# Constantine # Copyright (c) 2018-2019 Status Research & Development GmbH # Copyright (c) 2020-Present Mamy André-Ratsimbazafy # Licensed and distributed under either of # * MIT license (license terms in the root directory or at http://opensource.org/licenses/MIT). # * Apache v2 license (license terms in the root directory or at http://www.apache.org/licenses/LICENSE-2.0). # at your option. This file may not be copied, modified, or distributed except according to those terms. import # Internals ../constantine/[ ethereum_bls_signatures, ethereum_eip2333_bls12381_key_derivation], ../constantine/math/arithmetic, # Helpers ../helpers/prng_unsafe, ./bench_blueprint proc separator*() = separator(167) proc report(op, curve: string, startTime, stopTime: MonoTime, startClk, stopClk: int64, iters: int) = let ns = inNanoseconds((stopTime-startTime) div iters) let throughput = 1e9 / float64(ns) when SupportsGetTicks: echo &"{op:<75} {curve:<15} {throughput:>15.3f} ops/s {ns:>9} ns/op {(stopClk - startClk) div iters:>9} CPU cycles (approx)" else: echo &"{op:<75} {curve:<15} {throughput:>15.3f} ops/s {ns:>9} ns/op" template bench(op: string, curve: string, iters: int, body: untyped): untyped = measure(iters, startTime, stopTime, startClk, stopClk, body) report(op, curve, startTime, stopTime, startClk, stopClk, iters) proc demoKeyGen(): tuple[seckey: SecretKey, pubkey: PublicKey] = # Don't do this at home, this is for benchmarking purposes # The RNG is NOT cryptographically secure # The API for keygen is not ready in ethereum_bls_signatures let ikm = rng.random_byte_seq(32) doAssert cast[ptr BigInt[255]](result.seckey.addr)[].derive_master_secretKey(ikm) let ok = result.pubkey.derive_pubkey(result.seckey) doAssert ok == cttBLS_Success proc benchDeserPubkey*(iters: int) = let (sk, pk) = demoKeyGen() var pk_comp{.noInit.}: array[48, byte] # Serialize compressed let ok = pk_comp.serialize_pubkey_compressed(pk) doAssert ok == cttBLS_Success var pk2{.noInit.}: PublicKey bench("Pubkey deserialization (full checks)", "BLS12_381 G1", iters): let status = pk2.deserialize_pubkey_compressed(pk_comp) proc benchDeserPubkeyUnchecked*(iters: int) = let (sk, pk) = demoKeyGen() var pk_comp{.noInit.}: array[48, byte] # Serialize compressed let ok = pk_comp.serialize_pubkey_compressed(pk) doAssert ok == cttBLS_Success var pk2{.noInit.}: PublicKey bench("Pubkey deserialization (skip checks)", "BLS12_381 G1", iters): let status = pk2.deserialize_pubkey_compressed_unchecked(pk_comp) proc benchDeserSig*(iters: int) = let (sk, pk) = demoKeyGen() const msg = "abcdef0123456789" var sig_comp{.noInit.}: array[96, byte] sig {.noInit.}: Signature let status = sig.sign(sk, msg) doAssert status == cttBLS_Success # Serialize compressed let ok = sig_comp.serialize_signature_compressed(sig) doAssert ok == cttBLS_Success var sig2{.noInit.}: Signature bench("Signature deserialization (full checks)", "BLS12_381 G2", iters): let status = sig2.deserialize_signature_compressed(sig_comp) proc benchDeserSigUnchecked*(iters: int) = let (sk, pk) = demoKeyGen() const msg = "abcdef0123456789" var sig_comp{.noInit.}: array[96, byte] sig {.noInit.}: Signature let status = sig.sign(sk, msg) doAssert status == cttBLS_Success # Serialize compressed let ok = sig_comp.serialize_signature_compressed(sig) doAssert ok == cttBLS_Success var sig2{.noInit.