/* Copyright (c) 2005-2016, Arvid Norberg, Steven Siloti All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. * Neither the name of the author nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "libtorrent/disk_io_thread_pool.hpp" #include "libtorrent/assert.hpp" #include namespace { constexpr std::chrono::seconds reap_idle_threads_interval(60); } namespace libtorrent { disk_io_thread_pool::disk_io_thread_pool(pool_thread_interface& thread_iface , io_service& ios) : m_thread_iface(thread_iface) , m_max_threads(0) , m_threads_to_exit(0) , m_abort(false) , m_num_idle_threads(0) , m_min_idle_threads(0) , m_idle_timer(ios) {} disk_io_thread_pool::~disk_io_thread_pool() { abort(true); } void disk_io_thread_pool::set_max_threads(int const i) { std::lock_guard l(m_mutex); if (i == m_max_threads) return; m_max_threads = i; if (int(m_threads.size()) < i) return; stop_threads(int(m_threads.size()) - i); } void disk_io_thread_pool::abort(bool wait) { std::unique_lock l(m_mutex); if (m_abort) return; m_max_threads = 0; m_abort = true; m_idle_timer.cancel(); stop_threads(int(m_threads.size())); for (auto& t : m_threads) { if (wait) { // must release m_mutex to avoid a deadlock if the thread // tries to acquire it l.unlock(); t.join(); l.lock(); } else t.detach(); } m_threads.clear(); } void disk_io_thread_pool::thread_active() { --m_num_idle_threads; TORRENT_ASSERT(m_num_idle_threads >= 0); int current_min = m_min_idle_threads; while (m_num_idle_threads < current_min && !m_min_idle_threads.compare_exchange_weak(current_min, m_num_idle_threads)); } bool disk_io_thread_pool::try_thread_exit(std::thread::id id) { int to_exit = m_threads_to_exit; while (to_exit > 0 && !m_threads_to_exit.compare_exchange_weak(to_exit, to_exit - 1)); if (to_exit > 0) { std::unique_lock l(m_mutex); if (!m_abort) { auto new_end = std::remove_if(m_threads.begin(), m_threads.end() , [id](std::thread& t) { if (t.get_id() == id) { t.detach(); return true; } return false; }); TORRENT_ASSERT(new_end != m_threads.end()); m_threads.erase(new_end, m_threads.end()); if (m_threads.empty()) m_idle_timer.cancel(); } } return to_exit > 0; } std::thread::id disk_io_thread_pool::first_thread_id() { std::lock_guard l(m_mutex); if (m_threads.empty()) return {}; return m_threads.front().get_id(); } void disk_io_thread_pool::job_queued(int const queue_size) { // this check is not strictly necessary // but do it to avoid acquiring the mutex in the trivial case if (m_num_idle_threads >= queue_size) return; std::lock_guard l(m_mutex); if (m_abort) return; // reduce the number of threads requested to stop if we're going to need // them for these new jobs int to_exit = m_threads_to_exit; while (to_exit > std::max(0, m_num_idle_threads - queue_size) && !m_threads_to_exit.compare_exchange_weak(to_exit , std::max(0, m_num_idle_threads - queue_size))); // now start threads until we either have enough to service // all queued jobs without blocking or hit the max for (int i = m_num_idle_threads ; i < queue_size && int(m_threads.size()) < m_max_threads ; ++i) { // if this is the first thread started, start the reaper timer if (m_threads.empty()) { m_idle_timer.expires_from_now(reap_idle_threads_interval); m_idle_timer.async_wait([this](error_code const& ec) { reap_idle_threads(ec); }); } // work keeps the io_service::run() call blocked from returning. // When shutting down, it's possible that the event queue is drained // before the disk_io_thread has posted its last callback. When this // happens, the io_service will have a pending callback from the // disk_io_thread, but the event loop is not running. this means // that the event is destructed after the disk_io_thread. If the // event refers to a disk buffer it will try to free it, but the // buffer pool won't exist anymore, and crash. This prevents that. m_threads.emplace_back(&pool_thread_interface::thread_fun , &m_thread_iface, std::ref(*this) , io_service::work(m_idle_timer.get_io_service())); } } void disk_io_thread_pool::reap_idle_threads(error_code const& ec) { // take the minimum number of idle threads during the last // sample period and request that many threads to exit if (ec) return; std::lock_guard l(m_mutex); if (m_abort) return; if (m_threads.empty()) return; m_idle_timer.expires_from_now(reap_idle_threads_interval); m_idle_timer.async_wait([this](error_code const& e) { reap_idle_threads(e); }); int const min_idle = m_min_idle_threads.exchange(m_num_idle_threads); if (min_idle <= 0) return; // stop either the minimum number of idle threads or the number of threads // which must be stopped to get below the max, whichever is larger int const to_stop = std::max(min_idle, int(m_threads.size()) - m_max_threads); stop_threads(to_stop); } void disk_io_thread_pool::stop_threads(int num_to_stop) { m_threads_to_exit = num_to_stop; m_thread_iface.notify_all(); } } // namespace libtorrent