TypeScript implementation of the ERC-7524 PLUME signature scheme.
A new type of cryptographic signature that would allow for anonymous and unique digital identities on the Ethereum blockchain in a verifiable way.
npm install plume-sig
import { computeAllInputs, PlumeVersion } from 'plume-sig';
return computeAllInputs(message, secretKey);
The function returns the signature w.r.t. to given arguments as the object of the following structure.
secp256k1
point
secp256k1
scalar hexstring
Public key of the signer; SEC1 encoded.
SHA-256 hash. It's value depends on PlumeVersion
of the signature.
secp256k1
point representing the unique random scalar used for signing. V1 specific.
secp256k1
point. V1 specific.
The scheme comes in two variants. V2 is default for this implementation.
In a situation where there is a verifier who must not know the signer's pk
, but the signer must nevertheless prove that they know secretKey
corresponding to the signature given message
, a zero-knowledge proof is required.
The following verification function may be described via a circuit as part of a non-interactive zero-knowledge proving system, such as Groth16. To create a proof, the prover supplies the following inputs:
Currently, SHA-256 hashing operations are particularly expensive with zk proofs in the browser. In the context of PLUME, the computation of $c$ is a bottleneck for efficient proof times, so one modification suggested by the Poseidon team was to move this hash computation outside the circuit, into the verifier.
Due to SHA-256 being a native precompile on Ethereum, this operation will still be efficient for smart contract verifiers.
MIT