// Copyright Oliver Kowalke 2013. // Distributed under the Boost Software License, Version 1.0. // (See accompanying file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt) #include "boost/fiber/timed_mutex.hpp" #include #include #include "boost/fiber/detail/scheduler.hpp" #include "boost/fiber/interruption.hpp" #include "boost/fiber/operations.hpp" #ifdef BOOST_HAS_ABI_HEADERS # include BOOST_ABI_PREFIX #endif namespace boost { namespace fibers { timed_mutex::timed_mutex() : splk_(), state_( UNLOCKED), owner_(), waiting_() {} timed_mutex::~timed_mutex() { BOOST_ASSERT( ! owner_); BOOST_ASSERT( waiting_.empty() ); } void timed_mutex::lock() { detail::fiber_base * n( detail::scheduler::instance()->active() ); if ( n) { for (;;) { unique_lock< detail::spinlock > lk( splk_); if ( UNLOCKED == state_) { state_ = LOCKED; BOOST_ASSERT( ! owner_); owner_ = this_fiber::get_id(); return; } // store this fiber in order to be notified later BOOST_ASSERT( waiting_.end() == std::find( waiting_.begin(), waiting_.end(), n) ); waiting_.push_back( n); // suspend this fiber detail::scheduler::instance()->wait( lk); } } else { for (;;) { // local notification for main-fiber n = detail::scheduler::instance()->get_main_fiber(); unique_lock< detail::spinlock > lk( splk_); if ( UNLOCKED == state_) { state_ = LOCKED; BOOST_ASSERT( ! owner_); owner_ = this_fiber::get_id(); return; } // store this fiber in order to be notified later BOOST_ASSERT( waiting_.end() == std::find( waiting_.begin(), waiting_.end(), n) ); waiting_.push_back( n); lk.unlock(); // wait until main-fiber gets notified while ( ! n->is_ready() ) // run scheduler detail::scheduler::instance()->run(); } } } bool timed_mutex::try_lock() { unique_lock< detail::spinlock > lk( splk_); if ( UNLOCKED == state_) { state_ = LOCKED; BOOST_ASSERT( ! owner_); owner_ = this_fiber::get_id(); return true; } else { lk.unlock(); // let other fiber release the lock this_fiber::yield(); return false; } } bool timed_mutex::try_lock_until( clock_type::time_point const& timeout_time) { detail::fiber_base * n( detail::scheduler::instance()->active() ); if ( n) { for (;;) { unique_lock< detail::spinlock > lk( splk_); if ( clock_type::now() > timeout_time) return false; if ( UNLOCKED == state_) { state_ = LOCKED; BOOST_ASSERT( ! owner_); owner_ = this_fiber::get_id(); return true; } // store this fiber in order to be notified later BOOST_ASSERT( waiting_.end() == std::find( waiting_.begin(), waiting_.end(), n) ); waiting_.push_back( n); // suspend this fiber until notified or timed-out if ( ! detail::scheduler::instance()->wait_until( timeout_time, lk) ) { lk.lock(); // remove fiber from waiting-list waiting_.erase( std::find( waiting_.begin(), waiting_.end(), n) ); lk.unlock(); return false; } } } else { for (;;) { // local notification for main-fiber n = detail::scheduler::instance()->get_main_fiber(); unique_lock< detail::spinlock > lk( splk_); if ( clock_type::now() > timeout_time) return false; if ( UNLOCKED == state_) { state_ = LOCKED; BOOST_ASSERT( ! owner_); owner_ = this_fiber::get_id(); return true; } // store this fiber in order to be notified later BOOST_ASSERT( waiting_.end() == std::find( waiting_.begin(), waiting_.end(), n) ); waiting_.push_back( n); lk.unlock(); // wait until main-fiber gets notified while ( ! n->is_ready() ) { if ( clock_type::now() > timeout_time) { lk.lock(); // remove fiber from waiting-list waiting_.erase( std::find( waiting_.begin(), waiting_.end(), n) ); lk.unlock(); return false; } // run scheduler detail::scheduler::instance()->run(); } } } } void timed_mutex::unlock() { BOOST_ASSERT( LOCKED == state_); BOOST_ASSERT( this_fiber::get_id() == owner_); unique_lock< detail::spinlock > lk( splk_); detail::fiber_base * n = 0; if ( ! waiting_.empty() ) { n = waiting_.front(); waiting_.pop_front(); } owner_ = detail::worker_fiber::id(); state_ = UNLOCKED; lk.unlock(); if ( n) n->set_ready(); } }} #ifdef BOOST_HAS_ABI_HEADERS # include BOOST_ABI_SUFFIX #endif