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Hashes.h
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Hashes.h
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#pragma once
#include "Platform.h"
#include "Types.h"
#include <algorithm>
#include "MurmurHash1.h"
#include "MurmurHash2.h"
#include "MurmurHash3.h"
#include "PMurHash.h"
#include "xmsx.h"
#define XXH_INLINE_ALL
#include "xxhash.h"
#include "metrohash/metrohash64.h"
#include "metrohash/metrohash128.h"
#include "cmetrohash.h"
#include "opt_cmetrohash.h"
#if defined(HAVE_SSE42) && (defined(__x86_64__) || defined(__aarch64__))
#include "metrohash/metrohash64crc.h"
#include "metrohash/metrohash128crc.h"
#endif
#ifdef HAVE_AHASH_C
#include "ahash.h"
#endif
#include "fasthash.h"
#include "jody_hash32.h"
#include "jody_hash64.h"
// objsize: 0-0x113 = 276
#include "tifuhash.h"
// objsize: 5f0-85f = 623
#include "floppsyhash.h"
#include "siphash.h"
#include "vmac.h"
#include "tabulation.h"
//----------
// These are _not_ hash functions (even though people tend to use crc32 as one...)
static inline bool BadHash_bad_seeds(std::vector<uint32_t> &seeds)
{
seeds = std::vector<uint32_t> { UINT32_C(0) };
return true;
}
void BadHash(const void *key, int len, uint32_t seed, void *out);
static inline bool sumhash_bad_seeds(std::vector<uint32_t> &seeds)
{
seeds = std::vector<uint32_t> { UINT32_C(0) };
return true;
}
void sumhash(const void *key, int len, uint32_t seed, void *out);
void sumhash32(const void *key, int len, uint32_t seed, void *out);
void DoNothingHash(const void *key, int len, uint32_t seed, void *out);
void NoopOAATReadHash(const void *key, int len, uint32_t seed, void *out);
void crc32(const void *key, int len, uint32_t seed, void *out);
static inline bool crc32c_bad_seeds(std::vector<uint32_t> &seeds)
{
seeds = std::vector<uint32_t> { UINT32_C(0x111c2232) };
return true;
}
//----------
// General purpose hashes
#if defined(HAVE_SSE2)
void hasshe2_test(const void *key, int len, uint32_t seed, void *out);
#endif
#if defined(HAVE_SSE42)
// This falls into a MSVC CL 14.16.27023 32bit compiler bug. 14.28.29910 works fine.
# ifndef HAVE_BROKEN_MSVC_CRC32C_HW
void crc32c_hw_test(const void *key, int len, uint32_t seed, void *out);
void crc64c_hw_test(const void *key, int len, uint32_t seed, void *out);
# endif
# if defined(__SSE4_2__) && (defined(__i686__) || defined(__x86_64__)) && !defined(_MSC_VER)
void crc32c_hw1_test(const void *key, int len, uint32_t seed, void *out);
# endif
static inline bool crc64c_bad_seeds(std::vector<uint64_t> &seeds)
{
seeds = std::vector<uint64_t> { UINT64_C(0) };
return true;
}
#if defined(__x86_64__)
void CityHashCrc128_test(const void *key, int len, uint32_t seed, void *out);
void CityHashCrc256_test(const void *key, int len, uint32_t seed, void *out);
#endif
#endif
#if defined(HAVE_CLMUL) && !defined(_MSC_VER)
/* Function from linux kernel 3.14. It computes the CRC over the given
* buffer with initial CRC value <crc32>. The buffer is <len> byte in length,
* and must be 16-byte aligned, and larger than 63. */
extern "C" uint32_t crc32_pclmul_le_16(unsigned char const *buffer, size_t len,
uint32_t crc32);
void crc32c_pclmul_test(const void *key, int len, uint32_t seed, void *out);
static inline bool crc32c_pclmul_bad_seeds(std::vector<uint32_t> &seeds)
{
seeds = std::vector<uint32_t> { UINT32_C(0) };
return true;
}
static inline bool need_minlen64_align16(pfHash hash) {
return hash == crc32c_pclmul_test;
}
void falkhash_test_cxx(const void *key, int len, uint32_t seed, void *out);
#else
static inline bool need_minlen64_align16(pfHash hash) {
return false;
}
#endif
size_t fibonacci(const char *key, int len, uint32_t seed);
inline void fibonacci_test(const void *key, int len, uint32_t seed, void *out) {
*(size_t *)out = fibonacci((const char *)key, len, seed);
}
size_t FNV2(const char *key, int len, size_t seed);
inline void FNV2_test(const void *key, int len, uint32_t seed, void *out) {
*(size_t *)out = FNV2((const char *)key, len, (size_t)seed);
}
uint32_t FNV32a(const void *key, int len, uint32_t seed);
static inline bool FNV32a_bad_seeds(std::vector<uint32_t> &seeds)
{
seeds = std::vector<uint32_t> { UINT32_C(0x811c9dc5) };
return true;
}
inline void FNV32a_test(const void *key, int len, uint32_t seed, void *out) {
*(uint32_t *)out = FNV32a((const char *)key, len, seed);
}
uint32_t FNV32a_YoshimitsuTRIAD(const char *key, int len, uint32_t seed);
static inline bool FNV32a_YT_bad_seeds(std::vector<uint32_t> &seeds)
{
seeds = std::vector<uint32_t> { UINT32_C(0x811c9dc5) };
return true;
}
