lbrycrd/src/bench/crypto_hash.cpp

// Copyright (c) 2016-2017 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.

#include <iostream>

#include <bench/bench.h>
#include <bloom.h>
#include <hash.h>
#include <random.h>
#include <uint256.h>
#include <utiltime.h>
#include <crypto/ripemd160.h>
#include <crypto/sha1.h>
#include <crypto/sha256.h>
#include <crypto/sha512.h>

/* Number of bytes to hash per iteration */
static const uint64_t BUFFER_SIZE = 1000*1000;

static void RIPEMD160(benchmark::State& state)
{
    uint8_t hash[CRIPEMD160::OUTPUT_SIZE];
    std::vector<uint8_t> in(BUFFER_SIZE,0);
    while (state.KeepRunning())
        CRIPEMD160().Write(in.data(), in.size()).Finalize(hash);
}

static void SHA1(benchmark::State& state)
{
    uint8_t hash[CSHA1::OUTPUT_SIZE];
    std::vector<uint8_t> in(BUFFER_SIZE,0);
    while (state.KeepRunning())
        CSHA1().Write(in.data(), in.size()).Finalize(hash);
}

static void SHA256(benchmark::State& state)
{
    uint8_t hash[CSHA256::OUTPUT_SIZE];
    std::vector<uint8_t> in(BUFFER_SIZE,0);
    while (state.KeepRunning())
        CSHA256().Write(in.data(), in.size()).Finalize(hash);
}

static void SHA256_32b(benchmark::State& state)
{
    std::vector<uint8_t> in(32,0);
    while (state.KeepRunning()) {
        CSHA256()
            .Write(in.data(), in.size())
            .Finalize(in.data());
    }
}

static void SHA512(benchmark::State& state)
{
    uint8_t hash[CSHA512::OUTPUT_SIZE];
    std::vector<uint8_t> in(BUFFER_SIZE,0);
    while (state.KeepRunning())
        CSHA512().Write(in.data(), in.size()).Finalize(hash);
}

static void SipHash_32b(benchmark::State& state)
{
    uint256 x;
    uint64_t k1 = 0;
    while (state.KeepRunning()) {
        *((uint64_t*)x.begin()) = SipHashUint256(0, ++k1, x);
    }
}

static void FastRandom_32bit(benchmark::State& state)
{
    FastRandomContext rng(true);
    uint32_t x = 0;
    while (state.KeepRunning()) {
        x += rng.rand32();
    }
}

static void FastRandom_1bit(benchmark::State& state)
{
    FastRandomContext rng(true);
    uint32_t x = 0;
    while (state.KeepRunning()) {
        x += rng.randbool();
    }
}

BENCHMARK(RIPEMD160, 440);
BENCHMARK(SHA1, 570);
BENCHMARK(SHA256, 340);
BENCHMARK(SHA512, 330);

BENCHMARK(SHA256_32b, 4700 * 1000);
BENCHMARK(SipHash_32b, 40 * 1000 * 1000);
BENCHMARK(FastRandom_32bit, 110 * 1000 * 1000);
BENCHMARK(FastRandom_1bit, 440 * 1000 * 1000);
Increment MIT Licence copyright header year on files modified in 2017 2018-01-02 18:12:05 +01:00			`// Copyright (c) 2016-2017 The Bitcoin Core developers`
bench: Add crypto hash benchmarks Add benchmarks for the cryptographic hash algorithms: - RIPEMD160 - SHA1 - SHA256 - SHA512 Continues work on #7883. 2016-05-10 18:19:03 +02:00			`// Distributed under the MIT software license, see the accompanying`
			`// file COPYING or http://www.opensource.org/licenses/mit-license.php.`

			`#include <iostream>`

scripted-diff: Replace #include "" with #include <> (ryanofsky) -BEGIN VERIFY SCRIPT- for f in \ src/.cpp \ src/.h \ src/bench/.cpp \ src/bench/.h \ src/compat/.cpp \ src/compat/.h \ src/consensus/.cpp \ src/consensus/.h \ src/crypto/.cpp \ src/crypto/.h \ src/crypto/ctaes/.h \ src/policy/.cpp \ src/policy/.h \ src/primitives/.cpp \ src/primitives/.h \ src/qt/.cpp \ src/qt/.h \ src/qt/test/.cpp \ src/qt/test/.h \ src/rpc/.cpp \ src/rpc/.h \ src/script/.cpp \ src/script/.h \ src/support/.cpp \ src/support/.h \ src/support/allocators/.h \ src/test/.cpp \ src/test/.h \ src/wallet/.cpp \ src/wallet/.h \ src/wallet/test/.cpp \ src/wallet/test/.h \ src/zmq/.cpp \ src/zmq/.h do base=${f%/}/ relbase=${base#src/} sed -i "s:#include \"\(.\)\"\(.*\):if test -e \$base'\\1'; then echo \"#include <\"\$relbase\"\\1>\\2\"; else echo \"#include <\\1>\\2\"; fi:e" $f done -END VERIFY SCRIPT- 2017-11-10 01:57:53 +01:00			`#include <bench/bench.h>`
			`#include <bloom.h>`
			`#include <hash.h>`
			`#include <random.h>`
			`#include <uint256.h>`
			`#include <utiltime.h>`
			`#include <crypto/ripemd160.h>`
			`#include <crypto/sha1.h>`
			`#include <crypto/sha256.h>`
			`#include <crypto/sha512.h>`
bench: Add crypto hash benchmarks Add benchmarks for the cryptographic hash algorithms: - RIPEMD160 - SHA1 - SHA256 - SHA512 Continues work on #7883. 2016-05-10 18:19:03 +02:00
			`/* Number of bytes to hash per iteration */`
			`static const uint64_t BUFFER_SIZE = 1000*1000;`

