#ifndef BOOST_THREAD_PTHREAD_RECURSIVE_MUTEX_HPP #define BOOST_THREAD_PTHREAD_RECURSIVE_MUTEX_HPP // (C) Copyright 2007-8 Anthony Williams // (C) Copyright 2011-2012 Vicente J. Botet Escriba // 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 #include #include #if defined BOOST_THREAD_PROVIDES_NESTED_LOCKS #include #endif #include #include #ifndef _WIN32 #include #endif #include #include #include #include #ifdef BOOST_THREAD_USES_CHRONO #include #include #endif #include #ifdef _POSIX_TIMEOUTS #if _POSIX_TIMEOUTS >= 0 #define BOOST_PTHREAD_HAS_TIMEDLOCK #endif #endif #if defined(BOOST_HAS_PTHREAD_MUTEXATTR_SETTYPE) && defined(BOOST_PTHREAD_HAS_TIMEDLOCK) #define BOOST_USE_PTHREAD_RECURSIVE_TIMEDLOCK #endif #include namespace boost { class recursive_mutex { private: pthread_mutex_t m; #ifndef BOOST_HAS_PTHREAD_MUTEXATTR_SETTYPE pthread_cond_t cond; bool is_locked; pthread_t owner; unsigned count; #endif public: BOOST_THREAD_NO_COPYABLE(recursive_mutex) recursive_mutex() { #ifdef BOOST_HAS_PTHREAD_MUTEXATTR_SETTYPE pthread_mutexattr_t attr; int const init_attr_res=pthread_mutexattr_init(&attr); if(init_attr_res) { boost::throw_exception(thread_resource_error(init_attr_res, "boost:: recursive_mutex constructor failed in pthread_mutexattr_init")); } int const set_attr_res=pthread_mutexattr_settype(&attr,PTHREAD_MUTEX_RECURSIVE); if(set_attr_res) { BOOST_VERIFY(!pthread_mutexattr_destroy(&attr)); boost::throw_exception(thread_resource_error(set_attr_res, "boost:: recursive_mutex constructor failed in pthread_mutexattr_settype")); } int const res=pthread_mutex_init(&m,&attr); if(res) { BOOST_VERIFY(!pthread_mutexattr_destroy(&attr)); boost::throw_exception(thread_resource_error(res, "boost:: recursive_mutex constructor failed in pthread_mutex_init")); } BOOST_VERIFY(!pthread_mutexattr_destroy(&attr)); #else int const res=pthread_mutex_init(&m,NULL); if(res) { boost::throw_exception(thread_resource_error(res, "boost:: recursive_mutex constructor failed in pthread_mutex_init")); } int const res2=pthread_cond_init(&cond,NULL); if(res2) { BOOST_VERIFY(!pthread_mutex_destroy(&m)); boost::throw_exception(thread_resource_error(res2, "boost:: recursive_mutex constructor failed in pthread_cond_init")); } is_locked=false; count=0; #endif } ~recursive_mutex() { BOOST_VERIFY(!pthread_mutex_destroy(&m)); #ifndef BOOST_HAS_PTHREAD_MUTEXATTR_SETTYPE BOOST_VERIFY(!pthread_cond_destroy(&cond)); #endif } #ifdef BOOST_HAS_PTHREAD_MUTEXATTR_SETTYPE void lock() { BOOST_VERIFY(!pthread_mutex_lock(&m)); } void unlock() { BOOST_VERIFY(!pthread_mutex_unlock(&m)); } bool try_lock() BOOST_NOEXCEPT { int const res=pthread_mutex_trylock(&m); BOOST_ASSERT(!res || res==EBUSY); return !res; } #define BOOST_THREAD_DEFINES_RECURSIVE_MUTEX_NATIVE_HANDLE typedef pthread_mutex_t* native_handle_type; native_handle_type native_handle() { return &m; } #else void lock() { boost::pthread::pthread_mutex_scoped_lock const local_lock(&m); if(is_locked && pthread_equal(owner,pthread_self())) { ++count; return; } while(is_locked) { BOOST_VERIFY(!pthread_cond_wait(&cond,&m)); } is_locked=true; ++count; owner=pthread_self(); } void unlock() { boost::pthread::pthread_mutex_scoped_lock const local_lock(&m); if(!--count) { is_locked=false; } BOOST_VERIFY(!pthread_cond_signal(&cond)); } bool try_lock() { boost::pthread::pthread_mutex_scoped_lock const local_lock(&m); if(is_locked && !pthread_equal(owner,pthread_self())) { return false; } is_locked=true; ++count; owner=pthread_self(); return true; } #endif #if defined BOOST_THREAD_PROVIDES_NESTED_LOCKS typedef unique_lock scoped_lock; typedef detail::try_lock_wrapper scoped_try_lock; #endif }; typedef recursive_mutex recursive_try_mutex; class recursive_timed_mutex { private: pthread_mutex_t m; #ifndef BOOST_USE_PTHREAD_RECURSIVE_TIMEDLOCK pthread_cond_t cond; bool is_locked; pthread_t owner; unsigned count; #endif public: BOOST_THREAD_NO_COPYABLE(recursive_timed_mutex) recursive_timed_mutex() { #ifdef BOOST_USE_PTHREAD_RECURSIVE_TIMEDLOCK pthread_mutexattr_t attr; int const init_attr_res=pthread_mutexattr_init(&attr); if(init_attr_res) { boost::throw_exception(thread_resource_error(init_attr_res, "boost:: recursive_timed_mutex constructor failed