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CIRCOM ZKP Hash Checker WORKSPACE |
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Welcome to the Remix Circom ZKP Hash Checker Workspace. |
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The workspace comprises two main directories: |
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- circuits: Contains sample Hash Checker contracts. These can be compiled to generate a witness using 'Circom ZKP Compiler' plugin. |
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- scripts: Provides a sample script designed for a trusted setup using snarkjs. This script also aids in generating Solidity code, |
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which is essential for on-chain deployment. |
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pragma circom 2.0.0; |
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include "circomlib/poseidon.circom"; |
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template CalculateHash() { |
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signal input value1; |
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signal input value2; |
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signal input value3; |
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signal input value4; |
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signal output out; |
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component poseidon = Poseidon(4); |
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poseidon.inputs[0] <== value1; |
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poseidon.inputs[1] <== value2; |
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poseidon.inputs[2] <== value3; |
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poseidon.inputs[3] <== value4; |
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out <== poseidon.out; |
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} |
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template HashChecker() { |
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signal input value1; |
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signal input value2; |
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signal input value3; |
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signal input value4; |
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signal input hash; |
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component calculateSecret = CalculateHash(); |
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calculateSecret.value1 <== value1; |
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calculateSecret.value2 <== value2; |
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calculateSecret.value3 <== value3; |
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calculateSecret.value4 <== value4; |
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signal calculatedHash; |
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calculatedHash <== calculateSecret.out; |
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assert(hash == calculatedHash); |
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} |
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component main {public [value1, value2, value3, value4]} = HashChecker(); |
@ -0,0 +1,14 @@ |
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export default async () => { |
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return { |
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// @ts-ignore
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'circuits/calculateHash.circom': (await import('raw-loader!./circuits/calculateHash.circom')).default, |
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// @ts-ignore
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'scripts/run_setup.ts': (await import('!!raw-loader!./scripts/run_setup.ts')).default, |
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// @ts-ignore
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'scripts/run_verification.ts': (await import('!!raw-loader!./scripts/run_verification.ts')).default, |
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// @ts-ignore
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'templates/groth16_verifier.sol.ejs': (await import('!!raw-loader!./templates/groth16_verifier.sol.ejs')).default, |
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// @ts-ignore
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'README.txt': (await import('raw-loader!./README.txt')).default |
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} |
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} |
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import { ethers, BigNumber } from 'ethers' |
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// eslint-disable-next-line @typescript-eslint/no-var-requires
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const snarkjs = require('snarkjs'); |
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const logger = { |
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info: (...args) => console.log(...args), |
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debug: (...args) => console.log(...args) |
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}; |
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|
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/** |
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* Creates a keccak256 hash of a message compatible with the SNARK scalar modulus. |
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* @param message The message to be hashed. |
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* @returns The message digest. |
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*/ |
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function hash(message: any): bigint { |
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message = BigNumber.from(message).toTwos(256).toHexString() |
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message = ethers.utils.zeroPad(message, 32) |
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return BigInt(ethers.utils.keccak256(message)) >> BigInt(8) |
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} |
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(async () => { |
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try { |
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// @ts-ignore
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await remix.call('circuit-compiler', 'generateR1cs', 'circuits/calculate_hash.circom'); |
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const ptau_final = "https://ipfs-cluster.ethdevops.io/ipfs/QmTiT4eiYz5KF7gQrDsgfCSTRv3wBPYJ4bRN1MmTRshpnW"; |
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// @ts-ignore
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const r1csBuffer = await remix.call('fileManager', 'readFile', 'circuits/.bin/calculate_hash.r1cs', true); |
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// @ts-ignore
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const r1cs = new Uint8Array(r1csBuffer); |
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const zkey_0 = { type: "mem" }; |
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const zkey_1 = { type: "mem" }; |
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const zkey_final = { type: "mem" }; |
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console.log('newZkey') |
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await snarkjs.zKey.newZKey(r1cs, ptau_final, zkey_0); |
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console.log('contribute') |
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await snarkjs.zKey.contribute(zkey_0, zkey_1, "p2_C1", "pa_Entropy1"); |
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console.log('beacon') |
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await snarkjs.zKey.beacon(zkey_1, zkey_final, "B3", "0102030405060708090a0b0c0d0e0f101112131415161718191a1b1c1d1e1f20", 10); |
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console.log('verifyFromR1cs') |
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const verifyFromR1csResult = await snarkjs.zKey.verifyFromR1cs(r1cs, ptau_final, zkey_final); |
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console.assert(verifyFromR1csResult); |
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console.log('verifyFromInit') |
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const verifyFromInit = await snarkjs.zKey.verifyFromInit(zkey_0, ptau_final, zkey_final); |
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console.assert(verifyFromInit); |
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console.log('exportVerificationKey') |
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const vKey = await snarkjs.zKey.exportVerificationKey(zkey_final) |
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await remix.call('fileManager', 'writeFile', './zk/build/verification_key.json', JSON.stringify(vKey)) |
