source: branches/fscctrl_safety_limits/dim/src/dim_thr.c

Last change on this file was 15282, checked in by tbretz, 12 years ago
Updated to v20r7.
File size: 16.6 KB
Line 
1#include <signal.h>
2#define DIMLIB
3#include "dim.h"
4
5#ifndef WIN32
6
7#ifndef NOTHREADS
8#include <pthread.h>
9#include <semaphore.h>
10#ifdef solaris
11#include <synch.h>
12#endif
13#ifdef darwin
14#include <sys/types.h>
15#include <sys/stat.h>
16#endif
17
18pthread_t IO_thread = 0;
19pthread_t ALRM_thread = 0;
20pthread_t INIT_thread = 0;
21pthread_t MAIN_thread = 0;
22#ifndef darwin
23sem_t DIM_INIT_Sema;
24/*
25sem_t DIM_WAIT_Sema;
26*/
27#else
28sem_t *DIM_INIT_Semap;
29/*
30sem_t *DIM_WAIT_Semap;
31*/
32#endif
33int INIT_count = 0;
34/*
35int WAIT_count = 0;
36*/
37int DIM_THR_init_done = 0;
38
39void *dim_tcpip_thread(void *tag)
40{
41 extern int dim_tcpip_init();
42 extern void tcpip_task();
43 /*
44 int prio;
45
46 thr_getprio(thr_self(),&prio);
47 thr_setprio(thr_self(),prio+10);
48 */
49 if(tag){}
50 IO_thread = pthread_self();
51
52 dim_tcpip_init(1);
53 if(INIT_thread)
54 {
55#ifndef darwin
56 sem_post(&DIM_INIT_Sema);
57#else
58 sem_post(DIM_INIT_Semap);
59#endif
60 }
61 while(1)
62 {
63 tcpip_task();
64 /*
65#ifndef darwin
66 sem_post(&DIM_WAIT_Sema);
67#else
68 sem_post(DIM_WAIT_Semap);
69#endif
70 */
71 dim_signal_cond();
72 }
73}
74
75void *dim_dtq_thread(void *tag)
76{
77 extern int dim_dtq_init();
78 extern int dtq_task();
79 /*
80 int prio;
81
82 thr_getprio(thr_self(),&prio);
83 thr_setprio(thr_self(),prio+5);
84 */
85 if(tag){}
86 ALRM_thread = pthread_self();
87
88 dim_dtq_init(1);
89 if(INIT_thread)
90 {
91#ifndef darwin
92 sem_post(&DIM_INIT_Sema);
93#else
94 sem_post(DIM_INIT_Semap);
95#endif
96 }
97 while(1)
98 {
99 dtq_task();
100 /*
101#ifndef darwin
102 sem_post(&DIM_WAIT_Sema);
103#else
104 sem_post(DIM_WAIT_Semap);
105#endif
106 */
107 dim_signal_cond();
108 }
109}
110
111void dim_init()
112{
113 pthread_t t_id;
114 void ignore_sigpipe();
115 extern int dna_init();
116/*
117#ifdef LYNXOS
118*/
119 pthread_attr_t attr;
120/*
121#endif
122*/
123 if(DIM_Threads_OFF)
124 {
125 dim_no_threads();
126 return;
127 }
128 if(!DIM_THR_init_done)
129 {
130 /*
131 int prio;
132 */
133 DIM_THR_init_done = 1;
134 dna_init();
135 /*
136 thr_getprio(thr_self(),&prio);
137 thr_setprio(thr_self(),prio+3);
138 */
139 INIT_thread = pthread_self();
140 MAIN_thread = INIT_thread;
141
142#ifndef darwin
143 sem_init(&DIM_INIT_Sema, 0, (unsigned int)INIT_count);
144 /*
145 sem_init(&DIM_WAIT_Sema, 0, WAIT_count);
146 */
147#else
148 DIM_INIT_Semap = sem_open("/Dim_INIT_Sem", O_CREAT, S_IRUSR | S_IWUSR, INIT_count);
149 /*
150 DIM_WAIT_Semap = sem_open("/Dim_WAIT_Sem", O_CREAT, S_IRUSR | S_IWUSR, WAIT_count);
151 */
152#endif
153
154 ignore_sigpipe();
155
156#if defined (LYNXOS) && !defined (__Lynx__)
157 pthread_attr_create(&attr);
158 pthread_create(&t_id, attr, dim_dtq_thread, 0);
159#else
160/*
161 pthread_create(&t_id, NULL, dim_dtq_thread, 0);
162*/
