#include #define DIMLIB #include "dim.h" #ifndef WIN32 #ifndef NOTHREADS #include #include #ifdef solaris #include #endif #ifdef darwin #include #include #endif pthread_t IO_thread = 0; pthread_t ALRM_thread = 0; pthread_t INIT_thread = 0; pthread_t MAIN_thread = 0; #ifndef darwin sem_t DIM_INIT_Sema; /* sem_t DIM_WAIT_Sema; */ #else sem_t *DIM_INIT_Semap; /* sem_t *DIM_WAIT_Semap; */ #endif int INIT_count = 0; /* int WAIT_count = 0; */ int DIM_THR_init_done = 0; void *dim_tcpip_thread(void *tag) { extern int dim_tcpip_init(); extern void tcpip_task(); /* int prio; thr_getprio(thr_self(),&prio); thr_setprio(thr_self(),prio+10); */ if(tag){} IO_thread = pthread_self(); dim_tcpip_init(1); while(1) { if(INIT_thread) #ifndef darwin sem_post(&DIM_INIT_Sema); #else sem_post(DIM_INIT_Semap); #endif tcpip_task(); /* #ifndef darwin sem_post(&DIM_WAIT_Sema); #else sem_post(DIM_WAIT_Semap); #endif */ dim_signal_cond(); } } void *dim_dtq_thread(void *tag) { extern int dim_dtq_init(); extern int dtq_task(); /* int prio; thr_getprio(thr_self(),&prio); thr_setprio(thr_self(),prio+5); */ if(tag){} ALRM_thread = pthread_self(); dim_dtq_init(1); while(1) { if(INIT_thread) { #ifndef darwin sem_post(&DIM_INIT_Sema); #else sem_post(DIM_INIT_Semap); #endif } dtq_task(); /* #ifndef darwin sem_post(&DIM_WAIT_Sema); #else sem_post(DIM_WAIT_Semap); #endif */ dim_signal_cond(); } } void dim_init() { pthread_t t_id; void ignore_sigpipe(); int ret; extern int dna_init(); /* #ifdef LYNXOS */ pthread_attr_t attr; /* #endif */ if(!DIM_THR_init_done) { /* int prio; */ DIM_THR_init_done = 1; dna_init(); /* thr_getprio(thr_self(),&prio); thr_setprio(thr_self(),prio+3); */ INIT_thread = pthread_self(); MAIN_thread = INIT_thread; #ifndef darwin sem_init(&DIM_INIT_Sema, 0, INIT_count); /* sem_init(&DIM_WAIT_Sema, 0, WAIT_count); */ #else DIM_INIT_Semap = sem_open("/Dim_INIT_Sem", O_CREAT, S_IRUSR | S_IWUSR, INIT_count); /* DIM_WAIT_Semap = sem_open("/Dim_WAIT_Sem", O_CREAT, S_IRUSR | S_IWUSR, WAIT_count); */ #endif ignore_sigpipe(); #if defined (LYNXOS) && !defined (__Lynx__) pthread_attr_create(&attr); pthread_create(&t_id, attr, dim_dtq_thread, 0); #else /* pthread_create(&t_id, NULL, dim_dtq_thread, 0); */ pthread_attr_init(&attr); pthread_attr_setinheritsched(&attr, PTHREAD_INHERIT_SCHED); pthread_create(&t_id, &attr, dim_dtq_thread, 0); #endif #ifndef darwin ret = sem_wait(&DIM_INIT_Sema); #else ret = sem_wait(DIM_INIT_Semap); #endif #if defined (LYNXOS) && !defined (__Lynx__) pthread_create(&t_id, attr, dim_tcpip_thread, 0); #else pthread_create(&t_id, &attr, dim_tcpip_thread, 0); #endif #ifndef darwin ret = sem_wait(&DIM_INIT_Sema); #else ret = sem_wait(DIM_INIT_Semap); #endif INIT_thread = 0; } } void dim_stop() { int i; int n = 0; void dim_tcpip_stop(), dim_dtq_stop(); for( i = 0; i< Curr_N_Conns; i++ ) { if(Net_conns[i].channel != 0) n++; } if(n) return; if(IO_thread) pthread_cancel(IO_thread); if(ALRM_thread) pthread_cancel(ALRM_thread); #ifndef