inline void FNV32a_YT_test(const void *key, int len, uint32_t seed, void *out) {
*(uint32_t *)out = FNV32a_YoshimitsuTRIAD((const char *)key, len, seed);
}
#ifdef HAVE_INT64
uint32_t FNV1A_Totenschiff(const char *key, int len, uint32_t seed);
inline void FNV1A_Totenschiff_test(const void *key, int len, uint32_t seed,
void *out) {
*(uint32_t *)out = FNV1A_Totenschiff((const char *)key, len, seed);
}
uint32_t FNV1A_Pippip_Yurii(const char *key, int wrdlen, uint32_t seed);
inline void FNV1A_PY_test(const void *key, int len, uint32_t seed, void *out) {
*(uint32_t *)out = FNV1A_Pippip_Yurii((const char *)key, len, seed);
}
#endif
void FNV128(uint64_t buf[2], const char *key, int len, uint64_t seed);
inline void FNV128_test(const void *key, int len, uint32_t seed, void *out) {
FNV128((uint64_t*)out, (const char *)key, len, (uint64_t)seed);
}
uint64_t FNV64a(const char *key, int len, uint64_t seed);
inline void FNV64a_test(const void *key, int len, uint32_t seed, void *out) {
*(uint64_t *)out = FNV64a((const char *)key, len, (uint64_t)seed);
}
static inline bool fletcher_bad_seeds(std::vector<uint64_t> &seeds)
{
seeds = std::vector<uint64_t> { UINT64_C(0) };
return true;
}
uint64_t fletcher2(const char *key, int len, uint64_t seed);
inline void fletcher2_test(const void *key, int len, uint32_t seed, void *out) {
*(uint64_t *) out = fletcher2((const char *)key, len, (uint64_t)seed);
}
uint64_t fletcher4(const char *key, int len, uint64_t seed);
inline void fletcher4_test(const void *key, int len, uint32_t seed, void *out) {
*(uint64_t *) out = fletcher2((const char *)key, len, (uint64_t)seed);
}
uint32_t Bernstein(const char *key, int len, uint32_t seed);
static inline bool Bernstein_bad_seeds(std::vector<uint32_t> &seeds)
{
seeds = std::vector<uint32_t> { UINT32_C(0) };
return true;
}
inline void Bernstein_test(const void *key, int len, uint32_t seed, void *out) {
*(uint32_t *) out = Bernstein((const char *)key, len, seed);
}
uint32_t sdbm(const char *key, int len, uint32_t hash);
static inline bool sdbm_bad_seeds(std::vector<uint32_t> &seeds)
{
seeds = std::vector<uint32_t> { UINT32_C(0) };
return true;
}
inline void sdbm_test(const void *key, int len, uint32_t seed, void *out) {
*(uint32_t *) out = sdbm((const char *)key, len, seed);
}
uint32_t x17(const char *key, int len, uint32_t h);
inline void x17_test(const void *key, int len, uint32_t seed, void *out) {
*(uint32_t *) out = x17((const char *)key, len, seed);
}
uint32_t libiberty_hash(unsigned char *key, int len, uint32_t seed);
inline void libiberty_test(const void *key, int len, uint32_t seed, void *out) {
*(uint32_t *) out = libiberty_hash((unsigned char *)key, len, seed);
}
inline void gcc_test(const void *key, int len, uint32_t seed, void *out) {
*(uint32_t *) out = len + libiberty_hash((unsigned char *)key, len, seed);
}
uint32_t JenkinsOOAT(const char *key, int len, uint32_t hash);
inline void JenkinsOOAT_test(const void *key, int len, uint32_t seed, void *out) {
*(uint32_t *) out = JenkinsOOAT((const char *)key, len, seed);
}
uint32_t JenkinsOOAT_perl(const char *key, int len, uint32_t hash);
inline void JenkinsOOAT_perl_test(const void *key, int len, uint32_t seed, void *out) {
*(uint32_t *) out = JenkinsOOAT_perl((const char *)key, len, seed);
}
uint32_t GoodOAAT(const char *key, int len, uint32_t hash);
inline void GoodOAAT_test(const void *key, int len, uint32_t seed, void *out) {
*(uint32_t *) out = GoodOAAT((const char *)key, len, seed);
}
uint32_t MicroOAAT(const char *key, int len, uint32_t hash);
inline void MicroOAAT_test(const void *key, int len, uint32_t seed, void *out) {
*(uint32_t *) out = MicroOAAT((const char *)key, len, seed);
}
uint32_t SuperFastHash (const char * data, int len, uint32_t hash);
static inline bool SuperFastHash_bad_seeds(std::vector<uint32_t> &seeds)
{
seeds = std::vector<uint32_t> { UINT32_C(0) };
return true;
}
inline void SuperFastHash_test(const void *key, int len, uint32_t seed, void *out) {
*(uint32_t*)out = SuperFastHash((const char*)key, len, seed);
}
uint32_t lookup3(const char *key, int len, uint32_t hash);
inline void lookup3_test(const void *key, int len, uint32_t seed, void *out) {
*(uint32_t *) out = lookup3((const char *)key, len, seed);
}
uint32_t MurmurOAAT(const char *key, int len, uint32_t hash);
inline void MurmurOAAT_test(const void *key, int len, uint32_t seed, void *out) {
*(uint32_t *) out = MurmurOAAT((const char *)key, len, seed);
}
uint32_t Crap8(const uint8_t * key, uint32_t len, uint32_t seed);
inline void Crap8_test(const void *key, int len, uint32_t seed, void *out) {
