// NeL - MMORPG Framework // Copyright (C) 2010 Winch Gate Property Limited // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as // published by the Free Software Foundation, either version 3 of the // License, or (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . #include "stdmisc.h" #ifndef _GNU_SOURCE #define _GNU_SOURCE #endif // _GNU_SOURCE #include "nel/misc/mutex.h" #include "nel/misc/time_nl.h" #include "nel/misc/debug.h" using namespace std; #ifndef MUTEX_DEBUG #define debugCreateMutex() ; #define debugBeginEnter() ; #define debugEndEnter() ; #define debugLeave() ; #define debugDeleteMutex() ; #endif /**************** * Windows code * ****************/ #ifdef NL_OS_WINDOWS #ifdef DEBUG_NEW #define new DEBUG_NEW #endif namespace NLMISC { inline void EnterMutex( void *handle ) { #ifdef NL_DEBUG DWORD timeout; if ( IsDebuggerPresent() ) timeout = INFINITE; else timeout = 10000; // Request ownership of mutex DWORD dwWaitResult = WaitForSingleObject (handle, timeout); #else // Request ownership of mutex during 10s DWORD dwWaitResult = WaitForSingleObject (handle, 10000); #endif // NL_DEBUG switch (dwWaitResult) { // The thread got mutex ownership. case WAIT_OBJECT_0: break; // Cannot get mutex ownership due to time-out. case WAIT_TIMEOUT: nlerror ("Dead lock in a mutex (or more that 10s for the critical section"); // Got ownership of the abandoned mutex object. case WAIT_ABANDONED: nlerror ("A thread forgot to release the mutex"); default: nlerror ("EnterMutex failed"); } } inline void LeaveMutex( void *handle ) { if (ReleaseMutex(handle) == 0) { //LPVOID lpMsgBuf; //FormatMessage( FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, // NULL, GetLastError(), MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), (LPTSTR) &lpMsgBuf, 0, NULL );*/ nlerror ("error while releasing the mutex (0x%x %d), %p", GetLastError(), GetLastError(), handle); //LocalFree( lpMsgBuf ); } } /////////////////////////// CUnfairMutex /* * Windows version */ CUnfairMutex::CUnfairMutex() { // Create a mutex with no initial owner. _Mutex = (void *) CreateMutex( NULL, FALSE, NULL ); nlassert( _Mutex != NULL ); } CUnfairMutex::CUnfairMutex( const std::string & /* name */ ) { // Create a mutex with no initial owner. _Mutex = (void *) CreateMutex( NULL, FALSE, NULL ); nlassert( _Mutex != NULL ); // (Does not use name, only provided for debug compatibility with CFairMutex) } /* * Windows version */ CUnfairMutex::~CUnfairMutex() { CloseHandle( _Mutex ); } /* * Windows version */ void CUnfairMutex::enter() { EnterMutex( _Mutex ); } /* * Windows version */ void CUnfairMutex::leave() { LeaveMutex( _Mutex ); } /////////////////////////// CSharedMutexW /* * */ CSharedMutex::CSharedMutex() { _Mutex = NULL; } /* * Create or use an existing mutex (created by another process) with a specific object name (createNow must be false in the constructor) * Returns false if it failed. */ bool CSharedMutex::createByName( const char *objectName ) { #ifdef NL_DEBUG nlassert( _Mutex == NULL ); #endif _Mutex = (void *) CreateMutex( NULL, FALSE, objectName ); //nldebug( "Creating mutex %s: handle %p", objectName, _Mutex ); return ( _Mutex != NULL ); } /* * */ void CSharedMutex::destroy() { CloseHandle( _Mutex ); _Mutex = NULL; } /* * */ void CSharedMutex::enter() { EnterMutex( _Mutex ); } /* * */ void CSharedMutex::leave() { LeaveMutex( _Mutex ); } /////////////////////////// CFairMutex /* * Windows version */ CFairMutex::CFairMutex() { #ifdef STORE_MUTEX_NAME Name = "unset mutex name"; #endif debugCreateMutex(); // Check that the CRITICAL_SECTION structure has not changed nlassert( sizeof(TNelRtlCriticalSection)==sizeof(CRITICAL_SECTION) ); #if (_WIN32_WINNT >= 0x0500) DWORD dwSpinCount = 0x80000000; // set high-order bit to use preallocation if ( ! InitializeCriticalSectionAndSpinCount( (CRITICAL_SECTION*)&_Cs, dwSpinCount ) ) { nlerror( "Error entering critical section" ); } #else InitializeCriticalSection( (CRITICAL_SECTION*)&_Cs ); #endif } CFairMutex::CFairMutex(const string &name) { #ifdef STORE_MUTEX_NAME Name = name; #endif #ifdef MUTEX_DEBUG debugCreateMutex(); #endif // Check that the CRITICAL_SECTION structure has not changed nlassert( sizeof(TNelRtlCriticalSection)==sizeof(CRITICAL_SECTION) ); #if (_WIN32_WINNT >= 0x0500) DWORD dwSpinCount = 0x80000000; // set high-order bit to use preallocation if ( ! InitializeCriticalSectionAndSpinCount( (CRITICAL_SECTION*)&_Cs, dwSpinCount ) ) { nlerror( "Error entering critical section" ); } #else InitializeCriticalSection( (CRITICAL_SECTION*)&_Cs ); #endif } /* * Windows version */ CFairMutex::~CFairMutex() { DeleteCriticalSection( (CRITICAL_SECTION*)&_Cs ); debugDeleteMutex(); } /* * Windows version */ void CFairMutex::enter() { debugBeginEnter(); EnterCriticalSection( (CRITICAL_SECTION*)&_Cs ); debugEndEnter(); } /* * Windows version */ void CFairMutex::leave() { LeaveCriticalSection( (CRITICAL_SECTION*)&_Cs ); debugLeave(); } /************* * Unix code * *************/ #elif defined NL_OS_UNIX #include #include #include #include #include #include // System V semaphores /* * Clanlib authors say: "We need to do this because the posix threads library * under linux obviously suck:" */ extern "C" { int pthread_mutexattr_setkind_np( pthread_mutexattr_t *attr, int kind ); } namespace NLMISC { CUnfairMutex::CUnfairMutex() { pthread_mutexattr_t attr; pthread_mutexattr_init( &attr ); // Fast mutex. Note: on Windows all mutexes are recursive pthread_mutexattr_settype( &attr, PTHREAD_MUTEX_RECURSIVE ); pthread_mutex_init( &mutex, &attr ); pthread_mutexattr_destroy( &attr ); } /* * Unix version */ CUnfairMutex::CUnfairMutex(const std::string &name) { pthread_mutexattr_t attr; pthread_mutexattr_init( &attr ); // Fast mutex. Note: on Windows all mutexes are recursive pthread_mutexattr_settype( &attr, PTHREAD_MUTEX_RECURSIVE ); pthread_mutex_init( &mutex, &attr ); pthread_mutexattr_destroy( &attr ); } /* * Unix version */ CUnfairMutex::~CUnfairMutex() { pthread_mutex_destroy( &mutex ); } /* * Unix version */ void CUnfairMutex::enter() { //cout << getpid() << ": Locking " << &mutex << endl; if ( pthread_mutex_lock( &mutex ) != 0 ) { //cout << "Error locking a mutex " << endl; nlerror( "Error locking a mutex" ); } /*else { cout << getpid() << ": Owning " << &mutex << endl; }*/ } /* * Unix version */ void CUnfairMutex::leave() { //int errcode; //cout << getpid() << ": Unlocking " << &mutex << endl; if ( (/*errcode=*/pthread_mutex_unlock( &mutex )) != 0 ) { /* switch ( errcode ) { case EINVAL: cout << "INVAL" << endl; break; case EPERM: cout << "PERM" << endl; break; default: cout << "OTHER" << endl; } */ //cout << "Error unlocking a mutex " /*<< &mutex*/ << endl; nlerror( "Error unlocking a mutex" ); } /*else { cout << getpid() << ": Released " << &mutex << endl; }*/ } /* * Unix version */ CFairMutex::CFairMutex() { #ifdef NL_OS_MAC _Sem = dispatch_semaphore_create(1); #else sem_init( const_cast(&_Sem), 0, 1 ); #endif } CFairMutex::CFairMutex( const std::string &name ) { #ifdef NL_OS_MAC _Sem = dispatch_semaphore_create(1); #else sem_init( const_cast(&_Sem), 0, 1 ); #endif } /* * Unix version */ CFairMutex::~CFairMutex() { #ifdef NL_OS_MAC dispatch_release(_Sem); #else sem_destroy( const_cast(&_Sem) ); // needs that no thread is waiting on the semaphore #endif } /* * Unix version */ void CFairMutex::enter() { #ifdef NL_OS_MAC dispatch_semaphore_wait(_Sem, DISPATCH_TIME_FOREVER); #else sem_wait( const_cast(&_Sem) ); #endif } /* * Unix version */ void CFairMutex::leave() { #ifdef NL_OS_MAC dispatch_semaphore_signal(_Sem); #else sem_post( const_cast(&_Sem) ); #endif } /////////////////////////////////////////////////////////////////////////////////////////////////////////////// /* * */ CSharedMutex::CSharedMutex() : _SemId(-1) {} #if defined(__GNU_LIBRARY__) && !defined(_SEM_SEMUN_UNDEFINED) /* union semun is defined by including */ #else /* according to X/OPEN we have to define it ourselves */ union semun { int val; /* value for SETVAL */ struct semid_ds *buf; /* buffer for IPC_STAT, IPC_SET */ unsigned short int *array; /* array for GETALL, SETALL */ struct seminfo *__buf; /* buffer for IPC_INFO */ }; #endif /* * */ bool CSharedMutex::createByKey( int key, bool createNew ) { // Create a semaphore set containing one semaphore /*key_t mykey = ftok(".", 'n'); _SemId = semget( mykey, 1, IPC_CREAT | IPC_EXCL | 0666 );*/ if ( createNew ) _SemId = semget( key, 1, IPC_CREAT | IPC_EXCL | 0666 ); else _SemId = semget( key, 1, 0666 ); nldebug( "Got semid %d", _SemId ); if( _SemId == -1 ) return false; // Initialise the semaphore to 1 union semun arg; arg.val = 1; if ( semctl( _SemId, 0, SETVAL, arg ) == -1 ) { nlwarning( "semid=%d, err=%s", _SemId, strerror(errno) ); return false; } return true; } /* * */ void CSharedMutex::destroy() { // Destroy the semaphore union semun arg; nlverifyex( semctl( _SemId, 0, IPC_RMID, arg ) != -1, ("semid=%d, err=%s", _SemId, strerror(errno) ) ); _SemId = -1; } /* * */ void CSharedMutex::enter() { // Decrement the semaphore sembuf buf; buf.sem_num = 0; buf.sem_op = -1; nlverify( semop( _SemId, &buf, 1 ) != -1); } /* * */ void CSharedMutex::leave() { // Increment the semaphore sembuf buf; buf.sem_num = 0; buf.sem_op = 1; nlverify( semop( _SemId, &buf, 1 ) != -1); } #endif // NL_OS_WINDOWS/NL_OS_UNIX /****************** * Debugging code * ******************/ #ifdef MUTEX_DEBUG map *AcquireTime = NULL; uint32 NbMutexes = 0; CFairMutex *ATMutex = NULL; bool InitAT = true; /// Inits the "mutex debugging info system" void initAcquireTimeMap() { if ( InitAT ) { ATMutex = new CFairMutex("ATMutex"); AcquireTime = new map; InitAT = false; } } /// Gets the debugging info for all mutexes (call it evenly, e.g. once per second) map getNewAcquireTimes() { map m; ATMutex->enter(); // Copy map m = *AcquireTime; // Reset map /* map::iterator im; for ( im=AcquireTime->begin(); im!