boost/interprocess/detail/timed_utils.hpp
////////////////////////////////////////////////////////////////////////////// // // (C) Copyright Ion Gaztanaga 2021-2021. // // 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) // // See http://www.boost.org/libs/interprocess for documentation. // ////////////////////////////////////////////////////////////////////////////// #ifndef BOOST_INTERPROCESS_DETAIL_TIMED_UTILS_HPP #define BOOST_INTERPROCESS_DETAIL_TIMED_UTILS_HPP #ifndef BOOST_CONFIG_HPP # include <boost/config.hpp> #endif # #if defined(BOOST_HAS_PRAGMA_ONCE) # pragma once #endif #include <boost/interprocess/detail/config_begin.hpp> #include <boost/interprocess/detail/workaround.hpp> #include <boost/interprocess/detail/mpl.hpp> #include <boost/interprocess/detail/type_traits.hpp> #include <boost/intrusive/detail/mpl.hpp> #include <ctime> #include <boost/cstdint.hpp> //The following is used to support high precision time clocks #ifdef BOOST_HAS_GETTIMEOFDAY #include <sys/time.h> #endif #ifdef BOOST_HAS_FTIME #include <time.h> #include <boost/winapi/time.hpp> #endif namespace boost { namespace interprocess { namespace ipcdetail { BOOST_INTRUSIVE_INSTANTIATE_DEFAULT_TYPE_TMPLT(time_duration_type) BOOST_INTRUSIVE_INSTANTIATE_DEFAULT_TYPE_TMPLT(clock) BOOST_INTRUSIVE_INSTANTIATE_DEFAULT_TYPE_TMPLT(rep_type) BOOST_INTRUSIVE_INSTANTIATE_DEFAULT_TYPE_TMPLT(rep) template<class T> struct enable_if_ptime : enable_if_c< BOOST_INTRUSIVE_HAS_TYPE(boost::interprocess::ipcdetail::, T, time_duration_type) > {}; template<class T> struct disable_if_ptime : enable_if_c< ! BOOST_INTRUSIVE_HAS_TYPE(boost::interprocess::ipcdetail::, T, time_duration_type) > {}; template<class T> struct enable_if_ptime_duration : enable_if_c< BOOST_INTRUSIVE_HAS_TYPE(boost::interprocess::ipcdetail::, T, rep_type) > {}; template<class T> struct enable_if_time_point : enable_if_c< BOOST_INTRUSIVE_HAS_TYPE(boost::interprocess::ipcdetail::, T, clock) > {}; template<class T> struct enable_if_duration : enable_if_c< BOOST_INTRUSIVE_HAS_TYPE(boost::interprocess::ipcdetail::, T, rep) > {}; #if defined(BOOST_INTERPROCESS_HAS_REENTRANT_STD_FUNCTIONS) inline std::tm* interprocess_gmtime(const std::time_t* t, std::tm* result) { // gmtime_r() not in namespace std??? #if defined(__VMS) && __INITIAL_POINTER_SIZE == 64 std::tm tmp; if(!gmtime_r(t,&tmp)) result = 0; else *result = tmp; #else result = gmtime_r(t, result); #endif return result; } #else // BOOST_DATE_TIME_HAS_REENTRANT_STD_FUNCTIONS #if defined(__clang__) // Clang has to be checked before MSVC # pragma clang diagnostic push # pragma clang diagnostic ignored "-Wdeprecated-declarations" #elif (defined(_MSC_VER) && (_MSC_VER >= 1400)) # pragma warning(push) // preserve warning settings # pragma warning(disable : 4996) // disable depricated localtime/gmtime warning on vc8 #endif inline std::tm* interprocess_gmtime(const std::time_t* t, std::tm* result) { result = std::gmtime(t); return result; } #if defined(__clang__) // Clang has to be checked before MSVC # pragma clang diagnostic pop #elif (defined(_MSC_VER) && (_MSC_VER >= 1400)) # pragma warning(pop) // restore warnings to previous state #endif #endif // BOOST_DATE_TIME_HAS_REENTRANT_STD_FUNCTIONS #if defined(BOOST_HAS_FTIME) /*! * The function converts file_time into number of microseconds elapsed since 1970-Jan-01 * * \note Only dates after 1970-Jan-01 are supported. Dates before will be wrapped. */ inline boost::uint64_t file_time_to_microseconds(const boost::winapi::FILETIME_ & ft) { // shift is difference between 1970-Jan-01 & 1601-Jan-01 // in 100-nanosecond units const boost::uint64_t shift = 116444736000000000ULL; // (27111902 << 32) + 3577643008 // 100-nanos since 1601-Jan-01 boost::uint64_t ft_as_integer = (static_cast< boost::uint64_t >(ft.dwHighDateTime) << 32) | static_cast< boost::uint64_t >(ft.dwLowDateTime); ft_as_integer -= shift; // filetime is now 100-nanos since 1970-Jan-01 return (ft_as_integer / 10U); // truncate to microseconds } #endif class ustime; class usduration { public: friend class ustime; explicit usduration(boost::uint64_t microsecs) : m_microsecs(microsecs) {} boost::uint64_t get_microsecs() const { return m_microsecs; } bool operator < (const usduration &other) const { return m_microsecs < other.m_microsecs; } bool operator > (const usduration &other) const { return m_microsecs > other.m_microsecs; } bool operator <= (const usduration &other) const { return m_microsecs <= other.m_microsecs; } bool operator >= (const usduration &other) const { return m_microsecs >= other.m_microsecs; } private: boost::uint64_t m_microsecs; }; class ustime { public: explicit ustime(boost::uint64_t microsecs) : m_microsecs(microsecs) {} ustime &operator += (const usduration &other) { m_microsecs += other.m_microsecs; return *this; } ustime operator + (const usduration &other) { ustime r(*this); r += other; return r; } ustime &operator -= (const usduration &other) { m_microsecs -= other.m_microsecs; return *this; } ustime operator - (const usduration &other) { ustime r(*this); r -= other; return r; } friend usduration operator - (const ustime &l, const ustime &r) { return usduration(l.m_microsecs - r.m_microsecs); } bool operator < (const ustime &other) const { return m_microsecs < other.m_microsecs; } bool operator > (const ustime &other) const { return m_microsecs > other.m_microsecs; } bool operator <= (const ustime &other) const { return m_microsecs <= other.m_microsecs; } bool operator >= (const ustime &other) const { return m_microsecs >= other.m_microsecs; } boost::uint64_t get_microsecs() const { return m_microsecs; } private: boost::uint64_t m_microsecs; }; inline usduration usduration_milliseconds(boost::uint64_t millisec) { return usduration(millisec*1000u); } inline usduration usduration_seconds(boost::uint64_t sec) { return usduration(sec*uint64_t(1000000u)); } template<class TimeType, class Enable = void> class microsec_clock; template<class TimeType> class microsec_clock<TimeType, typename enable_if_ptime<TimeType>::type> { private: typedef typename TimeType::date_type date_type; typedef typename TimeType::time_duration_type time_duration_type; typedef typename time_duration_type::rep_type resolution_traits_type; public: static TimeType universal_time() { #ifdef BOOST_HAS_GETTIMEOFDAY timeval tv; gettimeofday(&tv, 0); //gettimeofday does not support TZ adjust on Linux. std::time_t t = tv.tv_sec; boost::uint32_t sub_sec = static_cast<boost::uint32_t>(tv.tv_usec); #elif defined(BOOST_HAS_FTIME) boost::winapi::FILETIME_ ft; boost::winapi::GetSystemTimeAsFileTime(&ft); boost::uint64_t micros = file_time_to_microseconds(ft); // it will not wrap, since ft is the current time // and cannot be before 1970-Jan-01 std::time_t t = static_cast<std::time_t>(micros / 1000000UL); // seconds since epoch // microseconds -- static casts suppress warnings boost::uint32_t sub_sec = static_cast<boost::uint32_t>(micros % 1000000UL); #else #error "Unsupported date-time error: neither gettimeofday nor FILETIME support is detected" #endif std::tm curr; std::tm* curr_ptr = interprocess_gmtime(&t, &curr); date_type d(static_cast< typename date_type::year_type::value_type >(curr_ptr->tm_year + 1900), static_cast< typename date_type::month_type::value_type >(curr_ptr->tm_mon + 1), static_cast< typename date_type::day_type::value_type >(curr_ptr->tm_mday)); //The following line will adjust the fractional second tick in terms //of the current time system. For example, if the time system //doesn't support fractional seconds then res_adjust returns 0 //and all the fractional seconds return 0. unsigned adjust = static_cast< unsigned >(resolution_traits_type::res_adjust() / 