import * as rln from "@waku/rln"; rln.create().then(async rlnInstance => { const credentials = rlnInstance.generateIdentityCredentials(); //peer's index in the Merkle Tree const index = 5 // Create a Merkle tree with random members for (let i = 0; i < 10; i++) { if (i == index) { // insert the current peer's pk rlnInstance.insertMember(credentials.IDCommitment); } else { // create a new key pair const credentials = rlnInstance.generateIdentityCredentials(); // TODO: handle error rlnInstance.insertMember(credentials.IDCommitment); } } // prepare the message const uint8Msg = Uint8Array.from("Hello World".split("").map(x => x.charCodeAt())); // setting up the epoch const epoch = new Date(); console.log("Generating proof..."); console.time("proof_gen_timer"); let proof = await rlnInstance.generateRLNProof(uint8Msg, index, epoch, credentials.IDSecretHash) console.timeEnd("proof_gen_timer"); console.log("Proof", proof) try { // verify the proof let verifResult = rlnInstance.verifyRLNProof(proof, uint8Msg); console.log("Is proof verified?", verifResult ? "yes" : "no"); } catch (err) { console.log("Invalid proof") } const provider = new ethers.providers.Web3Provider( window.ethereum, "any" ); const DEFAULT_SIGNATURE_MESSAGE = "The signature of this message will be used to generate your RLN credentials. Anyone accessing it may send messages on your behalf, please only share with the RLN dApp"; const signer = provider.getSigner(); const signature = await signer.signMessage(DEFAULT_SIGNATURE_MESSAGE); console.log(`Got signature: ${signature}`); const contract = await rln.RLNContract.init(rlnInstance, {address: rln.GOERLI_CONTRACT.address, provider: signer }); const event = await contract.registerMember(rlnInstance, signature); console.log(`Registered as member with ${event}`); });