			`static void RIPEMD160(benchmark::State& state)`
			`{`
			`uint8_t hash[CRIPEMD160::OUTPUT_SIZE];`
			`std::vector<uint8_t> in(BUFFER_SIZE,0);`
			`while (state.KeepRunning())`
Refactor: Removed begin/end_ptr functions. 2016-12-09 04:01:37 +01:00			`CRIPEMD160().Write(in.data(), in.size()).Finalize(hash);`
bench: Add crypto hash benchmarks Add benchmarks for the cryptographic hash algorithms: - RIPEMD160 - SHA1 - SHA256 - SHA512 Continues work on #7883. 2016-05-10 18:19:03 +02:00			`}`

			`static void SHA1(benchmark::State& state)`
			`{`
			`uint8_t hash[CSHA1::OUTPUT_SIZE];`
			`std::vector<uint8_t> in(BUFFER_SIZE,0);`
			`while (state.KeepRunning())`
Refactor: Removed begin/end_ptr functions. 2016-12-09 04:01:37 +01:00			`CSHA1().Write(in.data(), in.size()).Finalize(hash);`
bench: Add crypto hash benchmarks Add benchmarks for the cryptographic hash algorithms: - RIPEMD160 - SHA1 - SHA256 - SHA512 Continues work on #7883. 2016-05-10 18:19:03 +02:00			`}`

			`static void SHA256(benchmark::State& state)`
			`{`
			`uint8_t hash[CSHA256::OUTPUT_SIZE];`
			`std::vector<uint8_t> in(BUFFER_SIZE,0);`
			`while (state.KeepRunning())`
Refactor: Removed begin/end_ptr functions. 2016-12-09 04:01:37 +01:00			`CSHA256().Write(in.data(), in.size()).Finalize(hash);`
bench: Add crypto hash benchmarks Add benchmarks for the cryptographic hash algorithms: - RIPEMD160 - SHA1 - SHA256 - SHA512 Continues work on #7883. 2016-05-10 18:19:03 +02:00			`}`

Benchmark SipHash 2016-05-27 13:30:08 +02:00			`static void SHA256_32b(benchmark::State& state)`
			`{`
			`std::vector<uint8_t> in(32,0);`
			`while (state.KeepRunning()) {`
Improved microbenchmarking with multiple features. * inline performance critical code * Average runtime is specified and used to calculate iterations. * Console: show median of multiple runs * plot: show box plot * filter benchmarks * specify scaling factor * ignore src/test and src/bench in command line check script * number of iterations instead of time * Replaced runtime in BENCHMARK makro number of iterations. * Added -? to bench_bitcoin * Benchmark plotly.js URL, width, height can be customized * Fixed incorrect precision warning 2017-10-17 16:48:02 +02:00			`CSHA256()`
			`.Write(in.data(), in.size())`
			`.Finalize(in.data());`
Benchmark SipHash 2016-05-27 13:30:08 +02:00			`}`
			`}`

bench: Add crypto hash benchmarks Add benchmarks for the cryptographic hash algorithms: - RIPEMD160 - SHA1 - SHA256 - SHA512 Continues work on #7883. 2016-05-10 18:19:03 +02:00			`static void SHA512(benchmark::State& state)`
			`{`
			`uint8_t hash[CSHA512::OUTPUT_SIZE];`
			`std::vector<uint8_t> in(BUFFER_SIZE,0);`
			`while (state.KeepRunning())`
Refactor: Removed begin/end_ptr functions. 2016-12-09 04:01:37 +01:00			`CSHA512().Write(in.data(), in.size()).Finalize(hash);`
bench: Add crypto hash benchmarks Add benchmarks for the cryptographic hash algorithms: - RIPEMD160 - SHA1 - SHA256 - SHA512 Continues work on #7883. 2016-05-10 18:19:03 +02:00			`}`

