RLN: update README (#27)

* refactor(rln): update readme

* fix(rln): update README in light of https://github.com/vacp2p/zerokit/pull/30
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# RLN wrapper
# Zerokit RLN Module
`cargo run` should produce a verified proof:
This module provides APIs to manage, compute and verify [RLN](https://rfc.vac.dev/spec/32/) zkSNARK proofs and RLN primitives.
```
Proof: Proof { a: GroupAffine { x: Fp256(BigInteger256([8483808811394525823, 2911623124993487936, 965710634470565595, 371243954766865014])), y: Fp256(BigInteger256([705817196479998808, 17904136250720012753, 4190084222192764444, 7218570197435348])), infinity: false }, b: GroupAffine { x: QuadExtField { c0: Fp256(BigInteger256([5458988222411652552, 17182308780189183250, 14791331698105531271, 721079937701984589])), c1: Fp256(BigInteger256([7448529038603485276, 13923597709209930, 3309560575781216904, 880478657337970720])) }, y: QuadExtField { c0: Fp256(BigInteger256([15528177727577722078, 5558129266105870459, 2736358139645020298, 1495034096047214880])), c1: Fp256(BigInteger256([17682510405762186416, 10008291815399475705, 8906017124801037485, 3406569241364819001])) }, infinity: false }, c: GroupAffine { x: Fp256(BigInteger256([15442965511095371475, 16233723700799040245, 2033693936526019359, 1940755394980495809])), y: Fp256(BigInteger256([9607769396956991597, 16531786910336973521, 16312419257791650835, 838503992599180484])), infinity: false } }
```
Currently, this module comes with three [pre-compiled](https://github.com/vacp2p/zerokit/tree/master/rln/resources) RLN circuits having Merkle tree of height `15`, `19` and `20`, respectively.
## Example witness data
Implemented tests can be executed by running within the module folder
See:
https://github.com/oskarth/zk-kit/commit/b6a872f7160c7c14e10a0ea40acab99cbb23c9a8
`cargo test --release`
## Compiling circuits
@ -26,7 +23,21 @@ cd vendor/rln/ && npm install
./scripts/build-circuits.sh rln
# Copy over assets
cp build/rln.r1cs ../../resources
cp build/zkeyFiles/rln-final.zkey ../../resources
cp build/zkeyFiles/rln.wasm ../../resources
cp build/zkeyFiles/rln-final.zkey ../../resources/tree_height_15
cp build/zkeyFiles/rln.wasm ../../resources/tree_height_15
```
Note that the above code snippet will compile a RLN circuit with a Merkle tree of height equal `15` based on the default value set in `rln/circuit/rln.circom`.
To compile a RLN circuit with Merkle tree height `N`, it suffices to change `rln/circuit/rln.circom` to
```
pragma circom 2.0.0;
include "./rln-base.circom";
component main {public [x, epoch, rln_identifier ]} = RLN(N);
```
However, if `N` is too big, this might require a bigger Powers of Tau ceremony than the one hardcoded in `./scripts/build-circuits.sh`, which is `2^14`.
In such case we refer to the official [Circom documentation](https://docs.circom.io/getting-started/proving-circuits/#powers-of-tau) for instructions on how to run an appropriate Powers of Tau ceremony and Phase 2 in order to compile the desired circuit.