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chainsafe-bls/benchmark/index.ts

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import {runBenchmark} from "./runner";
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import {runForAllImplementations} from "../test/switch";
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import {PublicKey, Signature, SecretKey} from "../src/interface";
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import {range, randomMessage} from "../test/util";
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import {aggCount, runs} from "./params";
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(async function () {
await runForAllImplementations(async (bls, implementation) => {
// verify
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await runBenchmark<{pk: PublicKey; msg: Uint8Array; sig: Signature}, boolean>({
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id: `${implementation} verify`,
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prepareTest: () => {
const msg = randomMessage();
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const sk = bls.SecretKey.fromKeygen();
const pk = sk.toPublicKey();
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const sig = sk.sign(msg);
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return {
input: {pk, msg, sig},
resultCheck: (valid) => valid === true,
};
},
testRunner: ({pk, msg, sig}) => {
return sig.verify(pk, msg);
},
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runs,
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});
// Fast aggregate
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await runBenchmark<{pks: PublicKey[]; msg: Uint8Array; sig: Signature}, boolean>({
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id: `${implementation} verifyAggregate (${aggCount})`,
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prepareTest: () => {
const msg = randomMessage();
const dataArr = range(aggCount).map(() => {
const sk = bls.SecretKey.fromKeygen();
const pk = sk.toPublicKey();
const sig = sk.sign(msg);
return {pk, sig};
});
const pks = dataArr.map((data) => data.pk);
const sig = bls.Signature.aggregate(dataArr.map((data) => data.sig));
return {
input: {pks, msg, sig},
resultCheck: (valid) => valid === true,
};
},
testRunner: ({pks, msg, sig}) => {
return sig.verifyAggregate(pks, msg);
},
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runs,
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});
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// Verify multiple
await runBenchmark<{pks: PublicKey[]; msgs: Uint8Array[]; sig: Signature}, boolean>({
id: `${implementation} verifyMultiple (${aggCount})`,
prepareTest: () => {
const dataArr = range(aggCount).map(() => {
const sk = bls.SecretKey.fromKeygen();
const pk = sk.toPublicKey();
const msg = randomMessage();
const sig = sk.sign(msg);
return {pk, msg, sig};
});
const pks = dataArr.map((data) => data.pk);
const msgs = dataArr.map((data) => data.msg);
const sig = bls.Signature.aggregate(dataArr.map((data) => data.sig));
return {
input: {pks, msgs, sig},
resultCheck: (valid) => valid === true,
};
},
testRunner: ({pks, msgs, sig}) => {
return sig.verifyMultiple(pks, msgs);
},
runs,
});
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// Verify multiple signatures
await runBenchmark<{pks: PublicKey[]; msgs: Uint8Array[]; sigs: Signature[]}, boolean>({
id: `${implementation} verifyMultipleSignatures (${aggCount})`,
prepareTest: () => {
const dataArr = range(aggCount).map(() => {
const sk = bls.SecretKey.fromKeygen();
const pk = sk.toPublicKey();
const msg = randomMessage();
const sig = sk.sign(msg);
return {pk, msg, sig};
});
const pks = dataArr.map((data) => data.pk);
const msgs = dataArr.map((data) => data.msg);
const sigs = dataArr.map((data) => data.sig);
return {
input: {pks, msgs, sigs},
resultCheck: (valid) => valid === true,
};
},
testRunner: ({pks, msgs, sigs}) => {
return bls.Signature.verifyMultipleSignatures(pks, msgs, sigs);
},
runs,
});
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// Aggregate pubkeys
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await runBenchmark<PublicKey[], void>({
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id: `${implementation} aggregate pubkeys (${aggCount})`,
prepareTest: () => {
return {
input: range(aggCount).map(() => bls.SecretKey.fromKeygen().toPublicKey()),
};
},
testRunner: (pks) => {
bls.PublicKey.aggregate(pks);
},
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runs,
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});
// Aggregate sigs
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await runBenchmark<Signature[], void>({
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id: `${implementation} aggregate signatures (${aggCount})`,
prepareTest: () => {
const msg = randomMessage();
const sigs = range(aggCount).map(() => {
const sk = bls.SecretKey.fromKeygen();
return sk.sign(msg);
});
return {
input: sigs,
};
},
testRunner: (sigs) => {
bls.Signature.aggregate(sigs);
},
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runs,
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});
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// Sign
await runBenchmark<{sk: SecretKey; msg: Uint8Array}, void>({
id: `${implementation} sign`,
prepareTest: () => ({
input: {
sk: bls.SecretKey.fromKeygen(),
msg: randomMessage(),
},
}),
testRunner: ({sk, msg}) => {
sk.sign(msg);
},
runs,
});
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});
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})();