}: Signature bench("Signature deserialization (skip checks)", "BLS12_381 G2", iters): let status = sig2.deserialize_signature_compressed_unchecked(sig_comp) proc benchSign*(iters: int) = let (sk, pk) = demoKeyGen() let msg = "Mr F was here" var sig: Signature bench("BLS signature", "BLS12_381 G2", iters): let status = sig.sign(sk, msg) proc benchVerify*(iters: int) = let (sk, pk) = demoKeyGen() let msg = "Mr F was here" var sig: Signature let ok = sig.sign(sk, msg) doAssert ok == cttBLS_Success bench("BLS verification", "BLS12_381", iters): let valid = pk.verify(msg, sig) proc benchFastAggregateVerify*(numKeys, iters: int) = ## Verification of N pubkeys signing 1 message let msg = "Mr F was here" var validators = newSeq[PublicKey](numKeys) var sigs = newSeq[Signature](numKeys) var aggSig: Signature for i in 0 ..< numKeys: let (sk, pk) = demoKeyGen() validators[i] = pk let status = sigs[i].sign(sk, msg) doAssert status == cttBLS_Success aggSig.aggregate_signatures_unstable_api(sigs) bench("BLS agg verif of 1 msg by " & $numKeys & " pubkeys", "BLS12_381", iters): let valid = validators.fast_aggregate_verify(msg, aggSig) proc benchVerifyMulti*(numSigs, iters: int) = ## Verification of N pubkeys signing for N messages var triplets: seq[tuple[pubkey: PublicKey, msg: array[32, byte], sig: Signature]] var hashedMsg: array[32, byte] var sig: Signature for i in 0 ..< numSigs: let (sk, pk) = demoKeyGen() sha256.hash(hashedMsg, "msg" & $i) let status = sig.sign(sk, hashedMsg) doAssert status == cttBLS_Success triplets.add (pk, hashedMsg, sig) bench("BLS verif of " & $numSigs & " msgs by "& $numSigs & " pubkeys", "BLS12_381", iters): for i in 0 ..< triplets.len: let ok = triplets[i].pubkey.verify(triplets[i].msg, triplets[i].sig) doAssert ok == cttBLS_Success proc benchVerifyBatched*(numSigs, iters: int) = ## Verification of N pubkeys signing for N messages var pubkeys: seq[PublicKey] messages: seq[array[32, byte]] signatures: seq[Signature] var hashedMsg: array[32, byte] var sig: Signature for i in 0 ..< numSigs: let (sk, pk) = demoKeyGen() sha256.hash(hashedMsg, "msg" & $i) let status = sig.sign(sk, hashedMsg) doAssert status == cttBLS_Success pubkeys.add pk messages.add hashedMsg signatures.add sig let secureBlindingBytes = sha256.hash("Mr F was here") bench("BLS serial batch verify of " & $numSigs & " msgs by "& $numSigs & " pubkeys (with blinding)", "BLS12_381", iters): let ok = batch_verify(pubkeys, messages, signatures, secureBlindingBytes) doAssert ok == cttBLS_Success const Iters = 1000 proc main() = separator() benchDeserPubkey(Iters) benchDeserPubkeyUnchecked(Iters) benchDeserSig(Iters) benchDeserSigUnchecked(Iters) separator() benchSign(Iters) benchVerify(Iters) separator() benchFastAggregateVerify(numKeys = 128, iters = 10) separator() # Simulate Block verification (at most 6 signatures per block) benchVerifyMulti(numSigs = 6, iters = 10) benchVerifyBatched(numSigs = 6, iters = 10) separator() # Simulate 10 blocks verification benchVerifyMulti(numSigs = 60, iters = 10) benchVerifyBatched(numSigs = 60, iters = 10) separator() # Simulate 30 blocks verification benchVerifyMulti(numSigs = 180, iters = 10) benchVerifyBatched(numSigs = 180, iters = 10) separator() main() notes()