#ifndef BOOST_WIN32_THREAD_PRIMITIVES_HPP #define BOOST_WIN32_THREAD_PRIMITIVES_HPP // win32_thread_primitives.hpp // // (C) Copyright 2005-7 Anthony Williams // (C) Copyright 2007 David Deakins // // 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 #include #include #include //#include #include #if BOOST_PLAT_WINDOWS_RUNTIME #include #endif #if defined( BOOST_USE_WINDOWS_H ) # include namespace boost { namespace detail { namespace win32 { typedef HANDLE handle; typedef SYSTEM_INFO system_info; typedef unsigned __int64 ticks_type; typedef FARPROC farproc_t; unsigned const infinite=INFINITE; unsigned const timeout=WAIT_TIMEOUT; handle const invalid_handle_value=INVALID_HANDLE_VALUE; unsigned const event_modify_state=EVENT_MODIFY_STATE; unsigned const synchronize=SYNCHRONIZE; unsigned const wait_abandoned=WAIT_ABANDONED; unsigned const create_event_initial_set = 0x00000002; unsigned const create_event_manual_reset = 0x00000001; unsigned const event_all_access = EVENT_ALL_ACCESS; unsigned const semaphore_all_access = SEMAPHORE_ALL_ACCESS; # ifdef BOOST_NO_ANSI_APIS # if BOOST_USE_WINAPI_VERSION < BOOST_WINAPI_VERSION_VISTA using ::CreateMutexW; using ::CreateEventW; using ::CreateSemaphoreW; # else using ::CreateMutexExW; using ::CreateEventExW; using ::CreateSemaphoreExW; # endif using ::OpenEventW; using ::GetModuleGandleW; # else using ::CreateMutexA; using ::CreateEventA; using ::OpenEventA; using ::CreateSemaphoreA; using ::GetModuleHandleA; # endif #if BOOST_PLAT_WINDOWS_RUNTIME using ::GetNativeSystemInfo; using ::GetTickCount64; #else using ::GetSystemInfo; using ::GetTickCount; #endif using ::CloseHandle; using ::ReleaseMutex; using ::ReleaseSemaphore; using ::SetEvent; using ::ResetEvent; using ::WaitForMultipleObjectsEx; using ::WaitForSingleObjectEx; using ::GetCurrentProcessId; using ::GetCurrentThreadId; using ::GetCurrentThread; using ::GetCurrentProcess; using ::DuplicateHandle; #if !BOOST_PLAT_WINDOWS_RUNTIME using ::SleepEx; using ::Sleep; using ::QueueUserAPC; using ::GetProcAddress; #endif } } } #elif defined( WIN32 ) || defined( _WIN32 ) || defined( __WIN32__ ) # ifdef UNDER_CE # ifndef WINAPI # ifndef _WIN32_WCE_EMULATION # define WINAPI __cdecl // Note this doesn't match the desktop definition # else # define WINAPI __stdcall # endif # endif # ifdef __cplusplus extern "C" { # endif typedef int BOOL; typedef unsigned long DWORD; typedef void* HANDLE; # include # ifdef __cplusplus } # endif # endif # ifdef __cplusplus extern "C" { # endif struct _SYSTEM_INFO; # ifdef __cplusplus } #endif namespace boost { namespace detail { namespace win32 { # ifdef _WIN64 typedef unsigned __int64 ulong_ptr; # else typedef unsigned long ulong_ptr; # endif typedef void* handle; typedef _SYSTEM_INFO system_info; typedef unsigned __int64 ticks_type; typedef int (__stdcall *farproc_t)(); unsigned const infinite=~0U; unsigned const timeout=258U; handle const invalid_handle_value=(handle)(-1); unsigned const event_modify_state=2; unsigned const synchronize=0x100000u; unsigned const wait_abandoned=0x00000080u; unsigned const create_event_initial_set = 0x00000002; unsigned const create_event_manual_reset = 0x00000001; unsigned const event_all_access = 0x1F0003; unsigned const semaphore_all_access = 0x1F0003; extern "C" { struct _SECURITY_ATTRIBUTES; # ifdef BOOST_NO_ANSI_APIS # if BOOST_USE_WINAPI_VERSION < BOOST_WINAPI_VERSION_VISTA __declspec(dllimport) void* __stdcall CreateMutexW(_SECURITY_ATTRIBUTES*,int,wchar_t const*); __declspec(dllimport) void* __stdcall CreateSemaphoreW(_SECURITY_ATTRIBUTES*,long,long,wchar_t const*); __declspec(dllimport) void* __stdcall CreateEventW(_SECURITY_ATTRIBUTES*,int,int,wchar_t const*); # else __declspec(dllimport) void* __stdcall CreateMutexExW(_SECURITY_ATTRIBUTES*,wchar_t const*,unsigned long,unsigned