var circuit = {};
var provingKey = {};
var witnessCalc = {};
const abi = JSON.parse(`[{"inputs":[{"internalType":"address","name":"_depositVerifierContractAddr","type":"address"},{"internalType":"address","name":"_withdrawVerifierContractAddr","type":"address"}],"stateMutability":"nonpayable","type":"constructor"},{"inputs":[{"internalType":"uint256","name":"_commitment","type":"uint256"},{"internalType":"uint256","name":"_root","type":"uint256"},{"internalType":"uint256[2]","name":"a","type":"uint256[2]"},{"internalType":"uint256[2][2]","name":"b","type":"uint256[2][2]"},{"internalType":"uint256[2]","name":"c","type":"uint256[2]"}],"name":"deposit","outputs":[],"stateMutability":"payable","type":"function"},{"inputs":[],"name":"getCommitments","outputs":[{"internalType":"uint256[]","name":"","type":"uint256[]"},{"internalType":"uint256","name":"","type":"uint256"},{"internalType":"uint256","name":"","type":"uint256"}],"stateMutability":"view","type":"function"},{"inputs":[{"internalType":"address payable","name":"_address","type":"address"},{"internalType":"uint256","name":"nullifier","type":"uint256"},{"internalType":"uint256[2]","name":"a","type":"uint256[2]"},{"internalType":"uint256[2][2]","name":"b","type":"uint256[2][2]"},{"internalType":"uint256[2]","name":"c","type":"uint256[2]"}],"name":"withdraw","outputs":[],"stateMutability":"nonpayable","type":"function"}]`);
const miksiAddress = "0x4cc45573481A2977fcC0b9DD9f8c710201B5a5cd";
let metamask = false;
document.getElementById("contractAddr").innerHTML=``+miksiAddress+``;
function println(...s) {
let r = "";
for (let i=0; i";
document.getElementById("logs").scrollTop = document.getElementById("logs").scrollHeight;
}
function printerr(...s) {
// println(s);
let r = "";
for (let i=0; iError: ` + r + `
`;
document.getElementById("logs").scrollTop = document.getElementById("logs").scrollHeight;
}
function loadCircuit(circuitname) {
fetch("circuits-files/"+circuitname+"-proving_key.bin").then( (response) => {
return response.arrayBuffer();
}).then( (b) => {
provingKey[circuitname] = b;
println("proving_key loaded for", circuitname);
});
fetch("circuits-files/"+circuitname+".wasm").then( (response) => {
return response.arrayBuffer();
}).then( (b) => {
witnessCalc[circuitname] = b;
console.log("w", b);
println("witnessCalc loaded for", circuitname);
});
}
async function deposit(circuitname) {
if (!metamask) {
toastr.error("Please connect Metamask by clicking on the button at the top of the page");
return;
}
if (window.ethereum.networkVersion!='5') {
toastr.warning("Please switch to Göerli");
alert("Please switch to Göerli");
return;
}
document.getElementById("depositRes").innerHTML = `
Please wait. Generating the zk-proof and making the deposit...
`;
console.log("circuit:", circuitname);
// TODO
println("generate random secret & nullifier");
const secret = miksi.randBigInt().toString();
const nullifier = miksi.randBigInt().toString();
console.log("S N", secret, nullifier);
println("get commitments from the miksi Smart Contract");
let res = await miksiContract.methods.getCommitments().call();
console.log("res", res);
const commitments = res[0];
const key = res[2];
console.log("commitments", commitments);
console.log("key", key);
// getCommitments from the tree
// calculate witness
println("rebuild the Merkle Tree & calculate witness for deposit");
console.log(witnessCalc[circuitname]);
const cw = await miksi.calcDepositWitness(witnessCalc[circuitname], secret, nullifier, commitments, key).catch((e) => {
toastr.error(e);
printerr(e);
});
const witness = cw.witness;
const publicInputs = cw.publicInputs;
console.log("w", witness);
console.log("publicInputs", publicInputs);
// generate proof
console.log(provingKey[circuitname]);
println("generate zkSNARK Groth16 proof for deposit");
const start = new Date().getTime();
const proof = await window.groth16GenProof(witness.buffer, provingKey[circuitname]);
const end = new Date().getTime();
const time = end - start;
println("circuit " + circuitname + " took " + time + "ms to compute");
console.log(proof);
console.log("proof", JSON.stringify(proof));
// send tx
const accounts = await web3.eth.getAccounts();
const sender = accounts[0];
console.log("SENDER", sender);
console.log("sc call data",
publicInputs.commitment,
publicInputs.root.toString(),
[proof.pi_a[0], proof.pi_a[1]],
[
[proof.pi_b[0][1], proof.pi_b[0][0]],
[proof.pi_b[1][1], proof.pi_b[1][0]]
],
[proof.pi_c[0], proof.pi_c[1]],
);
println("send publicInputs & zkProof to the miksi Smart Contract for the deposit");
miksiContract.methods.deposit(
publicInputs.commitment,
publicInputs.root.toString(),
[proof.pi_a[0], proof.pi_a[1]],
[
[proof.pi_b[0][1], proof.pi_b[0][0]],
[proof.pi_b[1][1], proof.pi_b[1][0]]
],
[proof.pi_c[0], proof.pi_c[1]],
).send(
{from: sender, value: 1000000000000000000},
function(error, transactionHash){
if (error!=undefined) {
console.log(error);
toastr.error(error);
printerr(JSON.stringify(error));
} else {
let link = `
https://goerli.etherscan.io/tx/`+transactionHash+``;
println(link);
}
});
// print secret & nullifier
let jw = {
secret: secret,
nullifier: nullifier,
key: key
};
console.log("jw", JSON.stringify(jw));
document.getElementById("depositRes").innerHTML = `
Please store the data above in a safe place (anyone who has it will be able to withdraw your deposited ETH from the contract).