*(uint32_t *) out = Crap8((const uint8_t *)key, len, seed);
}
void CityHash32_test(const void *key, int len, uint32_t seed, void *out);
void CityHash64noSeed_test(const void *key, int len, uint32_t seed, void *out);
void CityHash64_test(const void *key, int len, uint32_t seed, void *out);
inline void CityHash64_low_test(const void *key, int len, uint32_t seed, void *out) {
uint64_t result;
CityHash64_test(key, len, seed, &result);
*(uint32_t *)out = (uint32_t)result;
}
void CityHash128_test(const void *key, int len, uint32_t seed, void *out);
// objsize: eb0-3b91: 11489 (mult. variants per len)
void FarmHash32_test ( const void * key, int len, uint32_t seed, void * out );
// objsize: 0-eae: 3758 (mult. variants per len)
void FarmHash64_test ( const void * key, int len, uint32_t seed, void * out );
void FarmHash64noSeed_test ( const void * key, int len, uint32_t seed, void * out );
// objsize: 44a0-4543: 163
void FarmHash128_test ( const void * key, int len, uint32_t seed, void * out );
// objsize: 0x2c70-0x2f6a farmhash32_su_with_seed
void farmhash32_c_test ( const void * key, int len, uint32_t seed, void * out );
// objsize: 4a20-4a82/5b0-5fd/660-1419: 3688 farmhash64_na_with_seeds
void farmhash64_c_test ( const void * key, int len, uint32_t seed, void * out );
// objsize: 4140-48a2: 1890
void farmhash128_c_test ( const void * key, int len, uint32_t seed, void * out );
// all 3 using the same Hash128
// objsize: 0-8ad: 2221
void SpookyHash32_test ( const void * key, int len, uint32_t seed, void * out );
void SpookyHash64_test ( const void * key, int len, uint32_t seed, void * out );
void SpookyHash128_test ( const void * key, int len, uint32_t seed, void * out );
// objsize: 465b90-4663c0: 2069
void SpookyV2_32_test ( const void * key, int len, uint32_t seed, void * out );
void SpookyV2_64_test ( const void * key, int len, uint32_t seed, void * out );
void SpookyV2_128_test ( const void * key, int len, uint32_t seed, void * out );
//----------
// Used internally as C++
uint32_t MurmurOAAT ( const char * key, int len, uint32_t seed );
// MurmurHash2
void MurmurHash2_test ( const void * key, int len, uint32_t seed, void * out );
void MurmurHash2A_test ( const void * key, int len, uint32_t seed, void * out );
void siphash_test ( const void * key, int len, uint32_t seed, void * out );
void siphash13_test ( const void * key, int len, uint32_t seed, void * out );
void halfsiphash_test ( const void * key, int len, uint32_t seed, void * out );
extern "C" void chaskey_c ( const void * key, int len, uint64_t seed, void * out );
extern "C" void chaskey_init();
inline void
chaskey_test(const void *input, int len, uint32_t seed, void *out)
{
uint64_t lseed = (uint64_t)seed;
chaskey_c (input, len, lseed, out);
}
//-----------------------------------------------------------------------------
// Test harnesses for Murmur1/2
inline void MurmurHash1_test ( const void * key, int len, uint32_t seed, void * out )
{
*(uint32_t*)out = MurmurHash1(key,len,seed);
}
inline void MurmurHash2_test ( const void * key, int len, uint32_t seed, void * out )
{
*(uint32_t*)out = MurmurHash2(key,len,seed);
}
inline void MurmurHash2A_test ( const void * key, int len, uint32_t seed, void * out )
{
*(uint32_t*)out = MurmurHash2A(key,len,seed);
}
#if __WORDSIZE >= 64
inline void MurmurHash64A_test ( const void * key, int len, uint32_t seed, void * out )
{
*(uint64_t*)out = MurmurHash64A(key,len,seed);
}
#endif
#ifdef HAVE_INT64
// 2^32 bad seeds for Murmur2C
static void MurmurHash64B_seed_init(uint32_t &seed) {
if ((seed & 0x10) == 0x10)
seed++;
}
inline void MurmurHash64B_test ( const void * key, int len, uint32_t seed, void * out )
{
*(uint64_t*)out = MurmurHash64B(key,len,seed);
}
#endif
inline void xmsx32_test ( const void * key, int len, uint32_t seed, void * out )
{
*(uint32_t*)out = xmsx32(key, (size_t)len, seed);
}
inline void jodyhash32_test( const void * key, int len, uint32_t seed, void * out ) {
*(uint32_t*)out = jody_block_hash32((const jodyhash32_t *)key, (jodyhash32_t) seed, (size_t) len);
}
#ifdef HAVE_INT64
inline void jodyhash64_test( const void * key, int len, uint32_t seed, void * out ) {
*(uint64_t*)out = jody_block_hash((jodyhash_t *)key, (jodyhash_t) seed, (size_t) len);
}
#endif
inline void xxHash32_test( const void * key, int len, uint32_t seed, void * out ) {
// objsize 10-104 + 3e0-5ce: 738
*(uint32_t*)out = (uint32_t) XXH32(key, (size_t) len, (unsigned) seed);
}
#ifdef HAVE_INT64
inline void xxHash64_test( const void * key, int len, uint32_t seed, void * out ) {
// objsize 630-7fc + c10-1213: 1999