long); __declspec(dllimport) void* __stdcall CreateEventExW(_SECURITY_ATTRIBUTES*,wchar_t const*,unsigned long,unsigned long); __declspec(dllimport) void* __stdcall CreateSemaphoreExW(_SECURITY_ATTRIBUTES*,long,long,wchar_t const*,unsigned long,unsigned long); # endif __declspec(dllimport) void* __stdcall OpenEventW(unsigned long,int,wchar_t const*); __declspec(dllimport) void* __stdcall GetModuleHandleW(wchar_t const*); # else __declspec(dllimport) void* __stdcall CreateMutexA(_SECURITY_ATTRIBUTES*,int,char const*); __declspec(dllimport) void* __stdcall CreateSemaphoreA(_SECURITY_ATTRIBUTES*,long,long,char const*); __declspec(dllimport) void* __stdcall CreateEventA(_SECURITY_ATTRIBUTES*,int,int,char const*); __declspec(dllimport) void* __stdcall OpenEventA(unsigned long,int,char const*); __declspec(dllimport) void* __stdcall GetModuleHandleA(char const*); # endif #if BOOST_PLAT_WINDOWS_RUNTIME __declspec(dllimport) void __stdcall GetNativeSystemInfo(_SYSTEM_INFO*); __declspec(dllimport) ticks_type __stdcall GetTickCount64(); #else __declspec(dllimport) void __stdcall GetSystemInfo(_SYSTEM_INFO*); __declspec(dllimport) unsigned long __stdcall GetTickCount(); #endif __declspec(dllimport) int __stdcall CloseHandle(void*); __declspec(dllimport) int __stdcall ReleaseMutex(void*); __declspec(dllimport) unsigned long __stdcall WaitForSingleObjectEx(void*,unsigned long,int); __declspec(dllimport) unsigned long __stdcall WaitForMultipleObjectsEx(unsigned long nCount,void* const * lpHandles,int bWaitAll,unsigned long dwMilliseconds,int bAlertable); __declspec(dllimport) int __stdcall ReleaseSemaphore(void*,long,long*); __declspec(dllimport) int __stdcall DuplicateHandle(void*,void*,void*,void**,unsigned long,int,unsigned long); #if !BOOST_PLAT_WINDOWS_RUNTIME __declspec(dllimport) unsigned long __stdcall SleepEx(unsigned long,int); __declspec(dllimport) void __stdcall Sleep(unsigned long); typedef void (__stdcall *queue_user_apc_callback_function)(ulong_ptr); __declspec(dllimport) unsigned long __stdcall QueueUserAPC(queue_user_apc_callback_function,void*,ulong_ptr); __declspec(dllimport) farproc_t __stdcall GetProcAddress(void *, const char *); #endif # ifndef UNDER_CE __declspec(dllimport) unsigned long __stdcall GetCurrentProcessId(); __declspec(dllimport) unsigned long __stdcall GetCurrentThreadId(); __declspec(dllimport) void* __stdcall GetCurrentThread(); __declspec(dllimport) void* __stdcall GetCurrentProcess(); __declspec(dllimport) int __stdcall SetEvent(void*); __declspec(dllimport) int __stdcall ResetEvent(void*); # else using ::GetCurrentProcessId; using ::GetCurrentThreadId; using ::GetCurrentThread; using ::GetCurrentProcess; using ::SetEvent; using ::ResetEvent; # endif } } } } #else # error "Win32 functions not available" #endif #include namespace boost { namespace detail { namespace win32 { namespace detail { typedef ticks_type (__stdcall *gettickcount64_t)(); } #if !BOOST_PLAT_WINDOWS_RUNTIME extern "C" { #ifdef _MSC_VER long _InterlockedCompareExchange(long volatile *, long, long); #pragma intrinsic(_InterlockedCompareExchange) #elif defined(__MINGW64_VERSION_MAJOR) long _InterlockedCompareExchange(long volatile *, long, long); #else // Mingw doesn't provide intrinsics #define _InterlockedCompareExchange InterlockedCompareExchange #endif } // Borrowed from https://stackoverflow.com/questions/8211820/userland-interrupt-timer-access-such-as-via-kequeryinterrupttime-or-similar inline ticks_type __stdcall GetTickCount64emulation() { static volatile long count = 0xFFFFFFFF; unsigned long previous_count, current_tick32, previous_count_zone, current_tick32_zone; ticks_type current_tick64; previous_count = (unsigned long) _InterlockedCompareExchange(&count, 0, 0); current_tick32 = GetTickCount(); if(previous_count == 0xFFFFFFFF) { // count has never been written unsigned