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const templates = { |
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groth16: await remix.call('fileManager', 'readFile', 'templates/groth16_verifier.sol.ejs') |
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} |
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const solidityContract = await snarkjs.zKey.exportSolidityVerifier(zkey_final, templates) |
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await remix.call('fileManager', 'writeFile', './zk/build/zk_verifier.sol', solidityContract) |
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console.log('buffer', (zkey_final as any).data.length) |
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await remix.call('fileManager', 'writeFile', './zk/build/zk_setup.txt', JSON.stringify(Array.from(((zkey_final as any).data)))) |
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console.log('setup done.') |
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} catch (e) { |
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console.error(e.message) |
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} |
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})() |
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import { poseidon } from "circomlibjs" // v0.0.8
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// eslint-disable-next-line @typescript-eslint/no-var-requires
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const snarkjs = require('snarkjs'); |
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const logger = { |
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info: (...args) => console.log(...args), |
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debug: (...args) => console.log(...args), |
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error: (...args) => console.error(...args), |
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} |
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/** |
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* Creates a keccak256 hash of a message compatible with the SNARK scalar modulus. |
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* @param message The message to be hashed. |
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* @returns The message digest. |
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*/ |
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function hash(message: any): bigint { |
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message = BigNumber.from(message).toTwos(256).toHexString() |
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message = ethers.utils.zeroPad(message, 32) |
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return BigInt(ethers.utils.keccak256(message)) >> BigInt(8) |
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} |
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(async () => { |
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try { |
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// @ts-ignore
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const r1csBuffer = await remix.call('fileManager', 'readFile', 'circuits/.bin/calculate_hash.r1cs', true); |
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// @ts-ignore
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const r1cs = new Uint8Array(r1csBuffer); |
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// @ts-ignore
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const wasmBuffer = await remix.call('fileManager', 'readFile', 'circuits/.bin/calculate_hash.wasm', true); |
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// @ts-ignore
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const wasm = new Uint8Array(wasmBuffer);
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const zkey_final = { |
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type: "mem", |
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data: new Uint8Array(JSON.parse(await remix.call('fileManager', 'readFile', './zk/build/zk_setup.txt'))) |
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} |
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const wtns = { type: "mem" };
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const vKey = JSON.parse(await remix.call('fileManager', 'readFile', './zk/build/verification_key.json')) |
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const value1 = '1234' |
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const value2 = '2' |
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const value3 = '3' |
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const value4 = '4' |
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const wrongValue = '5' // put this in the poseidon hash calculation to simulate a non matching hash.
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const signals = { |
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value1, |
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value2, |
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value3, |
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value4, |
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hash: poseidon([value1, value2, value3, value4]) |
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} |
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console.log('calculate') |
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await snarkjs.wtns.calculate(signals, wasm, wtns); |
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console.log('check') |
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await snarkjs.wtns.check(r1cs, wtns, logger); |
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console.log('prove') |
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const { proof, publicSignals } = await snarkjs.groth16.prove(zkey_final, wtns); |
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const verified = await snarkjs.groth16.verify(vKey, publicSignals, proof, logger); |
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console.log('zk proof validity', verified); |
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} catch (e) { |
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console.error(e.message) |
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} |
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})() |
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// SPDX-License-Identifier: GPL-3.0 |
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/* |
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Copyright 2021 0KIMS association. |
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This file is generated with [snarkJS](https://github.com/iden3/snarkjs). |
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snarkJS is a free software: you can redistribute it and/or modify it |
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under the terms of the GNU General Public License as published by |
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the Free Software Foundation, either version 3 of the License, or |
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(at your option) any later version. |
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snarkJS is distributed in the hope that it will be useful, but WITHOUT |
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ANY WARRANTY; without even the implied warranty of MERCHANTABILITY |
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or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public |
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License for more details. |
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You should have received a copy of the GNU General Public License |
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along with snarkJS. If not, see <https://www.gnu.org/licenses/>. |
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*/ |
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pragma solidity >=0.7.0 <0.9.0; |
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contract Groth16Verifier { |
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// Scalar field size |
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uint256 constant r = 21888242871839275222246405745257275088548364400416034343698204186575808495617; |
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// Base field size |
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uint256 constant q = 21888242871839275222246405745257275088696311157297823662689037894645226208583; |
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// Verification Key data |
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uint256 constant alphax = <%= vk_alpha_1[0] %>; |
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uint256 constant alphay = <%= vk_alpha_1[1] %>; |
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uint256 constant betax1 = <%= vk_beta_2[0][1] %>; |
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uint256 constant betax2 = <%= vk_beta_2[0][0] %>; |
