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432 lines
14 KiB
432 lines
14 KiB
/*
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Copyright (c) 2018-2019, tevador <tevador@gmail.com>
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All rights reserved.
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Redistribution and use in source and binary forms, with or without
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modification, are permitted provided that the following conditions are met:
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* Redistributions of source code must retain the above copyright
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notice, this list of conditions and the following disclaimer.
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* Redistributions in binary form must reproduce the above copyright
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notice, this list of conditions and the following disclaimer in the
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documentation and/or other materials provided with the distribution.
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* Neither the name of the copyright holder nor the
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names of its contributors may be used to endorse or promote products
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derived from this software without specific prior written permission.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
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ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
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FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
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SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
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CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
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OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#include "randomx.h"
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#include "dataset.hpp"
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#include "vm_interpreted.hpp"
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#include "vm_interpreted_light.hpp"
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#include "vm_compiled.hpp"
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#include "vm_compiled_light.hpp"
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#include "blake2/blake2.h"
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#include "cpu.hpp"
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#include <cassert>
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#include <limits>
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#if defined(__SSE__) || defined(__SSE2__) || (defined(_M_IX86_FP) && (_M_IX86_FP > 0))
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#define USE_CSR_INTRINSICS
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#include <xmmintrin.h>
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#else
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#include <cfenv>
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#endif
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extern "C" {
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randomx_flags randomx_get_flags() {
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randomx_flags flags = RANDOMX_HAVE_COMPILER ? RANDOMX_FLAG_JIT : RANDOMX_FLAG_DEFAULT;
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randomx::Cpu cpu;
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#ifdef RANDOMX_FORCE_SECURE
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if (flags == RANDOMX_FLAG_JIT) {
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flags |= RANDOMX_FLAG_SECURE;
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}
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#endif
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if (HAVE_AES && cpu.hasAes()) {
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flags |= RANDOMX_FLAG_HARD_AES;
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}
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if (randomx_argon2_impl_avx2() != nullptr && cpu.hasAvx2()) {
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flags |= RANDOMX_FLAG_ARGON2_AVX2;
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}
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if (randomx_argon2_impl_ssse3() != nullptr && cpu.hasSsse3()) {
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flags |= RANDOMX_FLAG_ARGON2_SSSE3;
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}
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return flags;
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}
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randomx_cache *randomx_alloc_cache(randomx_flags flags) {
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randomx_cache *cache = nullptr;
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auto impl = randomx::selectArgonImpl(flags);
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if (impl == nullptr) {
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return cache;
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}
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try {
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cache = new randomx_cache();
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cache->argonImpl = impl;
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switch ((int)(flags & (RANDOMX_FLAG_JIT | RANDOMX_FLAG_LARGE_PAGES))) {
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case RANDOMX_FLAG_DEFAULT:
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cache->dealloc = &randomx::deallocCache<randomx::DefaultAllocator>;
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cache->jit = nullptr;
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cache->initialize = &randomx::initCache;
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cache->datasetInit = &randomx::initDataset;
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cache->memory = (uint8_t*)randomx::DefaultAllocator::allocMemory(randomx::CacheSize);
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break;
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case RANDOMX_FLAG_JIT:
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cache->dealloc = &randomx::deallocCache<randomx::DefaultAllocator>;
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cache->jit = new randomx::JitCompiler();
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cache->initialize = &randomx::initCacheCompile;
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cache->datasetInit = cache->jit->getDatasetInitFunc();
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cache->memory = (uint8_t*)randomx::DefaultAllocator::allocMemory(randomx::CacheSize);
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break;
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case RANDOMX_FLAG_LARGE_PAGES:
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cache->dealloc = &randomx::deallocCache<randomx::LargePageAllocator>;
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cache->jit = nullptr;
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cache->initialize = &randomx::initCache;
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cache->datasetInit = &randomx::initDataset;
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cache->memory = (uint8_t*)randomx::LargePageAllocator::allocMemory(randomx::CacheSize);
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break;
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case RANDOMX_FLAG_JIT | RANDOMX_FLAG_LARGE_PAGES:
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cache->dealloc = &randomx::deallocCache<randomx::LargePageAllocator>;