in pthread_mutexattr_init")); } int const set_attr_res=pthread_mutexattr_settype(&attr,PTHREAD_MUTEX_RECURSIVE); if(set_attr_res) { boost::throw_exception(thread_resource_error(set_attr_res, "boost:: recursive_timed_mutex constructor failed in pthread_mutexattr_settype")); } int const res=pthread_mutex_init(&m,&attr); if(res) { BOOST_VERIFY(!pthread_mutexattr_destroy(&attr)); boost::throw_exception(thread_resource_error(res, "boost:: recursive_timed_mutex constructor failed in pthread_mutex_init")); } BOOST_VERIFY(!pthread_mutexattr_destroy(&attr)); #else int const res=pthread_mutex_init(&m,NULL); if(res) { boost::throw_exception(thread_resource_error(res, "boost:: recursive_timed_mutex constructor failed in pthread_mutex_init")); } int const res2=pthread_cond_init(&cond,NULL); if(res2) { BOOST_VERIFY(!pthread_mutex_destroy(&m)); boost::throw_exception(thread_resource_error(res2, "boost:: recursive_timed_mutex constructor failed in pthread_cond_init")); } is_locked=false; count=0; #endif } ~recursive_timed_mutex() { BOOST_VERIFY(!pthread_mutex_destroy(&m)); #ifndef BOOST_USE_PTHREAD_RECURSIVE_TIMEDLOCK BOOST_VERIFY(!pthread_cond_destroy(&cond)); #endif } #if defined BOOST_THREAD_USES_DATETIME template bool timed_lock(TimeDuration const & relative_time) { return timed_lock(get_system_time()+relative_time); } #endif #ifdef BOOST_USE_PTHREAD_RECURSIVE_TIMEDLOCK void lock() { BOOST_VERIFY(!pthread_mutex_lock(&m)); } void unlock() { BOOST_VERIFY(!pthread_mutex_unlock(&m)); } bool try_lock() { int const res=pthread_mutex_trylock(&m); BOOST_ASSERT(!res || res==EBUSY); return !res; } private: bool do_try_lock_until(struct timespec const &timeout) { int const res=pthread_mutex_timedlock(&m,&timeout); BOOST_ASSERT(!res || res==ETIMEDOUT); return !res; } public: #else void lock() { boost::pthread::pthread_mutex_scoped_lock const local_lock(&m); if(is_locked && pthread_equal(owner,pthread_self())) { ++count; return; } while(is_locked) { BOOST_VERIFY(!pthread_cond_wait(&cond,&m)); } is_locked=true; ++count; owner=pthread_self(); } void unlock() { boost::pthread::pthread_mutex_scoped_lock const local_lock(&m); if(!--count) { is_locked=false; } BOOST_VERIFY(!pthread_cond_signal(&cond)); } bool try_lock() BOOST_NOEXCEPT { boost::pthread::pthread_mutex_scoped_lock const local_lock(&m); if(is_locked && !pthread_equal(owner,pthread_self())) { return false; } is_locked=true; ++count; owner=pthread_self(); return true; } private: bool do_try_lock_until(struct timespec const &timeout) { boost::pthread::pthread_mutex_scoped_lock const local_lock(&m); if(is_locked && pthread_equal(owner,pthread_self())) { ++count; return true; } while(is_locked) { int const cond_res=pthread_cond_timedwait(&cond,&m,&timeout); if(cond_res==ETIMEDOUT) { return false; } BOOST_ASSERT(!cond_res); } is_locked=true; ++count; owner=pthread_self(); return true; } public: #endif #if defined BOOST_THREAD_USES_DATETIME bool timed_lock(system_time const & abs_time) { struct timespec const ts=detail::to_timespec(abs_time); return do_try_lock_until(ts); } #endif #ifdef BOOST_THREAD_USES_CHRONO template bool try_lock_for(const chrono::duration& rel_time) { return try_lock_until(chrono::steady_clock::now() + rel_time); } template bool try_lock_until(const chrono::time_point& t) { using namespace chrono; system_clock::time_point s_now = system_clock::now(); typename Clock::time_point c_now = Clock::now(); return try_lock_until(s_now + ceil(t - c_now)); } template bool try_lock_until(const chrono::time_point& t) { using namespace chrono; typedef time_point nano_sys_tmpt; return try_lock_until(nano_sys_tmpt(ceil(t.time_since_epoch()))); } bool try_lock_until(const chrono::time_point& tp) { //using namespace chrono; chrono::nanoseconds d = tp.time_since_epoch(); timespec ts = boost::detail::to_timespec(d); return do_try_lock_until(ts); } #endif #define BOOST_THREAD_DEFINES_RECURSIVE_TIMED_MUTEX_NATIVE_HANDLE typedef pthread_mutex_t* native_handle_type; native_handle_type native_handle() { return &m; } #if defined BOOST_THREAD_PROVIDES_NESTED_LOCKS typedef unique_lock scoped_timed_lock; typedef detail::try_lock_wrapper scoped_try_lock; typedef scoped_timed_lock scoped_lock; #endif }; } #include #endif