darwin sem_destroy(&DIM_INIT_Sema); /* sem_destroy(&DIM_WAIT_Sema); */ #else sem_unlink("/Dim_INIT_Sem"); /* sem_unlink("/Dim_WAIT_Sem"); */ sem_close(DIM_INIT_Semap); /* sem_close(DIM_WAIT_Semap); */ #endif dim_tcpip_stop(); dim_dtq_stop(); if(IO_thread) pthread_join(IO_thread,0); if(ALRM_thread) pthread_join(ALRM_thread,0); IO_thread = 0; ALRM_thread = 0; DIM_THR_init_done = 0; } long dim_start_thread(void *(*thread_ast)(void *), long tag) { pthread_t t_id; pthread_attr_t attr; #if defined (LYNXOS) && !defined (__Lynx__) pthread_attr_create(&attr); pthread_create(&t_id, attr, (void *)thread_ast, (void *)tag); #else pthread_attr_init(&attr); pthread_create(&t_id, &attr, thread_ast, (void *)tag); #endif return((long)t_id); } int dim_stop_thread(long t_id) { int ret; ret = pthread_cancel((pthread_t)t_id); dim_print_date_time(); printf("dim_stop_thread: this function is obsolete, it creates memory leaks\n"); return ret; } int dim_set_scheduler_class(int pclass) { #ifdef __linux__ int ret, prio, p; struct sched_param param; if(pclass == 0) { pclass = SCHED_OTHER; } else if(pclass == 1) { pclass = SCHED_FIFO; } else if(pclass == 2) { pclass = SCHED_RR; } prio = sched_get_priority_min(pclass); ret = pthread_getschedparam(MAIN_thread, &p, ¶m); if( (p == SCHED_OTHER) || (pclass == SCHED_OTHER) ) param.sched_priority = prio; ret = pthread_setschedparam(MAIN_thread, pclass, ¶m); if(ret) return 0; ret = pthread_getschedparam(IO_thread, &p, ¶m); if( (p == SCHED_OTHER) || (pclass == SCHED_OTHER) ) param.sched_priority = prio; ret = pthread_setschedparam(IO_thread, pclass, ¶m); if(ret) return 0; ret = pthread_getschedparam(ALRM_thread, &p, ¶m); if( (p == SCHED_OTHER) || (pclass == SCHED_OTHER) ) param.sched_priority = prio; ret = pthread_setschedparam(ALRM_thread, pclass, ¶m); if(!ret) return 1; #endif return 0; } int dim_get_scheduler_class(int *pclass) { #ifdef __linux__ int ret; struct sched_param param; ret = pthread_getschedparam(MAIN_thread, pclass, ¶m); if(!ret) return 1; #endif return 0; } int dim_set_priority(int threadId, int prio) { #ifdef __linux__ pthread_t id = MAIN_thread; int ret; int pclass; struct sched_param param; if(threadId == 1) id = MAIN_thread; else if(threadId == 2) id = IO_thread; else if(threadId == 3) id = ALRM_thread; ret = pthread_getschedparam(id, &pclass, ¶m); param.sched_priority = prio; ret = pthread_setschedparam(id, pclass, ¶m); if(!ret) return 1; #endif return 0; } int dim_get_priority(int threadId, int *prio) { #ifdef __linux__ pthread_t id=MAIN_thread; int ret; int pclass; struct sched_param param; if(threadId == 1) id = MAIN_thread; else if(threadId == 2) id = IO_thread; else if(threadId == 3) id = ALRM_thread; ret = pthread_getschedparam(id, &pclass, ¶m); *prio = param.sched_priority; if(!ret) return 1; #endif return 0; } void ignore_sigpipe() { struct sigaction sig_info; sigset_t set; void