/* XMRig * Copyright 2010 Jeff Garzik * Copyright 2012-2014 pooler * Copyright 2014 Lucas Jones * Copyright 2014-2016 Wolf9466 * Copyright 2016 Jay D Dee * Copyright 2016-2017 XMRig * * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include "crypto/CryptoNight.h" #include "workers/DoubleWorker.h" #include "workers/Workers.h" class DoubleWorker::State { public: inline State() : nonce1(0), nonce2(0) {} Job job; uint32_t nonce1; uint32_t nonce2; uint8_t blob[84 * 2]; }; DoubleWorker::DoubleWorker(Handle *handle) : Worker(handle) { m_state = new State(); m_pausedState = new State(); } DoubleWorker::~DoubleWorker() { delete m_state; delete m_pausedState; } void DoubleWorker::start() { while (Workers::sequence() > 0) { if (Workers::isPaused()) { do { std::this_thread::sleep_for(std::chrono::milliseconds(200)); } while (Workers::isPaused()); consumeJob(); } while (!Workers::isOutdated(m_sequence)) { if ((m_count & 0xF) == 0) { storeStats(); } m_count += 2; *Job::nonce(m_state->blob) = ++m_state->nonce1; *Job::nonce(m_state->blob + m_state->job.size()) = ++m_state->nonce2; CryptoNight::hash(m_state->blob, m_state->job.size(), m_hash, m_ctx); if (*reinterpret_cast(m_hash + 24) < m_state->job.target()) { Workers::submit(JobResult(m_state->job.poolId(), m_state->job.id(), m_state->nonce1, m_hash, m_state->job.diff())); } if (*reinterpret_cast(m_hash + 32 + 24) < m_state->job.target()) { Workers::submit(JobResult(m_state->job.poolId(), m_state->job.id(), m_state->nonce2, m_hash + 32, m_state->job.diff())); } std::this_thread::yield(); } consumeJob(); } } bool DoubleWorker::resume(const Job &job) { if (m_state->job.poolId() == -1 && job.poolId() >= 0 && memcmp(job.id(), m_pausedState->job.id(), 64) == 0) { *m_state = *m_pausedState; return true; } return false; } void DoubleWorker::consumeJob() { Job job = Workers::job(); m_sequence = Workers::sequence(); if (m_state->job == job) { return; } save(job); if (resume(job)) { return; } m_state->job = std::move(job); memcpy(m_state->blob, m_state->job.blob(), m_state->job.size()); memcpy(m_state->blob + m_state->job.size(), m_state->job.blob(), m_state->job.size()); if (m_state->job.isNicehash()) { m_state->nonce1 = (*Job::nonce(m_state->blob) & 0xff000000U) + (0xffffffU / (m_threads * 2) * m_id); m_state->nonce2 = (*Job::nonce(m_state->blob + m_state->job.size()) & 0xff000000U) + (0xffffffU / (m_threads * 2) * (m_id + m_threads)); } else { m_state->nonce1 = 0xffffffffU / (m_threads * 2) * m_id; m_state->nonce2 = 0xffffffffU / (m_threads * 2) * (m_id + m_threads); } } void DoubleWorker::save(const Job &job) { if (job.poolId() == -1 && m_state->job.poolId() >= 0) { *m_pausedState = *m_state; } }