*(uint64_t*)out = (uint64_t) XXH64(key, (size_t) len, (unsigned long long) seed);
}
#endif
#define restrict // oddly enough, seems to choke on this keyword
#include "xxh3.h"
#ifdef HAVE_INT64
static inline bool xxh3_bad_seeds(std::vector<uint64_t> &seeds) {
return false;
}
inline void xxh3_test( const void * key, int len, uint32_t seed, void * out ) {
// objsize 12d0-15b8: 744
*(uint64_t*)out = (uint64_t) XXH3_64bits_withSeed(key, (size_t) len, seed);
}
#endif
inline void xxh3low_test( const void * key, int len, uint32_t seed, void * out ) {
// objsize 12d0-15b8: 744 + 1f50-1f5c: 756
*(uint32_t*)out = (uint32_t) XXH3_64bits_withSeed(key, (size_t) len, seed);
}
#ifdef HAVE_INT64
inline void xxh128_test( const void * key, int len, uint32_t seed, void * out ) {
// objsize 1f60-2354: 1012
*(XXH128_hash_t*)out = XXH128(key, (size_t) len, seed);
}
inline void xxh128low_test( const void * key, int len, uint32_t seed, void * out ) {
*(uint64_t*)out = (uint64_t) (XXH128(key, (size_t) len, seed).low64);
}
#ifdef HAVE_INT64
inline void metrohash64_test ( const void * key, int len, uint32_t seed, void * out ) {
MetroHash64::Hash((const uint8_t *)key, (uint64_t)len, (uint8_t *)out, seed);
}
inline void metrohash64_1_test ( const void * key, int len, uint32_t seed, void * out ) {
metrohash64_1((const uint8_t *)key, (uint64_t)len, seed, (uint8_t *)out);
}
inline void metrohash64_2_test ( const void * key, int len, uint32_t seed, void * out ) {
metrohash64_2((const uint8_t *)key, (uint64_t)len, seed, (uint8_t *)out);
}
inline void metrohash128_test ( const void * key, int len, uint32_t seed, void * out ) {
MetroHash128::Hash((const uint8_t *)key, (uint64_t)len, (uint8_t *)out, seed);
}
inline void metrohash128_1_test ( const void * key, int len, uint32_t seed, void * out ) {
metrohash128_1((const uint8_t *)key, (uint64_t)len, seed, (uint8_t *)out);
}
inline void metrohash128_2_test ( const void * key, int len, uint32_t seed, void * out ) {
metrohash128_2((const uint8_t *)key, (uint64_t)len, seed, (uint8_t *)out);
}
#endif
#if defined(HAVE_SSE42) && (defined(__x86_64__) || defined(__aarch64__)) && !defined(_MSC_VER)
inline void metrohash64crc_1_test ( const void * key, int len, uint32_t seed, void * out ) {
metrohash64crc_1((const uint8_t *)key, (uint64_t)len, seed, (uint8_t *)out);
}
inline void metrohash64crc_2_test ( const void * key, int len, uint32_t seed, void * out ) {
metrohash64crc_2((const uint8_t *)key, (uint64_t)len, seed, (uint8_t *)out);
}
inline void metrohash128crc_1_test ( const void * key, int len, uint32_t seed, void * out ) {
metrohash128crc_1((const uint8_t *)key, (uint64_t)len, seed, (uint8_t *)out);
}
inline void metrohash128crc_2_test ( const void * key, int len, uint32_t seed, void * out ) {
metrohash128crc_2((const uint8_t *)key, (uint64_t)len, seed, (uint8_t *)out);
}
#endif
inline void cmetrohash64_1_test ( const void * key, int len, uint32_t seed, void * out ) {
// objsize 0-28c: 652
cmetrohash64_1((const uint8_t *)key,(uint64_t)len,seed,(uint8_t *)out);
}
inline void cmetrohash64_1_optshort_test ( const void * key, int len, uint32_t seed, void * out ) {
// objsize 0-db2: 3506
cmetrohash64_1_optshort((const uint8_t *)key,(uint64_t)len,seed,(uint8_t *)out);
}
inline void cmetrohash64_2_test ( const void * key, int len, uint32_t seed, void * out ) {
// objsize 290-51f: 655
cmetrohash64_2((const uint8_t *)key,(uint64_t)len,seed,(uint8_t *)out);
}
#endif
inline void fasthash32_test ( const void * key, int len, uint32_t seed, void * out ) {
*(uint32_t*)out = fasthash32(key, (size_t) len, seed);
}
#ifdef HAVE_INT64
inline void fasthash64_test ( const void * key, int len, uint32_t seed, void * out ) {
*(uint64_t*)out = fasthash64(key, (size_t) len, (uint64_t)seed);
}
#ifdef HAVE_AHASH_C
// objsize: 4c48a0-4c4a3c: 412
inline void ahash64_test ( const void * key, int len, uint32_t seed, void * out ) {
*(uint64_t*)out = ahash64(key, (size_t) len, (uint64_t)seed);
}
#endif
#endif
// objsize 0-778: 1912
void mum_hash_test(const void * key, int len, uint32_t seed, void * out);
static inline bool mum_hash_bad_seeds(std::vector<uint64_t> &seeds)
{
seeds = std::vector<uint64_t> { UINT64_C(0) };
return true;
}
inline void mum_low_test ( const void * key, int len, uint32_t seed, void * out ) {
uint64_t result;
mum_hash_test(key, len, seed, &result);
*(uint32_t*)out = (uint32_t)result;
}
//-----------------------------------------------------------------------------
#define T1HA0_RUNTIME_SELECT 0
#ifdef HAVE_AESNI
# define T1HA0_AESNI_AVAILABLE 1
#else
# define T1HA0_AESNI_AVAILABLE 0
#endif