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cache->jit = new randomx::JitCompiler();
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cache->initialize = &randomx::initCacheCompile;
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cache->datasetInit = cache->jit->getDatasetInitFunc();
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cache->memory = (uint8_t*)randomx::LargePageAllocator::allocMemory(randomx::CacheSize);
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break;
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default:
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UNREACHABLE;
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}
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}
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catch (std::exception &ex) {
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if (cache != nullptr) {
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randomx_release_cache(cache);
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cache = nullptr;
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}
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}
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if (cache && cache->memory == nullptr) {
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randomx_release_cache(cache);
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cache = nullptr;
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}
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return cache;
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}
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void randomx_init_cache(randomx_cache *cache, const void *key, size_t keySize) {
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assert(cache != nullptr);
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assert(keySize == 0 || key != nullptr);
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std::string cacheKey;
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cacheKey.assign((const char *)key, keySize);
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if (cache->cacheKey != cacheKey || !cache->isInitialized()) {
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cache->initialize(cache, key, keySize);
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cache->cacheKey = cacheKey;
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}
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}
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void randomx_release_cache(randomx_cache* cache) {
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assert(cache != nullptr);
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cache->dealloc(cache);
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delete cache;
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}
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randomx_dataset *randomx_alloc_dataset(randomx_flags flags) {
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//fail on 32-bit systems if DatasetSize is >= 4 GiB
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if (randomx::DatasetSize > std::numeric_limits<size_t>::max()) {
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return nullptr;
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}
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randomx_dataset *dataset = nullptr;
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try {
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dataset = new randomx_dataset();
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if (flags & RANDOMX_FLAG_LARGE_PAGES) {
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dataset->dealloc = &randomx::deallocDataset<randomx::LargePageAllocator>;
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dataset->memory = (uint8_t*)randomx::LargePageAllocator::allocMemory(randomx::DatasetSize);
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}
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else {
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dataset->dealloc = &randomx::deallocDataset<randomx::DefaultAllocator>;
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dataset->memory = (uint8_t*)randomx::DefaultAllocator::allocMemory(randomx::DatasetSize);
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}
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}
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catch (std::exception &ex) {
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if (dataset != nullptr) {
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randomx_release_dataset(dataset);
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dataset = nullptr;
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}
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}
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if (dataset && dataset->memory == nullptr) {
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randomx_release_dataset(dataset);
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dataset = nullptr;
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}
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return dataset;
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}
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constexpr unsigned long DatasetItemCount = randomx::DatasetSize / RANDOMX_DATASET_ITEM_SIZE;
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unsigned long randomx_dataset_item_count() {
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return DatasetItemCount;
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}
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void randomx_init_dataset(randomx_dataset *dataset, randomx_cache *cache, unsigned long startItem, unsigned long itemCount) {
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assert(dataset != nullptr);
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assert(cache != nullptr);
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assert(startItem < DatasetItemCount && itemCount <= DatasetItemCount);
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assert(startItem + itemCount <= DatasetItemCount);
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cache->datasetInit(cache, dataset->memory + startItem * randomx::CacheLineSize, startItem, startItem + itemCount);
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}
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void *randomx_get_dataset_memory(randomx_dataset *dataset) {
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assert(dataset != nullptr);
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return dataset->memory;
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}
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void randomx_release_dataset(randomx_dataset *dataset) {
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assert(dataset != nullptr);
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dataset->dealloc(dataset);
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delete dataset;
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}
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randomx_vm *randomx_create_vm(randomx_flags flags, randomx_cache *cache, randomx_dataset *dataset) {
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assert(cache != nullptr || (flags & RANDOMX_FLAG_FULL_MEM));
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assert(cache == nullptr || cache->isInitialized());
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assert(dataset != nullptr || !(flags & RANDOMX_FLAG_FULL_MEM));
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randomx_vm *vm = nullptr;
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try {