long initial_count; initial_count = current_tick32 >> 28; previous_count = (unsigned long) _InterlockedCompareExchange(&count, initial_count, 0xFFFFFFFF); current_tick64 = initial_count; current_tick64 <<= 28; current_tick64 += current_tick32 & 0x0FFFFFFF; return current_tick64; } previous_count_zone = previous_count & 15; current_tick32_zone = current_tick32 >> 28; if(current_tick32_zone == previous_count_zone) { // The top four bits of the 32-bit tick count haven't changed since count was last written. current_tick64 = previous_count; current_tick64 <<= 28; current_tick64 += current_tick32 & 0x0FFFFFFF; return current_tick64; } if(current_tick32_zone == previous_count_zone + 1 || (current_tick32_zone == 0 && previous_count_zone == 15)) { // The top four bits of the 32-bit tick count have been incremented since count was last written. _InterlockedCompareExchange(&count, previous_count + 1, previous_count); current_tick64 = previous_count + 1; current_tick64 <<= 28; current_tick64 += current_tick32 & 0x0FFFFFFF; return current_tick64; } // Oops, we weren't called often enough, we're stuck return 0xFFFFFFFF; } #else #endif inline detail::gettickcount64_t GetTickCount64_() { static detail::gettickcount64_t gettickcount64impl; if(gettickcount64impl) return gettickcount64impl; // GetTickCount and GetModuleHandle are not allowed in the Windows Runtime, // and kernel32 isn't used in Windows Phone. #if BOOST_PLAT_WINDOWS_RUNTIME gettickcount64impl = &GetTickCount64; #else farproc_t addr=GetProcAddress( #if !defined(BOOST_NO_ANSI_APIS) GetModuleHandleA("KERNEL32.DLL"), #else GetModuleHandleW(L"KERNEL32.DLL"), #endif "GetTickCount64"); if(addr) gettickcount64impl=(detail::gettickcount64_t) addr; else gettickcount64impl=&GetTickCount64emulation; #endif return gettickcount64impl; } enum event_type { auto_reset_event=false, manual_reset_event=true }; enum initial_event_state { event_initially_reset=false, event_initially_set=true }; inline handle create_event( #if !defined(BOOST_NO_ANSI_APIS) const char *mutex_name, #else const wchar_t *mutex_name, #endif event_type type, initial_event_state state) { #if !defined(BOOST_NO_ANSI_APIS) handle const res = win32::CreateEventA(0, type, state, mutex_name); #elif BOOST_USE_WINAPI_VERSION < BOOST_WINAPI_VERSION_VISTA handle const res = win32::CreateEventW(0, type, state, mutex_name); #else handle const res = win32::CreateEventExW( 0, mutex_name, type ? create_event_manual_reset : 0 | state ? create_event_initial_set : 0, event_all_access); #endif return res; } inline handle create_anonymous_event(event_type type,initial_event_state state) { handle const res = create_event(0, type, state); if(!res) { boost::throw_exception(thread_resource_error()); } return res; } inline handle create_anonymous_semaphore_nothrow(long initial_count,long max_count) { #if !defined(BOOST_NO_ANSI_APIS) handle const res=win32::CreateSemaphoreA(0,initial_count,max_count,0); #else #if BOOST_USE_WINAPI_VERSION < BOOST_WINAPI_VERSION_VISTA handle const res=win32::CreateSemaphoreEx(0,initial_count,max_count,0,0); #else handle const res=win32::CreateSemaphoreExW(0,initial_count,max_count,0,0,semaphore_all_access); #endif #endif return res; } inline handle create_anonymous_semaphore(long initial_count,long max_count) { handle const res=create_anonymous_semaphore_nothrow(initial_count,max_count); if(!res) { boost::throw_exception(thread_resource_error()); } return res; } inline handle duplicate_handle(handle source) { handle const current_process=GetCurrentProcess(); long const same_access_flag=2; handle new_handle=0; bool const success=DuplicateHandle(current_process,source,current_process,&new_handle,0,false,same_access_flag)!=0; if(!success) { boost::throw_exception(thread_resource_error()); } return new_handle; } inline void release_semaphore(handle semaphore,long count) { BOOST_VERIFY(ReleaseSemaphore(semaphore,count,0)!