import crypto from "crypto"; import * as blst from "@chainsafe/blst-ts"; import * as herumi from "../../src"; import {runBenchmark} from "./runner"; (async function () { await herumi.initBLS(); const aggCount = 30; // verify runBenchmark<{pk: blst.PublicKey; msg: Uint8Array; sig: blst.Signature}, boolean>({ id: "BLST verify", prepareTest: () => { const msg = randomMsg(); const sk = blst.SecretKey.fromKeygen(crypto.randomBytes(32)); const pk = sk.toPublicKey(); const sig = sk.sign(msg); return { input: {pk, msg, sig}, resultCheck: (valid) => valid === true, }; }, testRunner: ({pk, msg, sig}) => { return blst.verify(msg, pk, sig); }, }); runBenchmark<{pk: herumi.PublicKey; msg: Uint8Array; sig: herumi.Signature}, boolean>({ id: "HERUMI verify", prepareTest: () => { const msg = randomMsg(); const keypair = herumi.generateKeyPair(); const pk = keypair.publicKey; const sig = keypair.privateKey.signMessage(msg); return { input: {pk, msg, sig}, resultCheck: (valid) => valid === true, }; }, testRunner: ({pk, msg, sig}) => { return pk.verifyMessage(sig, msg); }, }); // Fast aggregate runBenchmark<{pks: blst.PublicKey[]; msg: Uint8Array; sig: blst.Signature}, boolean>({ id: "BLST fastAggregateVerify", prepareTest: () => { const msg = randomMsg(); const dataArr = range(aggCount).map(() => { const sk = blst.SecretKey.fromKeygen(crypto.randomBytes(32)); const pk = sk.toPublicKey(); const sig = sk.sign(msg); return {pk, sig}; }); const pks = dataArr.map((data) => data.pk); const aggSig = blst.AggregateSignature.fromSignatures(dataArr.map((data) => data.sig)); const sig = aggSig.toSignature(); return { input: {pks, msg, sig}, resultCheck: (valid) => valid === true, }; }, testRunner: ({pks, msg, sig}) => { return blst.fastAggregateVerify(msg, pks, sig); }, }); runBenchmark<{pks: herumi.PublicKey[]; msg: Uint8Array; sig: herumi.Signature}, boolean>({ id: "HERUMI fastAggregateVerify", prepareTest: () => { const msg = randomMsg(); const dataArr = range(aggCount).map(() => { const keypair = herumi.generateKeyPair(); const pk = keypair.publicKey; const sig = keypair.privateKey.signMessage(msg); return {pk, sig}; }); const pks = dataArr.map((data) => data.pk); const sig = herumi.Signature.aggregate(dataArr.map((data) => data.sig)); return { input: {pks, msg, sig}, resultCheck: (valid) => valid === true, }; }, testRunner: ({pks, msg, sig}) => { return sig.verifyAggregate(pks, msg); }, }); // Aggregate sigs runBenchmark({ id: `BLST aggregatePubkeys (${aggCount})`, prepareTest: () => { return { input: range(aggCount).map(() => blst.SecretKey.fromKeygen(crypto.randomBytes(32)).toPublicKey()), }; }, testRunner: (pks) => { blst.AggregatePublicKey.fromPublicKeys(pks); }, }); runBenchmark({ id: `HERUMI aggregatePubkeys (${aggCount})`, prepareTest: () => { return { input: range(aggCount).map(() => herumi.generateKeyPair().publicKey), }; }, testRunner: (pks) => { pks.reduce((agg, pk) => agg.add(pk)); }, }); })(); function range(n: number): number[] { const nums: number[] = []; for (let i = 0; i < n; i++) nums.push(i); return nums; } function randomMsg(): Uint8Array { return Uint8Array.from(crypto.randomBytes(32)); }