163 pthread_attr_init(&attr);
164 pthread_attr_setinheritsched(&attr, PTHREAD_INHERIT_SCHED);
165 pthread_create(&t_id, &attr, dim_dtq_thread, 0);
166#endif
167#ifndef darwin
168 sem_wait(&DIM_INIT_Sema);
169#else
170 sem_wait(DIM_INIT_Semap);
171#endif
172#if defined (LYNXOS) && !defined (__Lynx__)
173 pthread_create(&t_id, attr, dim_tcpip_thread, 0);
174#else
175 pthread_create(&t_id, &attr, dim_tcpip_thread, 0);
176#endif
177#ifndef darwin
178 sem_wait(&DIM_INIT_Sema);
179#else
180 sem_wait(DIM_INIT_Semap);
181#endif
182 INIT_thread = 0;
183 }
184}
185
186void dim_stop()
187{
188 void dim_tcpip_stop(), dim_dtq_stop();
189/*
190 int i;
191 int n = 0;
192
193 for( i = 0; i< Curr_N_Conns; i++ )
194 {
195 if(Net_conns[i].channel != 0)
196 n++;
197 }
198 if(n)
199 return;
200*/
201 if(IO_thread)
202 pthread_cancel(IO_thread);
203 if(ALRM_thread)
204 pthread_cancel(ALRM_thread);
205 if(IO_thread)
206 pthread_join(IO_thread,0);
207 if(ALRM_thread)
208 pthread_join(ALRM_thread,0);
209#ifndef darwin
210 sem_destroy(&DIM_INIT_Sema);
211 /*
212 sem_destroy(&DIM_WAIT_Sema);
213 */
214#else
215 sem_unlink("/Dim_INIT_Sem");
216 /*
217 sem_unlink("/Dim_WAIT_Sem");
218 */
219 sem_close(DIM_INIT_Semap);
220 /*
221 sem_close(DIM_WAIT_Semap);
222 */
223#endif
224 dim_tcpip_stop();
225 dim_dtq_stop();
226 IO_thread = 0;
227 ALRM_thread = 0;
228 DIM_THR_init_done = 0;
229}
230
231dim_long dim_start_thread(void *(*thread_ast)(void *), dim_long tag)
232{
233 pthread_t t_id;
234 pthread_attr_t attr;
235
236#if defined (LYNXOS) && !defined (__Lynx__)
237 pthread_attr_create(&attr);
238 pthread_create(&t_id, attr, (void *)thread_ast, (void *)tag);
239#else
240 pthread_attr_init(&attr);
241 pthread_create(&t_id, &attr, thread_ast, (void *)tag);
242#endif
243 return((dim_long)t_id);
244}
245
246int dim_stop_thread(dim_long t_id)
247{
248 int ret;
249 ret = pthread_cancel((pthread_t)t_id);
250 dim_print_date_time();
251 printf("dim_stop_thread: this function is obsolete, it creates memory leaks\n");
252 return ret;
253}
254
255int dim_set_scheduler_class(int pclass)
256{
257#ifdef __linux__
258 int ret, prio, p;
259 struct sched_param param;
260
261 if(pclass == 0)
262 {
263 pclass = SCHED_OTHER;
264 }
265 else if(pclass == 1)
266 {
267 pclass = SCHED_FIFO;
268 }
269 else if(pclass == 2)
270 {
271 pclass = SCHED_RR;
272 }
273 prio = sched_get_priority_min(pclass);
274 ret = pthread_getschedparam(MAIN_thread, &p, &param);
275 if( (p == SCHED_OTHER) || (pclass == SCHED_OTHER) )
276 param.sched_priority = prio;
277 ret = pthread_setschedparam(MAIN_thread, pclass, &param);
278 if(ret)
279 return 0;
280 ret = pthread_getschedparam(IO_thread, &p, &param);
281 if( (p == SCHED_OTHER) || (pclass == SCHED_OTHER) )
282 param.sched_priority = prio;
283 ret = pthread_setschedparam(IO_thread, pclass, &param);
284 if(ret)
285 return 0;
286 ret = pthread_getschedparam(ALRM_thread, &p, &param);
287 if( (p == SCHED_OTHER) || (pclass == SCHED_OTHER) )
288 param.sched_priority = prio;