=0); } inline void get_system_info(system_info *info) { #if BOOST_PLAT_WINDOWS_RUNTIME win32::GetNativeSystemInfo(info); #else win32::GetSystemInfo(info); #endif } inline void sleep(unsigned long milliseconds) { if(milliseconds == 0) { #if BOOST_PLAT_WINDOWS_RUNTIME std::this_thread::yield(); #else ::boost::detail::win32::Sleep(0); #endif } else { #if BOOST_PLAT_WINDOWS_RUNTIME ::boost::detail::win32::WaitForSingleObjectEx(::boost::detail::win32::GetCurrentThread(), milliseconds, 0); #else ::boost::detail::win32::Sleep(milliseconds); #endif } } #if BOOST_PLAT_WINDOWS_RUNTIME class BOOST_THREAD_DECL scoped_winrt_thread { public: scoped_winrt_thread() : m_completionHandle(invalid_handle_value) {} ~scoped_winrt_thread() { if (m_completionHandle != ::boost::detail::win32::invalid_handle_value) { CloseHandle(m_completionHandle); } } typedef unsigned(__stdcall * thread_func)(void *); bool start(thread_func address, void *parameter, unsigned int *thrdId); handle waitable_handle() const { BOOST_ASSERT(m_completionHandle != ::boost::detail::win32::invalid_handle_value); return m_completionHandle; } private: handle m_completionHandle; }; #endif class BOOST_THREAD_DECL handle_manager { private: handle handle_to_manage; handle_manager(handle_manager&); handle_manager& operator=(handle_manager&); void cleanup() { if(handle_to_manage && handle_to_manage!=invalid_handle_value) { BOOST_VERIFY(CloseHandle(handle_to_manage)); } } public: explicit handle_manager(handle handle_to_manage_): handle_to_manage(handle_to_manage_) {} handle_manager(): handle_to_manage(0) {} handle_manager& operator=(handle new_handle) { cleanup(); handle_to_manage=new_handle; return *this; } operator handle() const { return handle_to_manage; } handle duplicate() const { return duplicate_handle(handle_to_manage); } void swap(handle_manager& other) { std::swap(handle_to_manage,other.handle_to_manage); } handle release() { handle const res=handle_to_manage; handle_to_manage=0; return res; } bool operator!() const { return !handle_to_manage; } ~handle_manager() { cleanup(); } }; } } } #if defined(BOOST_MSVC) && (_MSC_VER>=1400) && !defined(UNDER_CE) namespace boost { namespace detail { namespace win32 { #if _MSC_VER==1400 extern "C" unsigned char _interlockedbittestandset(long *a,long b); extern "C" unsigned char _interlockedbittestandreset(long *a,long b); #else extern "C" unsigned char _interlockedbittestandset(volatile long *a,long b); extern "C" unsigned char _interlockedbittestandreset(volatile long *a,long b); #endif #pragma intrinsic(_interlockedbittestandset) #pragma intrinsic(_interlockedbittestandreset) inline bool interlocked_bit_test_and_set(long* x,long bit) { return _interlockedbittestandset(x,bit)!=0; } inline bool interlocked_bit_test_and_reset(long* x,long bit) { return _interlockedbittestandreset(x,bit)!=0; } } } } #define BOOST_THREAD_BTS_DEFINED #elif (defined(BOOST_MSVC) || defined(BOOST_INTEL_WIN)) && defined(_M_IX86) namespace boost { namespace detail { namespace win32 { inline bool interlocked_bit_test_and_set(long* x,long bit) { #ifndef BOOST_INTEL_CXX_VERSION __asm { mov eax,bit; mov edx,x; lock bts [edx],eax; setc al; }; #else bool ret; __asm { mov eax,bit mov edx,x lock bts [edx],eax setc al mov ret, al }; return ret; #endif } inline bool interlocked_bit_test_and_reset(long* x,long bit) { #ifndef BOOST_INTEL_CXX_VERSION __asm { mov eax,bit; mov edx,x; lock btr [edx],eax; setc al; }; #else bool ret; __asm { mov eax,bit mov edx,x lock btr [edx],eax setc al mov ret, al }; return ret; #endif } } } } #define BOOST_THREAD_BTS_DEFINED #endif #ifndef BOOST_THREAD_BTS_DEFINED namespace boost { namespace detail { namespace win32 { inline bool interlocked_bit_test_and_set(long* x,long bit) { long const value=1< #endif