Benchmark SipHash 2016-05-27 13:30:08 +02:00			`static void SipHash_32b(benchmark::State& state)`
			`{`
			`uint256 x;`
Improved microbenchmarking with multiple features. * inline performance critical code * Average runtime is specified and used to calculate iterations. * Console: show median of multiple runs * plot: show box plot * filter benchmarks * specify scaling factor * ignore src/test and src/bench in command line check script * number of iterations instead of time * Replaced runtime in BENCHMARK makro number of iterations. * Added -? to bench_bitcoin * Benchmark plotly.js URL, width, height can be customized * Fixed incorrect precision warning 2017-10-17 16:48:02 +02:00			`uint64_t k1 = 0;`
Benchmark SipHash 2016-05-27 13:30:08 +02:00			`while (state.KeepRunning()) {`
Improved microbenchmarking with multiple features. * inline performance critical code * Average runtime is specified and used to calculate iterations. * Console: show median of multiple runs * plot: show box plot * filter benchmarks * specify scaling factor * ignore src/test and src/bench in command line check script * number of iterations instead of time * Replaced runtime in BENCHMARK makro number of iterations. * Added -? to bench_bitcoin * Benchmark plotly.js URL, width, height can be customized * Fixed incorrect precision warning 2017-10-17 16:48:02 +02:00			`((uint64_t)x.begin()) = SipHashUint256(0, ++k1, x);`
Benchmark SipHash 2016-05-27 13:30:08 +02:00			`}`
			`}`

FastRandom benchmark 2017-02-16 02:56:54 +01:00			`static void FastRandom_32bit(benchmark::State& state)`
			`{`
			`FastRandomContext rng(true);`
Prevent warning: variable 'x' is uninitialized 2017-04-25 08:47:58 +02:00			`uint32_t x = 0;`
FastRandom benchmark 2017-02-16 02:56:54 +01:00			`while (state.KeepRunning()) {`
Improved microbenchmarking with multiple features. * inline performance critical code * Average runtime is specified and used to calculate iterations. * Console: show median of multiple runs * plot: show box plot * filter benchmarks * specify scaling factor * ignore src/test and src/bench in command line check script * number of iterations instead of time * Replaced runtime in BENCHMARK makro number of iterations. * Added -? to bench_bitcoin * Benchmark plotly.js URL, width, height can be customized * Fixed incorrect precision warning 2017-10-17 16:48:02 +02:00			`x += rng.rand32();`
FastRandom benchmark 2017-02-16 02:56:54 +01:00			`}`
			`}`

			`static void FastRandom_1bit(benchmark::State& state)`
			`{`
			`FastRandomContext rng(true);`
Prevent warning: variable 'x' is uninitialized 2017-04-25 08:47:58 +02:00			`uint32_t x = 0;`
FastRandom benchmark 2017-02-16 02:56:54 +01:00			`while (state.KeepRunning()) {`
Improved microbenchmarking with multiple features. * inline performance critical code * Average runtime is specified and used to calculate iterations. * Console: show median of multiple runs * plot: show box plot * filter benchmarks * specify scaling factor * ignore src/test and src/bench in command line check script * number of iterations instead of time * Replaced runtime in BENCHMARK makro number of iterations. * Added -? to bench_bitcoin * Benchmark plotly.js URL, width, height can be customized * Fixed incorrect precision warning 2017-10-17 16:48:02 +02:00			`x += rng.randbool();`
FastRandom benchmark 2017-02-16 02:56:54 +01:00			`}`
			`}`

Improved microbenchmarking with multiple features. * inline performance critical code * Average runtime is specified and used to calculate iterations. * Console: show median of multiple runs * plot: show box plot * filter benchmarks * specify scaling factor * ignore src/test and src/bench in command line check script * number of iterations instead of time * Replaced runtime in BENCHMARK makro number of iterations. * Added -? to bench_bitcoin * Benchmark plotly.js URL, width, height can be customized * Fixed incorrect precision warning 2017-10-17 16:48:02 +02:00			`BENCHMARK(RIPEMD160, 440);`
			`BENCHMARK(SHA1, 570);`
			`BENCHMARK(SHA256, 340);`
			`BENCHMARK(SHA512, 330);`
Benchmark SipHash 2016-05-27 13:30:08 +02:00
Improved microbenchmarking with multiple features. * inline performance critical code * Average runtime is specified and used to calculate iterations. * Console: show median of multiple runs * plot: show box plot * filter benchmarks * specify scaling factor * ignore src/test and src/bench in command line check script * number of iterations instead of time * Replaced runtime in BENCHMARK makro number of iterations. * Added -? to bench_bitcoin * Benchmark plotly.js URL, width, height can be customized * Fixed incorrect precision warning 2017-10-17 16:48:02 +02:00			`BENCHMARK(SHA256_32b, 4700 * 1000);`
			`BENCHMARK(SipHash_32b, 40 * 1000 * 1000);`
			`BENCHMARK(FastRandom_32bit, 110 * 1000 * 1000);`
			`BENCHMARK(FastRandom_1bit, 440 * 1000 * 1000);`