`;
}
async function withdraw(circuitname) {
if (!metamask) {
toastr.error("Please connect Metamask by clicking on the button at the top of the page");
return;
}
if (window.ethereum.networkVersion!='5') {
toastr.warning("Please switch to Göerli");
alert("Please switch to Göerli");
return;
}
document.getElementById("withdrawRes").innerHTML = `
Please wait. Generating the zk-proof and making the withdrawal...
`;
console.log("circuit:", circuitname);
let jw;
try {
jw = JSON.parse(document.getElementById("jsonWithdraw").value);
} catch(e) {
toastr.error("Error reading secret & nullifier: " + e);
}
const secret = jw.secret;
const nullifier = jw.nullifier;
const key = jw.key;
console.log(secret, nullifier);
println("calculate commitment for the secret & nullifier");
const commitment = miksi.calcCommitment(secret, nullifier);
// getCommitments from the tree
println("get commitments from the miksi Smart Contract");
let res = await miksiContract.methods.getCommitments().call();
console.log("res", res);
const commitments = res[0];
console.log("commitments", commitments);
// calculate witness
console.log(witnessCalc[circuitname]);
const addr = document.getElementById("withdrawAddress").value;
if (addr==undefined) {
toastr.error("No withdraw address defined");
return;
}
if (!web3.utils.isAddress(addr)) {
toastr.error("Error with withdraw address");
return;
}
println("rebuild the Merkle Tree & calculate witness for withdraw");
const cw = await miksi.calcWithdrawWitness(witnessCalc[circuitname], secret, nullifier, commitments, addr, key).catch((e) => {
toastr.error(e);
printerr(e);
});
const witness = cw.witness;
const publicInputs = cw.publicInputs;
console.log("w", witness);
console.log("publicInputs", publicInputs);
// generate proof
console.log(provingKey[circuitname]);
println("generate zkSNARK Groth16 proof for withdraw");
const start = new Date().getTime();
const proof = await window.groth16GenProof(witness.buffer, provingKey[circuitname]);
const end = new Date().getTime();
const time = end - start;
println("circuit " + circuitname + " took " + time + "ms to compute");
console.log(proof);
// send tx
const accounts = await web3.eth.getAccounts();
const sender = accounts[0];
console.log("SENDER", sender);
console.log("sc call data",
publicInputs.address,
publicInputs.nullifier,
[proof.pi_a[0], proof.pi_a[1]],
[
[proof.pi_b[0][1], proof.pi_b[0][0]],
[proof.pi_b[1][1], proof.pi_b[1][0]]
],
[proof.pi_c[0], proof.pi_c[1]],
);
println("send publicInputs & zkProof to the miksi Smart Contract for the withdraw");
miksiContract.methods.withdraw(
publicInputs.address,
publicInputs.nullifier,
[proof.pi_a[0], proof.pi_a[1]],
[
[proof.pi_b[0][1], proof.pi_b[0][0]],
[proof.pi_b[1][1], proof.pi_b[1][0]]
],
[proof.pi_c[0], proof.pi_c[1]],
).send(
{from: sender},
function(error, transactionHash){
if (error!=undefined) {
console.log(error);
toastr.error(error);
printerr(JSON.stringify(error));
} else {
let link = `
https://goerli.etherscan.io/tx/`+transactionHash+``;
println(link);
document.getElementById("withdrawRes").innerHTML = 'Success :)'
}
});
}
loadCircuit("deposit");
loadCircuit("withdraw");
let miksiContract;
async function connectMetamask() {
const ethEnabled = () => {
if (window.web3) {
window.web3 = new Web3(window.web3.currentProvider);
window.ethereum.enable();
return true;
}
return false;
}
if (!ethEnabled()) {
toastr.warning("Please install Metamask to use miksi");
alert("Please install MetaMask to use miksi");
return;
} else if (window.ethereum.networkVersion!='5') {
toastr.warning("Please switch to Göerli");
alert("Please switch to Göerli");
return;
} else {
metamask = true;
}
console.log("abi", abi);
miksiContract = new web3.eth.Contract(abi, miksiAddress);
console.log("miksiContract", miksiContract);
toastr.info("Metamask connected. Miksi contract: " + miksiAddress);
println("Metamask connected. Miksi contract: ", miksiAddress);
const acc = await web3.eth.getAccounts();
const addr = acc[0];
web3.eth.getBalance(addr, function(err, res){
console.log("current address balance:", JSON.stringify(res));
});
const miksiBalance = await web3.eth.getBalance(miksiAddress);
let html = "miksi Smart Contract current balance: " + miksiBalance/1000000000000000000 + " ETH
";
let res = await miksiContract.methods.getCommitments().call();
const commitments = res[0];
const key = res[2];
html += "number of commitments: " + commitments.length + "
";
html += "current key: " + key + "
";
document.getElementById("stats").innerHTML = html;
}