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switch ((int)(flags & (RANDOMX_FLAG_FULL_MEM | RANDOMX_FLAG_JIT | RANDOMX_FLAG_HARD_AES | RANDOMX_FLAG_LARGE_PAGES))) {
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case RANDOMX_FLAG_DEFAULT:
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vm = new randomx::InterpretedLightVmDefault();
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break;
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case RANDOMX_FLAG_FULL_MEM:
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vm = new randomx::InterpretedVmDefault();
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break;
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case RANDOMX_FLAG_JIT:
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if (flags & RANDOMX_FLAG_SECURE) {
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vm = new randomx::CompiledLightVmDefaultSecure();
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}
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else {
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vm = new randomx::CompiledLightVmDefault();
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}
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break;
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case RANDOMX_FLAG_FULL_MEM | RANDOMX_FLAG_JIT:
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if (flags & RANDOMX_FLAG_SECURE) {
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vm = new randomx::CompiledVmDefaultSecure();
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}
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else {
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vm = new randomx::CompiledVmDefault();
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}
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break;
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case RANDOMX_FLAG_HARD_AES:
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vm = new randomx::InterpretedLightVmHardAes();
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break;
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case RANDOMX_FLAG_FULL_MEM | RANDOMX_FLAG_HARD_AES:
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vm = new randomx::InterpretedVmHardAes();
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break;
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case RANDOMX_FLAG_JIT | RANDOMX_FLAG_HARD_AES:
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if (flags & RANDOMX_FLAG_SECURE) {
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vm = new randomx::CompiledLightVmHardAesSecure();
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}
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else {
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vm = new randomx::CompiledLightVmHardAes();
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}
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break;
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case RANDOMX_FLAG_FULL_MEM | RANDOMX_FLAG_JIT | RANDOMX_FLAG_HARD_AES:
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if (flags & RANDOMX_FLAG_SECURE) {
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vm = new randomx::CompiledVmHardAesSecure();
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}
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else {
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vm = new randomx::CompiledVmHardAes();
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}
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break;
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case RANDOMX_FLAG_LARGE_PAGES:
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vm = new randomx::InterpretedLightVmLargePage();
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break;
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case RANDOMX_FLAG_FULL_MEM | RANDOMX_FLAG_LARGE_PAGES:
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vm = new randomx::InterpretedVmLargePage();
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break;
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case RANDOMX_FLAG_JIT | RANDOMX_FLAG_LARGE_PAGES:
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if (flags & RANDOMX_FLAG_SECURE) {
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vm = new randomx::CompiledLightVmLargePageSecure();
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}
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else {
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vm = new randomx::CompiledLightVmLargePage();
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}
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break;
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case RANDOMX_FLAG_FULL_MEM | RANDOMX_FLAG_JIT | RANDOMX_FLAG_LARGE_PAGES:
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if (flags & RANDOMX_FLAG_SECURE) {
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vm = new randomx::CompiledVmLargePageSecure();
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}
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else {
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vm = new randomx::CompiledVmLargePage();
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}
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break;
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case RANDOMX_FLAG_HARD_AES | RANDOMX_FLAG_LARGE_PAGES:
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vm = new randomx::InterpretedLightVmLargePageHardAes();
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break;
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case RANDOMX_FLAG_FULL_MEM | RANDOMX_FLAG_HARD_AES | RANDOMX_FLAG_LARGE_PAGES:
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vm = new randomx::InterpretedVmLargePageHardAes();
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break;
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case RANDOMX_FLAG_JIT | RANDOMX_FLAG_HARD_AES | RANDOMX_FLAG_LARGE_PAGES:
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if (flags & RANDOMX_FLAG_SECURE) {
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vm = new randomx::CompiledLightVmLargePageHardAesSecure();
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}
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else {
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vm = new randomx::CompiledLightVmLargePageHardAes();
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}
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break;
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case RANDOMX_FLAG_FULL_MEM | RANDOMX_FLAG_JIT | RANDOMX_FLAG_HARD_AES | RANDOMX_FLAG_LARGE_PAGES:
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if (flags & RANDOMX_FLAG_SECURE) {
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vm = new randomx::CompiledVmLargePageHardAesSecure();
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}
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else {
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vm = new randomx::CompiledVmLargePageHardAes();
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}
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break;
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default:
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UNREACHABLE;
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}
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if(cache != nullptr) {
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vm->setCache(cache);
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vm->cacheKey = cache->cacheKey;
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}
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if(dataset != nullptr)
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vm->setDataset(dataset);
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vm->allocate();