=AcquireTime->end(); ++im ) { (*im).second.Time = 0; (*im).second.Nb = 0; (*im).second.Locked = false; } */ ATMutex->leave(); return m; } //////////////////////// //////////////////////// void CFairMutex::debugCreateMutex() { /* if ( ! InitAT ) { ATMutex->enter(); AcquireTime->insert( make_pair( this, TMutexLocks(NbMutexes) ) ); NbMutexes++; ATMutex->leave(); char dbgstr [256]; #ifdef STORE_MUTEX_NAME smprintf( dbgstr, 256, "MUTEX: Creating mutex %p %s (number %u)\n", this, Name.c_str(), NbMutexes-1 ); #else smprintf( dbgstr, 256, "MUTEX: Creating mutex %p (number %u)\n", this, NbMutexes-1 ); #endif #ifdef NL_OS_WINDOWS if ( IsDebuggerPresent() ) OutputDebugString( dbgstr ); #endif cout << dbgstr << endl; } */} void CFairMutex::debugDeleteMutex() { if ( (this!=ATMutex ) && (ATMutex!=NULL) ) { ATMutex->enter(); (*AcquireTime)[this].Dead = true; ATMutex->leave(); } } void CFairMutex::debugBeginEnter() { if ( (this!=ATMutex ) && (ATMutex!=NULL) ) { TTicks t = CTime::getPerformanceTime(); ATMutex->enter(); std::map::iterator it = (*AcquireTime).find (this); if (it == (*AcquireTime).end()) { AcquireTime->insert( make_pair( this, TMutexLocks(NbMutexes++) ) ); char dbgstr [256]; #ifdef STORE_MUTEX_NAME smprintf( dbgstr, 256, "MUTEX: Creating mutex %p %s (number %u)\n", this, Name.c_str(), NbMutexes-1 ); #else smprintf( dbgstr, 256, "MUTEX: Creating mutex %p (number %u)\n", this, NbMutexes-1 ); #endif #ifdef NL_OS_WINDOWS if ( IsDebuggerPresent() ) OutputDebugString( dbgstr ); #endif cout << dbgstr << endl; it = (*AcquireTime).find (this); #ifdef STORE_MUTEX_NAME (*it).second.MutexName = Name; #endif } (*it).second.WaitingMutex++; (*it).second.BeginEnter = t; ATMutex->leave(); } } void CFairMutex::debugEndEnter() { // printf("1"); /* char str[1024]; sprintf(str, "enter %8p %8p %8p\n", this, _Mutex, getThreadId ()); if (_Mutex == (void*)0x88) { OutputDebugString (str); if (entered) __asm int 3; entered = true; } */ if ( ( this != ATMutex ) && ( ATMutex != NULL ) ) { TTicks t = CTime::getPerformanceTime(); ATMutex->enter(); if ((uint32)(t-(*AcquireTime)[this].BeginEnter) > (*AcquireTime)[this].TimeToEnter) (*AcquireTime)[this].TimeToEnter = (uint32)(t-(*AcquireTime)[this].BeginEnter); (*AcquireTime)[this].Nb += 1; (*AcquireTime)[this].WaitingMutex--; (*AcquireTime)[this].ThreadHavingTheMutex = getThreadId(); (*AcquireTime)[this].EndEnter = t; ATMutex->leave(); } } void CFairMutex::debugLeave() { // printf( "0" ); /* char str[1024]; sprintf(str, "leave %8p %8p %8p\n", this, _Mutex, getThreadId ()); if (_Mutex == (void*)0x88) { OutputDebugString (str); if (!entered) __asm int 3; entered = false; } */ if ( ( this != ATMutex ) && ( ATMutex != NULL ) ) { TTicks Leave = CTime::getPerformanceTime(); ATMutex->enter(); if ((uint32)(Leave-(*AcquireTime)[this].EndEnter) > (*AcquireTime)[this].TimeInMutex) (*AcquireTime)[this].TimeInMutex = (uint32)(Leave-(*AcquireTime)[this].EndEnter); (*AcquireTime)[this].Nb += 1; (*AcquireTime)[this].WaitingMutex = false; (*AcquireTime)[this].ThreadHavingTheMutex = 0xFFFFFFFF; ATMutex->leave(); } } #endif // MUTEX_DEBUG } // NLMISC