289 ret = pthread_setschedparam(ALRM_thread, pclass, &param);
290 if(!ret)
291 return 1;
292#endif
293 return 0;
294}
295
296int dim_get_scheduler_class(int *pclass)
297{
298#ifdef __linux__
299 int ret;
300 struct sched_param param;
301
302 ret = pthread_getschedparam(MAIN_thread, pclass, &param);
303 if(!ret)
304 return 1;
305#endif
306 return 0;
307}
308
309int dim_set_priority(int threadId, int prio)
310{
311#ifdef __linux__
312 pthread_t id = MAIN_thread;
313 int ret;
314 int pclass;
315 struct sched_param param;
316
317 if(threadId == 1)
318 id = MAIN_thread;
319 else if(threadId == 2)
320 id = IO_thread;
321 else if(threadId == 3)
322 id = ALRM_thread;
323
324 ret = pthread_getschedparam(id, &pclass, &param);
325 param.sched_priority = prio;
326 ret = pthread_setschedparam(id, pclass, &param);
327 if(!ret)
328 return 1;
329#endif
330 return 0;
331}
332
333int dim_get_priority(int threadId, int *prio)
334{
335#ifdef __linux__
336 pthread_t id=MAIN_thread;
337 int ret;
338 int pclass;
339 struct sched_param param;
340
341 if(threadId == 1)
342 id = MAIN_thread;
343 else if(threadId == 2)
344 id = IO_thread;
345 else if(threadId == 3)
346 id = ALRM_thread;
347
348 ret = pthread_getschedparam(id, &pclass, &param);
349 *prio = param.sched_priority;
350 if(!ret)
351 return 1;
352#endif
353 return 0;
354}
355
356void ignore_sigpipe()
357{
358
359 struct sigaction sig_info;
360 sigset_t set;
361 void pipe_sig_handler();
362
363 if( sigaction(SIGPIPE, 0, &sig_info) < 0 )
364 {
365 perror( "sigaction(SIGPIPE)" );
366 exit(1);
367 }
368 if(sig_info.sa_handler)
369 {
370/*
371 printf("DIM ignore_sigpipe() - Handler already defined %08X\n", sig_info.sa_handler);
372*/
373 return;
374 }
375 sigemptyset(&set);
376 sig_info.sa_handler = pipe_sig_handler;
377 sig_info.sa_mask = set;
378#ifndef LYNXOS
379 sig_info.sa_flags = SA_RESTART;
380#else
381 sig_info.sa_flags = 0;
382#endif
383
384 if( sigaction(SIGPIPE, &sig_info, 0) < 0 )
385 {
386 perror( "sigaction(SIGPIPE)" );
387 exit(1);
388 }
389}
390
391void pipe_sig_handler( int num )
392{
393 if(num){}
394/*
395 printf( "*** pipe_sig_handler called ***\n" );
396*/
397}
398
399void dim_init_threads()
400{
401 dim_init();
402}
403
404void dim_stop_threads()
405{
406 dim_stop();
407}
408
409int dim_wait(void)
410{
411 pthread_t id;
412
413 id = pthread_self();
414
415 if((id == ALRM_thread) || (id == IO_thread))
416 {
417 return(-1);
418 }
419 /*
420#ifndef darwin
421 sem_wait(&DIM_WAIT_Sema);
422#else
423 sem_wait(DIM_WAIT_Semap);
424#endif
425 */
426 dim_wait_cond();
427 return(-1);
428}
429
430/*
431static void show_ast()
432{
433sigset_t oset;
434
435 sigprocmask(SIG_SETMASK,0,&oset);
436 printf("---THREAD id = %d, mask = %x %x\n",
437 pthread_self(), oset.__sigbits[1], oset.__sigbits[0]);
438}
439*/
440
441pthread_t Dim_thr_locker = 0;
442int Dim_thr_counter = 0;
443#ifdef LYNXOS
444pthread_mutex_t Global_DIM_mutex;
445pthread_mutex_t Global_cond_mutex;
446pthread_cond_t Global_cond;
447#else
448pthread_mutex_t Global_DIM_mutex = PTHREAD_MUTEX_INITIALIZER;