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uint256 constant betay1 = <%= vk_beta_2[1][1] %>; |
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uint256 constant betay2 = <%= vk_beta_2[1][0] %>; |
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uint256 constant gammax1 = <%= vk_gamma_2[0][1] %>; |
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uint256 constant gammax2 = <%= vk_gamma_2[0][0] %>; |
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uint256 constant gammay1 = <%= vk_gamma_2[1][1] %>; |
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uint256 constant gammay2 = <%= vk_gamma_2[1][0] %>; |
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uint256 constant deltax1 = <%= vk_delta_2[0][1] %>; |
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uint256 constant deltax2 = <%= vk_delta_2[0][0] %>; |
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uint256 constant deltay1 = <%= vk_delta_2[1][1] %>; |
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uint256 constant deltay2 = <%= vk_delta_2[1][0] %>; |
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<% for (let i=0; i<IC.length; i++) { %> |
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uint256 constant IC<%=i%>x = <%=IC[i][0]%>; |
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uint256 constant IC<%=i%>y = <%=IC[i][1]%>; |
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<% } %> |
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// Memory data |
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uint16 constant pVk = 0; |
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uint16 constant pPairing = 128; |
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uint16 constant pLastMem = 896; |
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function verifyProof(uint[2] calldata _pA, uint[2][2] calldata _pB, uint[2] calldata _pC, uint[<%=IC.length-1%>] calldata _pubSignals) public view returns (bool) { |
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assembly { |
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function checkField(v) { |
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if iszero(lt(v, q)) { |
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mstore(0, 0) |
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return(0, 0x20) |
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} |
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} |
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// G1 function to multiply a G1 value(x,y) to value in an address |
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function g1_mulAccC(pR, x, y, s) { |
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let success |
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let mIn := mload(0x40) |
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mstore(mIn, x) |
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mstore(add(mIn, 32), y) |
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mstore(add(mIn, 64), s) |
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success := staticcall(sub(gas(), 2000), 7, mIn, 96, mIn, 64) |
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if iszero(success) { |
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mstore(0, 0) |
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return(0, 0x20) |
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} |
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mstore(add(mIn, 64), mload(pR)) |
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mstore(add(mIn, 96), mload(add(pR, 32))) |
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success := staticcall(sub(gas(), 2000), 6, mIn, 128, pR, 64) |
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if iszero(success) { |
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mstore(0, 0) |
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return(0, 0x20) |
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} |
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} |
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function checkPairing(pA, pB, pC, pubSignals, pMem) -> isOk { |
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let _pPairing := add(pMem, pPairing) |
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let _pVk := add(pMem, pVk) |
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mstore(_pVk, IC0x) |
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mstore(add(_pVk, 32), IC0y) |
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// Compute the linear combination vk_x |
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<% for (let i = 1; i <= nPublic; i++) { %> |
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g1_mulAccC(_pVk, IC<%=i%>x, IC<%=i%>y, calldataload(add(pubSignals, <%=(i-1)*32%>))) |
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<% } %> |
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// -A |
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mstore(_pPairing, calldataload(pA)) |
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mstore(add(_pPairing, 32), mod(sub(q, calldataload(add(pA, 32))), q)) |
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// B |
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mstore(add(_pPairing, 64), calldataload(pB)) |
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mstore(add(_pPairing, 96), calldataload(add(pB, 32))) |
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mstore(add(_pPairing, 128), calldataload(add(pB, 64))) |
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mstore(add(_pPairing, 160), calldataload(add(pB, 96))) |
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// alpha1 |
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mstore(add(_pPairing, 192), alphax) |
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mstore(add(_pPairing, 224), alphay) |
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// beta2 |
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mstore(add(_pPairing, 256), betax1) |
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mstore(add(_pPairing, 288), betax2) |
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mstore(add(_pPairing, 320), betay1) |
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mstore(add(_pPairing, 352), betay2) |
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// vk_x |
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mstore(add(_pPairing, 384), mload(add(pMem, pVk))) |
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mstore(add(_pPairing, 416), mload(add(pMem, add(pVk, 32)))) |
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// gamma2 |
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mstore(add(_pPairing, 448), gammax1) |
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mstore(add(_pPairing, 480), gammax2) |
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mstore(add(_pPairing, 512), gammay1) |
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mstore(add(_pPairing, 544), gammay2) |
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// C |
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mstore(add(_pPairing, 576), calldataload(pC)) |
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mstore(add(_pPairing, 608), calldataload(add(pC, 32))) |
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// delta2 |
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mstore(add(_pPairing, 640), deltax1) |
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mstore(add(_pPairing, 672), deltax2) |
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mstore(add(_pPairing, 704), deltay1) |
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mstore(add(_pPairing, 736), deltay2) |
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let success := staticcall(sub(gas(), 2000), 8, _pPairing, 768, _pPairing, 0x20) |
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isOk := and(success, mload(_pPairing)) |
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} |
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let pMem := mload(0x40) |
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mstore(0x40, add(pMem, pLastMem)) |
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// Validate that all evaluations ∈ F |
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<% for (let i=0; i<IC.length; i++) { %> |
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checkField(calldataload(add(_pubSignals, <%=i*32%>))) |
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<% } %> |
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// Validate all evaluations |
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let isValid := checkPairing(_pA, _pB, _pC, _pubSignals, pMem) |
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mstore(0, isValid) |
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return(0, 0x20) |
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} |
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} |
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} |
Loading…
Reference in new issue