#include "t1ha.h"
inline void t1ha2_atonce_test(const void * key, int len, uint32_t seed, void * out)
{
// objsize 0-21d: 541
*(uint64_t*)out = t1ha2_atonce(key, len, seed);
}
inline void t1ha2_stream_test(const void * key, int len, uint32_t seed, void * out)
{
t1ha_context_t ctx;
// objsize 570-bf1: 1665
t1ha2_init(&ctx, seed, 0);
t1ha2_update(&ctx, key, len);
*(uint64_t*)out = t1ha2_final(&ctx, NULL);
}
inline void t1ha2_atonce128_test(const void * key, int len, uint32_t seed, void * out)
{
// objsize b50-db5: 613
*(uint64_t*)out = t1ha2_atonce128((uint64_t*)out + 1, key, len, seed);
}
inline void t1ha2_stream128_test(const void * key, int len, uint32_t seed, void * out)
{
t1ha_context_t ctx;
// objsize e20-14a1: 1665
t1ha2_init(&ctx, seed, 0);
t1ha2_update(&ctx, key, len);
*(uint64_t*)out = t1ha2_final(&ctx, (uint64_t*)out + 1);
}
inline void t1ha1_64le_test(const void * key, int len, uint32_t seed, void * out)
{
// objsize 0-205: 517
*(uint64_t*)out = t1ha1_le(key, len, seed);
}
inline void t1ha1_64be_test(const void * key, int len, uint32_t seed, void * out)
{
// objsize 280-4ab: 555
*(uint64_t*)out = t1ha1_be(key, len, seed);
}
inline void t1ha0_32le_test(const void * key, int len, uint32_t seed, void * out)
{
// objsize 0-1fd: 509
*(uint64_t*)out = t1ha0_32le(key, len, seed);
}
inline void t1ha0_32be_test(const void * key, int len, uint32_t seed, void * out)
{
// objsize 250-465: 533
*(uint64_t*)out = t1ha0_32be(key, len, seed);
}
#if T1HA0_AESNI_AVAILABLE
#ifndef _MSC_VER
inline void t1ha0_ia32aes_noavx_test(const void * key, int len, uint32_t seed, void * out)
{
// objsize 0-39d: 925
*(uint64_t*)out = t1ha0_ia32aes_noavx(key, len, seed);
}
#endif
#if defined(__AVX__)
inline void t1ha0_ia32aes_avx1_test(const void * key, int len, uint32_t seed, void * out)
{
// objsize 0-34b: 843
*(uint64_t*)out = t1ha0_ia32aes_avx(key, len, seed);
}
#endif /* __AVX__ */
#if defined(__AVX2__)
inline void t1ha0_ia32aes_avx2_test(const void * key, int len, uint32_t seed, void * out)
{
// objsize 0-318: 792
*(uint64_t*)out = t1ha0_ia32aes_avx2(key, len, seed);
}
#endif /* __AVX2__ */
#endif /* T1HA0_AESNI_AVAILABLE */
#if defined(HAVE_SSE42) && defined(__x86_64__)
#include "clhash.h"
void clhash_init();
void clhash_seed_init(size_t &seed);
void clhash_test (const void * key, int len, uint32_t seed, void * out);
#endif
// objsize 454880-4554f3: 2911
void halftime_hash_style64_test(const void *key, int len, uint32_t seed, void *out);
// 455e90 - 45682e: 2462
void halftime_hash_style128_test(const void *key, int len, uint32_t seed, void *out);
// 458840 - 45927e: 2622
void halftime_hash_style256_test(const void *key, int len, uint32_t seed, void *out);
// 457a60 - 45883e: 3550 (without AVX512 on Ryzen3)
void halftime_hash_style512_test(const void *key, int len, uint32_t seed, void *out);
void halftime_hash_init();
void halftime_hash_seed_init(size_t &seed);
#ifdef __SIZEOF_INT128__
void multiply_shift_init();
void multiply_shift_seed_init(uint32_t &seed);
bool multiply_shift_bad_seeds(std::vector<uint64_t> &seeds);
void multiply_shift (const void * key, int len, uint32_t seed, void * out);
void pair_multiply_shift (const void *key, int len, uint32_t seed, void *out);
void poly_mersenne_init();
void poly_mersenne_seed_init(uint32_t &seed);
// insecure: hashes cancel itself out, as with CRC
// void poly_0_mersenne (const void* key, int len, uint32_t seed, void* out);
void poly_1_mersenne (const void* key, int len, uint32_t seed, void* out);
void poly_2_mersenne (const void* key, int len, uint32_t seed, void* out);
void poly_3_mersenne (const void* key, int len, uint32_t seed, void* out);
void poly_4_mersenne (const void* key, int len, uint32_t seed, void* out);
#endif
#ifdef __SIZEOF_INT128__
inline void tabulation_init() {
size_t seed = 2;
tabulation_seed_init(seed);
}
// insecure: hashes cancel itself out, as with poly_X and CRC
// objsize: 40b780 - 40b9aa: 554
inline void tabulation_test (const void * key, int len, uint32_t seed, void * out) {
*(uint64_t*)out = tabulation_hash(key, len, seed);
}
#endif
inline void tabulation_32_init() {
size_t seed = 0;
tabulation_32_seed_init(seed);
}
// objsize: 40b9b0 - 40bd00: 848
inline void tabulation_32_test (const void * key, int len, uint32_t seed, void * out) {
*(uint32_t*)out = tabulation_32_hash(key, len, seed);
}
void HighwayHash_init();
// objsize 20-a12: 2546
void HighwayHash64_test (const void * key, int len, uint32_t seed, void * out);
#if defined HAVE_BIT32
// native 32bit. objsize: 8055230 - 80553da: 426
#include "wyhash32.h"