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}
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catch (std::exception &ex) {
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delete vm;
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vm = nullptr;
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}
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return vm;
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}
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void randomx_vm_set_cache(randomx_vm *machine, randomx_cache* cache) {
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assert(machine != nullptr);
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assert(cache != nullptr && cache->isInitialized());
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if (machine->cacheKey != cache->cacheKey || machine->getMemory() != cache->memory) {
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machine->setCache(cache);
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machine->cacheKey = cache->cacheKey;
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}
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}
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void randomx_vm_set_dataset(randomx_vm *machine, randomx_dataset *dataset) {
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assert(machine != nullptr);
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assert(dataset != nullptr);
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machine->setDataset(dataset);
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}
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void randomx_destroy_vm(randomx_vm *machine) {
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assert(machine != nullptr);
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delete machine;
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}
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void randomx_calculate_hash(randomx_vm *machine, const void *input, size_t inputSize, void *output) {
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assert(machine != nullptr);
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assert(inputSize == 0 || input != nullptr);
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assert(output != nullptr);
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#ifdef USE_CSR_INTRINSICS
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const unsigned int fpstate = _mm_getcsr();
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#else
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fenv_t fpstate;
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fegetenv(&fpstate);
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#endif
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alignas(16) uint64_t tempHash[8];
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int blakeResult = blake2b(tempHash, sizeof(tempHash), input, inputSize, nullptr, 0);
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assert(blakeResult == 0);
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machine->initScratchpad(&tempHash);
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machine->resetRoundingMode();
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for (int chain = 0; chain < RANDOMX_PROGRAM_COUNT - 1; ++chain) {
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machine->run(&tempHash);
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blakeResult = blake2b(tempHash, sizeof(tempHash), machine->getRegisterFile(), sizeof(randomx::RegisterFile), nullptr, 0);
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assert(blakeResult == 0);
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}
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machine->run(&tempHash);
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machine->getFinalResult(output, RANDOMX_HASH_SIZE);
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#ifdef USE_CSR_INTRINSICS
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_mm_setcsr(fpstate);
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#else
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fesetenv(&fpstate);
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#endif
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}
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void randomx_calculate_hash_first(randomx_vm* machine, const void* input, size_t inputSize) {
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blake2b(machine->tempHash, sizeof(machine->tempHash), input, inputSize, nullptr, 0);
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machine->initScratchpad(machine->tempHash);
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}
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void randomx_calculate_hash_next(randomx_vm* machine, const void* nextInput, size_t nextInputSize, void* output) {
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machine->resetRoundingMode();
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for (uint32_t chain = 0; chain < RANDOMX_PROGRAM_COUNT - 1; ++chain) {
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machine->run(machine->tempHash);
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blake2b(machine->tempHash, sizeof(machine->tempHash), machine->getRegisterFile(), sizeof(randomx::RegisterFile), nullptr, 0);
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}
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machine->run(machine->tempHash);
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// Finish current hash and fill the scratchpad for the next hash at the same time
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blake2b(machine->tempHash, sizeof(machine->tempHash), nextInput, nextInputSize, nullptr, 0);
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machine->hashAndFill(output, RANDOMX_HASH_SIZE, machine->tempHash);
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}
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void randomx_calculate_hash_last(randomx_vm* machine, void* output) {
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machine->resetRoundingMode();
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for (int chain = 0; chain < RANDOMX_PROGRAM_COUNT - 1; ++chain) {
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machine->run(machine->tempHash);
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blake2b(machine->tempHash, sizeof(machine->tempHash), machine->getRegisterFile(), sizeof(randomx::RegisterFile), nullptr, 0);
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}
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machine->run(machine->tempHash);
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machine->getFinalResult(output, RANDOMX_HASH_SIZE);
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}
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void randomx_calculate_commitment(const void* input, size_t inputSize, const void* hash_in, void* com_out) {
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assert(inputSize == 0 || input != nullptr);
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assert(hash_in != nullptr);
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assert(com_out != nullptr);
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blake2b_state state;
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blake2b_init(&state, RANDOMX_HASH_SIZE);
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blake2b_update(&state, input, inputSize);
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blake2b_update(&state, hash_in, RANDOMX_HASH_SIZE);
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blake2b_final(&state, com_out, RANDOMX_HASH_SIZE);
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}
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}
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