1000000); time_duration_type td(static_cast< typename time_duration_type::hour_type >(curr_ptr->tm_hour), static_cast< typename time_duration_type::min_type >(curr_ptr->tm_min), static_cast< typename time_duration_type::sec_type >(curr_ptr->tm_sec), static_cast< typename time_duration_type::fractional_seconds_type >(sub_sec * adjust) ); return TimeType(d,td); } }; template<> class microsec_clock<ustime> { public: static ustime universal_time() { #ifdef BOOST_HAS_GETTIMEOFDAY timeval tv; gettimeofday(&tv, 0); //gettimeofday does not support TZ adjust on Linux. boost::uint64_t micros = boost::uint64_t(tv.tv_sec)*1000000; micros += (boost::uint64_t)tv.tv_usec; #elif defined(BOOST_HAS_FTIME) boost::winapi::FILETIME_ ft; boost::winapi::GetSystemTimeAsFileTime(&ft); boost::uint64_t micros = file_time_to_microseconds(ft); // it will not wrap, since ft is the current time // and cannot be before 1970-Jan-01 #else #error "Unsupported date-time error: neither gettimeofday nor FILETIME support is detected" #endif return ustime(micros); } }; template<class TimePoint> class microsec_clock<TimePoint, typename enable_if_time_point<TimePoint>::type> { public: static TimePoint universal_time() { return TimePoint::clock::now(); } }; template<class TimePoint> inline TimePoint delay_ms(unsigned msecs, typename enable_if_ptime<TimePoint>::type* = 0) { typedef typename TimePoint::time_duration_type time_duration_type; typedef typename time_duration_type::rep_type resolution_traits_type; time_duration_type td(msecs*1000*resolution_traits_type::res_adjust()); TimePoint tp(microsec_clock<TimePoint>::universal_time()); return (tp += td); } template<class TimePoint> inline bool is_pos_infinity(const TimePoint &abs_time, typename enable_if_ptime<TimePoint>::type* = 0) { return abs_time.is_pos_infinity(); } template<class TimePoint> inline bool is_pos_infinity(const TimePoint &, typename disable_if_ptime<TimePoint>::type* = 0) { return false; } /* template<class Duration> inline ustime duration_to_timepoint(const Duration &dur, typename enable_if_ptime<Duration>::type* = 0) { return dur.is_pos_infinity(); } template<class Duration> inline bool duration_to_timepoint(const Duration &, typename disable_if_ptime<Duration>::type* = 0) { return false; } */ // duration_to_milliseconds template<class Duration> inline boost::uint64_t duration_to_milliseconds(const Duration &abs_time, typename enable_if_ptime_duration<Duration>::type* = 0) { return static_cast<boost::uint64_t>(abs_time.total_milliseconds()); } template<class Duration> inline boost::uint64_t duration_to_milliseconds(const Duration &d, typename enable_if_duration<Duration>::type* = 0) { const double factor = double(Duration::period::num)*1000.0/double(Duration::period::den); return static_cast<boost::uint64_t>(double(d.count())*factor); } inline boost::uint64_t duration_to_milliseconds(const usduration &d) { return d.get_microsecs()/1000; } // duration_to_usduration template<class Duration> inline usduration duration_to_usduration(const Duration &d, typename enable_if_ptime_duration<Duration>::type* = 0) { return usduration(static_cast<boost::uint64_t>(d.total_microseconds())); } template<class Duration> inline usduration duration_to_usduration(const Duration &d, typename enable_if_duration<Duration>::type* = 0) { const double factor = double(Duration::period::num)*1000000.0/double(Duration::period::den); return usduration(static_cast<boost::uint64_t>(double(d.count())*factor)); } // duration_to_ustime template<class Duration> inline ustime duration_to_ustime(const Duration &d) { return microsec_clock<ustime>::universal_time() + (duration_to_usduration)(d); } } //namespace ipcdetail { } //namespace interprocess { } //namespace boost { #include <boost/interprocess/detail/config_end.hpp> #endif //#ifndef BOOST_INTERPROCESS_DETAIL_TIMED_UTILS_HPP