inline void wyhash32_test (const void * key, int len, uint32_t seed, void * out) {
*(uint32_t*)out = wyhash32(key, (uint64_t)len, (unsigned)seed);
}
#elif defined HAVE_INT64
#include "wyhash.h"
// objsize 40dbe0-40ddba: 474
inline void wyhash_test (const void * key, int len, uint32_t seed, void * out) {
*(uint64_t*)out = wyhash(key, (uint64_t)len, (uint64_t)seed, _wyp);
}
// objsize: 40da00-40dbda: 474
inline void wyhash32low (const void * key, int len, uint32_t seed, void * out) {
*(uint32_t*)out = 0xFFFFFFFF & wyhash(key, (uint64_t)len, (uint64_t)seed, _wyp);
}
#endif
#ifdef HAVE_INT64
#include "rapidhash.h"
// objsize: 181e0-1841e: 574
inline void rapidhash_test (const void * key, int len, uint32_t seed, void * out) {
*(uint64_t*)out = rapidhash_withSeed_compact(key, (uint64_t)len, (uint64_t)seed);
}
// objsize: 18420-1872e: 782
inline void rapidhash_unrolled_test (const void * key, int len, uint32_t seed, void * out) {
*(uint64_t*)out = rapidhash_withSeed_unrolled(key, (uint64_t)len, (uint64_t)seed);
}
#endif
#ifdef HAVE_INT64
#include "o1hash.h"
// unseeded. objsize: 101
// This is vulnerable to keys len>4 and key[len/2 -2]..[len/2 +2] being 0 (binary keys).
inline void o1hash_test (const void * key, int len, uint32_t seed, void * out) {
*(uint64_t*)out = o1hash(key, (uint64_t)len);
}
//https://github.com/vnmakarov/mir/blob/master/mir-hash.h
#include "mir-hash.h"
static inline bool mirhash_bad_seeds(std::vector<uint64_t> &seeds)
{
seeds = std::vector<uint64_t> { 0x0, 0x5e74c778, 0xa521f17b, 0xe0ab70e3 };
// plus all 64bit variants << 32 !!
return true;
}
inline void mirhash_test (const void * key, int len, uint32_t seed, void * out) {
// objsize 2950-2da8: 1112
*(uint64_t*)out = mir_hash(key, (uint64_t)len, (uint64_t)seed);
}
static inline bool mirhash32_bad_seeds(std::vector<uint32_t> &seeds)
{
seeds = std::vector<uint32_t> { 0x0, 0x5e74c778, 0xa521f17b, 0xe0ab70e3 };
return true;
}
inline void mirhash32low (const void * key, int len, uint32_t seed, void * out) {
*(uint32_t*)out = 0xFFFFFFFF & mir_hash(key, (uint64_t)len, (uint64_t)seed);
}
inline void mirhashstrict_test (const void * key, int len, uint32_t seed, void * out) {
// objsize 2950-2da8: 1112
*(uint64_t*)out = mir_hash_strict(key, (uint64_t)len, (uint64_t)seed);
}
static inline bool mirhashstrict32low_bad_seeds(std::vector<uint32_t> &seeds)
{
seeds = std::vector<uint32_t> { 0x7fcc747f };
return true;
}
inline void mirhashstrict32low (const void * key, int len, uint32_t seed, void * out) {
*(uint32_t*)out = 0xFFFFFFFF & mir_hash_strict(key, (uint64_t)len, (uint64_t)seed);
}
static void mirhash_seed_init(uint32_t &seed)
{
// reject bad seeds
std::vector<uint64_t> bad_seeds;
mirhash_bad_seeds(bad_seeds);
for (uint64_t s : bad_seeds) {
if (s == seed) {
seed++; break;
}
// also all hi ranges
if ((s << 32) & seed) {
seed++; break;
}
}
}
static void mirhash32_seed_init(uint32_t &seed)
{
// reject bad seeds
std::vector<uint32_t> bad_seeds;
mirhash32_bad_seeds(bad_seeds);
while (std::find(bad_seeds.begin(), bad_seeds.end(), (uint32_t)seed) != bad_seeds.end())
seed++;
}
//TODO MSVC
#ifndef _MSC_VER
void tsip_init();
void tsip_test (const void * key, int len, uint32_t seed, void * out);
// objsize 0-207: 519
extern "C" uint64_t tsip(const unsigned char *seed, const unsigned char *m, uint64_t len);
extern "C" uint64_t seahash(const char *key, int len, uint64_t seed);
// objsize 29b0-2d17: 871
inline void seahash_test (const void *key, int len, uint32_t seed, void *out) {
*(uint64_t*)out = seahash((const char *)key, len, (uint64_t)seed);
}
inline void seahash32low (const void *key, int len, uint32_t seed, void *out) {
uint64_t result = seahash((const char *)key, len, (uint64_t)seed);
*(uint32_t*)out = (uint32_t)(UINT64_C(0xffffffff) & result);
}
#endif /* !MSVC */
#endif /* HAVE_INT64 */
//----------
// Cryptographic hashes
#include "md5.h"
inline void md5_128(const void *key, int len, uint32_t seed, void *out) {
md5_context md5_ctx;
md5_starts( &md5_ctx );
md5_ctx.state[0] ^= seed;
md5_update( &md5_ctx, (unsigned char *)key, len );
md5_finish( &md5_ctx, (unsigned char *)out );
//memset( &md5_ctx.buffer, 0, 64+64+64 ); // for buffer, ipad, opad
}
inline void md5_32(const void *key, int len, uint32_t seed, void *out) {
unsigned char hash[16];
md5_context md5_ctx;
md5_starts( &md5_ctx );
md5_ctx.state[0] ^= seed;
md5_update( &md5_ctx, (unsigned char *)key, len );
md5_finish( &md5_ctx, hash );
//memset( &md5_ctx.buffer, 0, 64+64+64 ); // for buffer, ipad, opad
// The "B" state was modified last in the hash round, so return the
// second word of output.
