on top of ISO/IEC 14443-3. It is not possible to emulate cards using such low layer protocols using Android HCE." Nov 18 '16 at 14:53

I have spent weeks researching this topic a year ago and my conclusion based on the current implementation was: The emulation of MIFARE Classic is possible, but only through the Embedded Secure Element, this element is embedded within NXP's NFC chip (PN65 chip built in for example the Samsung I9300).

I have been able to fully emulate a Mifare Classic card using hidden functions in the android_external_libnfc-nxp library. Though i could only read the card and for it to be useful you need access to the Secure Element where a applet by NXP exists in most cases, this applet servers as front-end for managing the emulated cards.

A good way to continue this search would be by reverse engineering Google's wallet application.


The short answer is YES. However depends on many factors such as android version, phone's NFC chip, etc.

To know if your device support it just download some app such as "NFC Check" by Tapkey, and it will inform you if MiFare Classic & Mifare Ultralight are supported. There is also a list up-to-date but apparently there might be some mismatch: https://www.shopnfc.com/en/content/7-nfc-compatibility

Now the question is "how". I have not found an app yet to use the new Android's host-based card emulation (HCE) for this purpose (see here): How well does the Android NFC API support Mifare Desfire?

In fact it is suggested recently by MiFare that you should use the "secure element" method instead: https://www.mifare.net/support/forum/topic/emulate-mifare-classic-1k/

Back to your question of the Ultralight, the main difficulty is that Android API defines as-today sending a random UID on each tap, as suggested by a previous user nCypher: https://developer.android.com/guide/topics/connectivity/nfc/hce

As an alternative root access (or custom cyanogen ROMs) might help to modify the UID such as in this example: http://osgt7405i.bkt.clouddn.com/help/en/index.html?t=1536931682474

However the newest Android API refers directly to the Ultralight object: https://developer.android.com/reference/android/nfc/tech/MifareUltralight

I know some companies that are emulating this by the SIM storage. For using your phone as RFID card of these MIFARE types, MiFare has already made one solution where business can load cards in the cloud https://www.mifare4mobile.org/ associated to their carrier SIM. There is a list of the officially certified NFC chips which work, most of them NPX which are broadly included in smartphones.

However their solution is an SDK API (namely TapLinx). There is no pure software product from NXP available like any phone emulation software or a cloud base solution.

What's more, the MiFare forum speaks about this: https://www.mifare.net/support/forum/topic/creating-nfc-android-app-to-act-as-mifare-card-to-interact-with-mifare-readers/


The MIFARE Ultralight chip MF0ICU1 (16 pages x 4 bytes each) is indeed a nightmare, but cannot be emulated on any NXP interfaces including PN53x, because they hardwired the first UID byte (UID0) to 0x08, so it means the tag has a random UID (according to NXP standards). You need UID0 = 0x04 to emulate MIFARE Ultralight.

There exists a standalone MIFARE Ultralight emulator which allows any value for UID0, has resettable OTP, lock, and block-locking bits. See the manual for more information.

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