pipe_sig_handler(); if( sigaction(SIGPIPE, 0, &sig_info) < 0 ) { perror( "sigaction(SIGPIPE)" ); exit(1); } if(sig_info.sa_handler) { /* printf("DIM ignore_sigpipe() - Handler already defined %08X\n", sig_info.sa_handler); */ return; } sigemptyset(&set); sig_info.sa_handler = pipe_sig_handler; sig_info.sa_mask = set; #ifndef LYNXOS sig_info.sa_flags = SA_RESTART; #else sig_info.sa_flags = 0; #endif if( sigaction(SIGPIPE, &sig_info, 0) < 0 ) { perror( "sigaction(SIGPIPE)" ); exit(1); } } void pipe_sig_handler( int num ) { if(num){} /* printf( "*** pipe_sig_handler called ***\n" ); */ } void dim_init_threads() { dim_init(); } void dim_stop_threads() { dim_stop(); } int dim_wait(void) { pthread_t id; id = pthread_self(); if((id == ALRM_thread) || (id == IO_thread)) { return(-1); } /* #ifndef darwin sem_wait(&DIM_WAIT_Sema); #else sem_wait(DIM_WAIT_Semap); #endif */ dim_wait_cond(); return(-1); } /* static void show_ast() { sigset_t oset; sigprocmask(SIG_SETMASK,0,&oset); printf("---THREAD id = %d, mask = %x %x\n", pthread_self(), oset.__sigbits[1], oset.__sigbits[0]); } */ pthread_t Dim_thr_locker = 0; int Dim_thr_counter = 0; #ifdef LYNXOS pthread_mutex_t Global_DIM_mutex; pthread_mutex_t Global_cond_mutex; pthread_cond_t Global_cond; #else pthread_mutex_t Global_DIM_mutex = PTHREAD_MUTEX_INITIALIZER; pthread_mutex_t Global_cond_mutex = PTHREAD_MUTEX_INITIALIZER; pthread_cond_t Global_cond = PTHREAD_COND_INITIALIZER; #endif void dim_lock() { /*printf("Locking %d ", pthread_self());*/ if(Dim_thr_locker != pthread_self()) { pthread_mutex_lock(&Global_DIM_mutex); Dim_thr_locker=pthread_self(); /*printf(": Locked ");*/ } /*printf("Counter = %d\n",Dim_thr_counter);*/ Dim_thr_counter++; } void dim_unlock() { /*printf("Un-Locking %d ", pthread_self());*/ Dim_thr_counter--; /*printf("Counter = %d ",Dim_thr_counter);*/ if(!Dim_thr_counter) { Dim_thr_locker=0; pthread_mutex_unlock(&Global_DIM_mutex); /*printf(": Un-Locked ");*/ } /* printf("\n");*/ } void dim_wait_cond() { pthread_mutex_lock(&Global_cond_mutex); pthread_cond_wait(&Global_cond, &Global_cond_mutex); pthread_mutex_unlock(&Global_cond_mutex); } void dim_signal_cond() { pthread_mutex_lock(&Global_cond_mutex); pthread_cond_broadcast(&Global_cond); pthread_mutex_unlock(&Global_cond_mutex); } #else void dim_init() { } void dim_init_threads() { } void dim_stop_threads() { } void dim_stop() { } int dim_wait() { pause(); return(-1); } long dim_start_thread(void (*thread_ast)(), long tag) { printf("dim_start_thread: not available\n"); return (long)0; } int dim_stop_thread(long t_id) { printf("dim_stop_thread: not available\n"); return 0; } #endif #else #include DWORD IO_thread = 0; DWORD ALRM_thread = 0; DWORD MAIN_thread = 0; HANDLE hIO_thread; HANDLE hALRM_thread; HANDLE hMAIN_thread; DllExp HANDLE Global_DIM_event_auto = 0; DllExp HANDLE Global_DIM_mutex = 0; DllExp HANDLE Global_DIM_event_manual = 0; void dim_tcpip_stop(), dim_dtq_stop(); typedef struct{ void (*thread_ast)(); long tag; }THREAD_PARAMS; #ifndef STDCALL long dim_start_thread(void (*thread_ast)(), long tag) #else long dim_start_thread(unsigned long (*thread_ast)(void *), void *tag) #endif { DWORD threadid = 0; HANDLE hthread; #ifndef STDCALL hthread = CreateThread( NULL, /* no security attributes */ 0, /* use default stack size */ (void *)thread_ast, /* thread function */ (void *)tag, /* argument to thread function */ 0, /* use default creation flags */ &threadid); /* returns the thread identifier */ #else hthread = CreateThread( NULL, /* no security attributes */ 0, /* use default stack size */ thread_ast, /* thread function */ tag, /* argument to thread function */ 0, /* use default creation flags */ &threadid); /* returns the thread identifier */ #endif return (long)hthread; } int dim_stop_thread(long thread_id) { int ret; ret = TerminateThread((HANDLE)thread_id, 0); CloseHandle((HANDLE)thread_id); printf("dim_stop_thread: this function is obsolete, it creates memory leaks\n"); return ret; } void create_io_thread() { int tcpip_task(void *); #ifndef STDCALL hIO_thread = CreateThread( NULL, /* no security attributes */ 0, /* use default stack size */ (void *)tcpip_task, /* thread function */ 0, /* argument to thread function */ 0, /* use default creation flags */ &IO_thread); /* returns the thread identifier */ #else hIO_thread = CreateThread( NULL, /* no security attributes */ 0, /* use default stack size */ tcpip_task, /* thread function */ 0, /* argument to thread function */ 0, /* use default creation flags */ &IO_thread); /* returns the thread identifier */ #endif } void create_alrm_thread() { int dtq_task(void *); #ifndef STDCALL hALRM_thread = CreateThread( NULL, 0, (void *)dtq_task, 0, 0, &ALRM_thread); #else hALRM_thread = CreateThread( NULL, 0, dtq_task, 0, 0, &ALRM_thread); #endif } void dim_init_threads() { static int done = 0; if(!done) { hMAIN_thread = GetCurrentThread(); done = 1; } } void dim_stop_threads() { int i; int n = 0; for( i = 0; i< Curr_N_Conns; i++ ) { if(Net_conns[i].channel != 0) n++; } if(n) return; if(hIO_thread) TerminateThread(hIO_thread, 0); if(hALRM_thread) TerminateThread(hALRM_thread, 0); if(Global_DIM_mutex) CloseHandle(Global_DIM_mutex); if(Global_DIM_event_auto) CloseHandle(Global_DIM_event_auto); if(Global_DIM_event_manual) CloseHandle(Global_DIM_event_manual); hIO_thread = 0; hALRM_thread = 0; Global_DIM_mutex = 0; Global_DIM_event_auto = 0; Global_DIM_event_manual = 0; dim_tcpip_stop(); dim_dtq_stop(); } void dim_stop() { dim_stop_threads(); } int dim_set_scheduler_class(int pclass) { HANDLE hProc; int ret; DWORD p; #ifndef PXI hProc = GetCurrentProcess(); if(pclass == -1) p = IDLE_PRIORITY_CLASS; /* else if(pclass == -1) p = BELOW_NORMAL_PRIORITY_CLASS; */ else if(pclass == 0) p = NORMAL_PRIORITY_CLASS; /* else if(pclass == 1) p == ABOVE_NORMAL_PRIORITY_CLASS; */ else if(pclass == 1) p = HIGH_PRIORITY_CLASS; else if(pclass == 2) p = REALTIME_PRIORITY_CLASS; ret = SetPriorityClass(hProc, p); if(ret) return 1; ret = GetLastError(); printf("ret = %x %d\n",ret, ret); return 0; #else return 0; #endif } int dim_get_scheduler_class(int *pclass) { HANDLE hProc; DWORD ret; #ifndef PXI hProc = GetCurrentProcess(); ret = GetPriorityClass(hProc); if(ret == 0) return 0; if(ret == IDLE_PRIORITY_CLASS) *pclass = -1; /* else if(ret == BELOW_NORMAL_PRIORITY_CLASS) *pclass = -1; */ else if(ret == NORMAL_PRIORITY_CLASS) *pclass = 0; /* else if(ret == ABOVE_NORMAL_PRIORITY_CLASS) *pclass = 1; */ else if(ret == HIGH_PRIORITY_CLASS) *pclass = 1; else if(ret == REALTIME_PRIORITY_CLASS) *pclass = 2; return 1; #else *pclass = 0; return 0; #endif } int dim_set_priority(int threadId, int prio) { HANDLE id; int ret, p; #ifndef PXI if(threadId == 1) id = hMAIN_thread; else if(threadId == 2) id = hIO_thread; else if(threadId == 3) id = hALRM_thread; if(prio == -3) p = THREAD_PRIORITY_IDLE; if(prio == -2) p = THREAD_PRIORITY_LOWEST; if(prio == -1) p = THREAD_PRIORITY_BELOW_NORMAL; if(prio == 0) p = THREAD_PRIORITY_NORMAL; if(prio == 1) p = THREAD_PRIORITY_ABOVE_NORMAL; if(prio == 2) p = THREAD_PRIORITY_HIGHEST; if(prio == 3) p = THREAD_PRIORITY_TIME_CRITICAL; ret = SetThreadPriority(id, p); if(ret) return 1; return 0; #else return 0; #endif } int dim_get_priority(int threadId, int *prio) { HANDLE id; int ret, p; #ifndef PXI if(threadId == 1) id = hMAIN_thread; else if(threadId == 2) id = hIO_thread; else if(threadId == 3) id = hALRM_thread; ret = GetThreadPriority(id); if(ret == THREAD_PRIORITY_ERROR_RETURN) return 0; if(ret == THREAD_PRIORITY_IDLE) p = -3; if(ret == THREAD_PRIORITY_LOWEST) p = -2; if(ret == THREAD_PRIORITY_BELOW_NORMAL) p = -1; if(ret == THREAD_PRIORITY_NORMAL) p = 0; if(ret == THREAD_PRIORITY_ABOVE_NORMAL) p = 1; if(ret == THREAD_PRIORITY_HIGHEST) p = 2; if(ret == THREAD_PRIORITY_TIME_CRITICAL) p = 3; *prio = p; return 1; #else *prio = 0; return 0; #endif } void dim_init() { } void dim_no_threads() { } int dim_wait() { pause(); return(1); } void dim_lock() { if(!Global_DIM_mutex) { Global_DIM_mutex = CreateMutex(NULL,FALSE,NULL); } WaitForSingleObject(Global_DIM_mutex, INFINITE); } void dim_unlock() { ReleaseMutex(Global_DIM_mutex); } void dim_pause() { HANDLE handles[2]; if(!Global_DIM_event_auto) { Global_DIM_event_auto = CreateEvent(NULL,FALSE,FALSE,NULL); Global_DIM_event_manual = CreateEvent(NULL,TRUE,FALSE,NULL); } else { /* WaitForSingleObject(Global_DIM_event, INFINITE); */ handles[0] = Global_DIM_event_auto; handles[1] = Global_DIM_event_manual; WaitForMultipleObjects(2, handles, FALSE, INFINITE); } } void dim_wake_up() { if(Global_DIM_event_auto) { SetEvent(Global_DIM_event_auto); } if(Global_DIM_event_manual) { SetEvent(Global_DIM_event_manual); ResetEvent(Global_DIM_event_manual); } } void dim_sleep(unsigned int t) { Sleep(t*1000); } void dim_win_usleep(unsigned int t) { Sleep(t/1000); } #endif