memcpy(out, hash + 4, 4);
}
inline void md5_64(const void *key, int len, uint32_t seed, void *out) {
unsigned char hash[16];
md5_context md5_ctx;
md5_starts( &md5_ctx );
md5_ctx.state[0] ^= seed;
md5_update( &md5_ctx, (unsigned char *)key, len );
md5_finish( &md5_ctx, hash );
//memset( &md5_ctx.buffer, 0, 64+64+64 ); // for buffer, ipad, opad
// The "B" and "C" states were modified last in the hash rounds, so
// return the second and third word of output.
memcpy(out, hash + 4, 8);
}
#include "sha1.h"
inline void sha1_160(const void *key, int len, uint32_t seed, void *out) {
SHA1_CTX context;
SHA1_Init(&context);
context.state[0] ^= seed;
SHA1_Update(&context, (uint8_t*)key, len);
SHA1_Final(&context, SHA1_DIGEST_SIZE, (uint8_t*)out);
}
inline void sha1_32(const void *key, int len, uint32_t seed, void *out) {
SHA1_CTX context;
SHA1_Init(&context);
context.state[0] ^= seed;
SHA1_Update(&context, (uint8_t *)key, len);
SHA1_Final(&context, 4, (uint8_t *)out);
}
inline void sha1_64(const void *key, int len, uint32_t seed, void *out) {
SHA1_CTX context;
SHA1_Init(&context);
context.state[0] ^= seed;
SHA1_Update(&context, (uint8_t *)key, len);
SHA1_Final(&context, 8, (uint8_t *)out);
}
#include "tomcrypt.h"
int blake2b_init(hash_state * md, unsigned long outlen,
const unsigned char *key, unsigned long keylen);
inline void blake2b160_test(const void *key, int len, uint32_t seed, void *out)
{
// objsize
hash_state ltc_state;
blake2b_init(<c_state, 20, NULL, 0);
ltc_state.blake2b.h[0] ^= seed; // mix seed into lowest int
blake2b_process(<c_state, (unsigned char *)key, len);
blake2b_done(<c_state, (unsigned char *)out);
}
inline void blake2b224_test(const void *key, int len, uint32_t seed, void *out)
{
// objsize
hash_state ltc_state;
blake2b_init(<c_state, 28, NULL, 0);
ltc_state.blake2b.h[0] ^= seed;
blake2b_process(<c_state, (unsigned char *)key, len);
blake2b_done(<c_state, (unsigned char *)out);
}
inline void blake2b256_test(const void *key, int len, uint32_t seed, void *out)
{
// objsize
hash_state ltc_state;
blake2b_init(<c_state, 32, NULL, 0);
ltc_state.blake2b.h[0] ^= seed;
blake2b_process(<c_state, (unsigned char *)key, len);
blake2b_done(<c_state, (unsigned char *)out);
}
inline void blake2b256_64(const void *key, int len, uint32_t seed, void *out)
{
// objsize
hash_state ltc_state;
unsigned char buf[32];
blake2b_init(<c_state, 32, NULL, 0);
ltc_state.blake2b.h[0] ^= seed;
blake2b_process(<c_state, (unsigned char *)key, len);
blake2b_done(<c_state, buf);
memcpy(out, buf, 8);
}
int blake2s_init(hash_state * md, unsigned long outlen,
const unsigned char *key, unsigned long keylen);
inline void blake2s128_test(const void * key, int len, uint32_t seed, void * out)
{
// objsize
hash_state ltc_state;
blake2s_init(<c_state, 16, NULL, 0);
ltc_state.blake2s.h[0] ^= seed;
blake2s_process(<c_state, (unsigned char *)key, len);
blake2s_done(<c_state, (unsigned char *)out);
}
inline void blake2s160_test(const void * key, int len, uint32_t seed, void * out)
{
// objsize
hash_state ltc_state;
blake2s_init(<c_state, 20, NULL, 0);
ltc_state.blake2s.h[0] ^= seed;
blake2s_process(<c_state, (unsigned char *)key, len);
blake2s_done(<c_state, (unsigned char *)out);
}
inline void blake2s224_test(const void * key, int len, uint32_t seed, void * out)
{
// objsize
hash_state ltc_state;
blake2s_init(<c_state, 28, NULL, 0);
ltc_state.blake2s.h[0] ^= seed;
blake2s_process(<c_state, (unsigned char *)key, len);
blake2s_done(<c_state, (unsigned char *)out);
}
inline void blake2s256_test(const void * key, int len, uint32_t seed, void * out)
{
// objsize
hash_state ltc_state;
blake2s_init(<c_state, 32, NULL, 0);
ltc_state.blake2s.h[0] ^= seed;
blake2s_process(<c_state, (unsigned char *)key, len);
blake2s_done(<c_state, (unsigned char *)out);
}
