I am attempting a proof of concept under very constrained technological conditions. My question is: *how to efficiently subtract big integers (represented as byte arrays) in a Java Card?*.

Now, the details are what make the task tricky. I have access to one smart card. The model is *Feitian JavaCOS A22* and runs Java Card 2.2. For full detail, Java Card enables the usage of a **very** restricted subset of the Java API (**namely, no int, no char, and naturally, no BigInteger**), but it does support a series of cryptographic primitives that can be detailed on this list.

In particular, my task is to implement classic ElGamal on card. I found two relevant replies so far. In the first one, Maarten points out that ElGamal is not on the standard, and therefore the functionality would need to be implemented. In this answer, thotheolh shares a link to an **implementation of DiffieHellman in Java Card 2.2** based on the same principle: since it is not natively supported, it leverages on the functionality of RSA.

The logic is seamless: RSA, ElGamal and DiffieHellman rely on the same basic operation $a^b mod c$. Based on thotheolh's code, I have managed to achieve key generation. Encryption occurs out of the card so it is not my concern. But decryption requires a particular variant. For decryption $b=p-1-x$, where both $p$ and $x$ are BigIntegers. This is the point where I get stuck: how to calculate efficiently $p-1-x$?