inline void blake2s256_64(const void * key, int len, uint32_t seed, void * out)
{
// objsize
hash_state ltc_state;
unsigned char buf[32];
blake2s_init(<c_state, 32, NULL, 0);
ltc_state.blake2s.h[0] ^= seed;
blake2s_process(<c_state, (unsigned char *)key, len);
blake2s_done(<c_state, buf);
memcpy(out, buf, 8);
}
inline void sha2_224(const void *key, int len, uint32_t seed, void *out)
{
// objsize
hash_state ltc_state;
sha224_init(<c_state);
ltc_state.sha256.state[0] ^= seed;
ltc_state.sha256.state[0] += len; // hardened against padding
sha224_process(<c_state, (unsigned char *)key, len);
sha224_done(<c_state, (unsigned char *)out);
}
inline void sha2_224_64(const void *key, int len, uint32_t seed, void *out)
{
// objsize
unsigned char buf[28];
hash_state ltc_state;
sha224_init(<c_state);
ltc_state.sha256.state[0] ^= seed;
ltc_state.sha256.state[0] += len; // hardened against padding
sha224_process(<c_state, (unsigned char *)key, len);
sha224_done(<c_state, buf);
memcpy(out, buf, 8);
}
inline void sha2_256(const void *key, int len, uint32_t seed, void *out)
{
// objsize
hash_state ltc_state;
sha256_init(<c_state);
ltc_state.sha256.state[0] ^= seed;
ltc_state.sha256.state[0] += len; // hardened against padding
sha256_process(<c_state, (unsigned char *)key, len);
sha256_done(<c_state, (unsigned char *)out);
}
inline void sha2_256_64(const void *key, int len, uint32_t seed, void *out)
{
// objsize
unsigned char buf[32];
hash_state ltc_state;
sha256_init(<c_state);
ltc_state.sha256.state[0] ^= seed;
ltc_state.sha256.state[0] += len; // hardened against padding
sha256_process(<c_state, (unsigned char *)key, len);
sha256_done(<c_state, buf);
memcpy(out, buf, 8);
}
inline void rmd128(const void *key, int len, uint32_t seed, void *out)
{
// objsize
hash_state ltc_state;
rmd128_init(<c_state);
ltc_state.rmd128.state[0] ^= seed;
rmd128_process(<c_state, (unsigned char *)key, len);
rmd128_done(<c_state, (unsigned char *)out);
}
inline void rmd160(const void *key, int len, uint32_t seed, void *out)
{
// objsize
hash_state ltc_state;
rmd160_init(<c_state);
ltc_state.rmd160.state[0] = 0x67452301UL ^ seed;
rmd160_process(<c_state, (unsigned char *)key, len);
rmd160_done(<c_state, (unsigned char *)out);
}
inline void rmd256(const void *key, int len, uint32_t seed, void *out)
{
// objsize
hash_state ltc_state;
rmd256_init(<c_state);
ltc_state.rmd256.state[0] ^= seed;
rmd256_process(<c_state, (unsigned char *)key, len);
rmd256_done(<c_state, (unsigned char *)out);
}
#if !defined(__BYTE_ORDER__) || !defined(__ORDER_BIG_ENDIAN__) || !defined(__ORDER_LITTLE_ENDIAN__)
# error __BYTE_ORDER__ and __ORDER_BIG_ENDIAN__ should be defined.
#elif __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__
# undef HAVE_EDONR // BE build fails due to missing rhash_swap_copy_str_to_u32()
#else
# define HAVE_EDONR
#endif
#ifdef HAVE_EDONR
#include "edonr.h"
inline void edonr224(const void *key, int len, uint32_t seed, void *out)
{
// objsize
struct edonr_ctx ctx;
rhash_edonr224_init(&ctx);
ctx.u.data256.hash[0] ^= seed;
rhash_edonr256_update(&ctx, (unsigned char *)key, len);
rhash_edonr256_final(&ctx, (unsigned char *)out);
}
inline void edonr256(const void *key, int len, uint32_t seed, void *out)
{
// objsize
struct edonr_ctx ctx;
rhash_edonr256_init(&ctx);
ctx.u.data256.hash[0] ^= seed;
rhash_edonr256_update(&ctx, (unsigned char *)key, len);
rhash_edonr256_final(&ctx, (unsigned char *)out);
}
#endif
// Keccak:
inline void sha3_256_64(const void *key, int len, uint32_t seed, void *out)
{
// objsize
unsigned char buf[32];
hash_state ltc_state;
sha3_256_init(<c_state);
ltc_state.sha3.s[0] ^= seed;
sha3_process(<c_state, (unsigned char *)key, len);
sha3_done(<c_state, buf);
memcpy(out, buf, 8);
}
inline void sha3_256(const void *key, int len, uint32_t seed, void *out)