449pthread_mutex_t Global_cond_mutex = PTHREAD_MUTEX_INITIALIZER;
450pthread_cond_t Global_cond = PTHREAD_COND_INITIALIZER;
451#endif
452int Global_cond_counter = 0;
453int Global_cond_waiters = 0;
454
455void dim_lock()
456{
457 /*printf("Locking %d ", pthread_self());*/
458 if(Dim_thr_locker != pthread_self())
459 {
460/*
461#ifdef __linux__
462 pthread_testcancel();
463#endif
464*/
465 pthread_mutex_lock(&Global_DIM_mutex);
466 Dim_thr_locker=pthread_self();
467 /*printf(": Locked ");*/
468 }
469 /*printf("Counter = %d\n",Dim_thr_counter);*/
470 Dim_thr_counter++;
471}
472void dim_unlock()
473{
474 /*printf("Un-Locking %d ", pthread_self());*/
475 Dim_thr_counter--;
476 /*printf("Counter = %d ",Dim_thr_counter);*/
477 if(!Dim_thr_counter)
478 {
479 Dim_thr_locker=0;
480 pthread_mutex_unlock(&Global_DIM_mutex);
481 /*printf(": Un-Locked ");*/
482 }
483 /* printf("\n");*/
484}
485
486void dim_wait_cond()
487{
488 pthread_mutex_lock(&Global_cond_mutex);
489 Global_cond_waiters++;
490 if(!Global_cond_counter)
491 {
492 pthread_cond_wait(&Global_cond, &Global_cond_mutex);
493 }
494 Global_cond_waiters--;
495 if(!Global_cond_waiters)
496 Global_cond_counter--;
497 pthread_mutex_unlock(&Global_cond_mutex);
498}
499
500void dim_signal_cond()
501{
502 pthread_mutex_lock(&Global_cond_mutex);
503 if(!Global_cond_waiters)
504 {
505 Global_cond_counter = 1;
506 }
507 else
508 {
509 Global_cond_counter++;
510 pthread_cond_broadcast(&Global_cond);
511 }
512 pthread_mutex_unlock(&Global_cond_mutex);
513}
514
515#else
516
517void dim_init()
518{
519}
520
521void dim_init_threads()
522{
523}
524
525void dim_stop_threads()
526{
527}
528
529void dim_stop()
530{
531}
532
533int dim_wait()
534{
535 pause();
536 return(-1);
537}
538
539dim_long dim_start_thread(void (*thread_ast)(), dim_long tag)
540
541{
542 if(thread_ast){}
543 if(tag){}
544 printf("dim_start_thread: not available\n");
545 return (dim_long)0;
546}
547
548int dim_stop_thread(dim_long t_id)
549{
550 if(t_id){}
551 printf("dim_stop_thread: not available\n");
552 return 0;
553}
554#endif
555
556#else
557#include <windows.h>
558
559DWORD IO_thread = 0;
560DWORD ALRM_thread = 0;
561DWORD MAIN_thread = 0;
562HANDLE hIO_thread;
563HANDLE hALRM_thread;
564HANDLE hMAIN_thread;
565DllExp HANDLE Global_DIM_event_auto = 0;
566DllExp HANDLE Global_DIM_mutex = 0;
567DllExp HANDLE Global_DIM_event_manual = 0;
568void dim_tcpip_stop(), dim_dtq_stop();
569
570typedef struct{
571 void (*thread_ast)();
572 dim_long tag;
573
574}THREAD_PARAMS;
575
576#ifndef STDCALL
577dim_long dim_start_thread(void (*thread_ast)(), dim_long tag)
578#else
579dim_long dim_start_thread(dim_long (*thread_ast)(void *), void *tag)
580#endif
581{
582DWORD threadid = 0;
583HANDLE hthread;
584
585#ifndef STDCALL
586 hthread = CreateThread(
587 NULL, /* no security attributes */
588 0, /* use default stack size */
589 (void *)thread_ast, /* thread function */
590 (void *)tag, /* argument to thread function */
591 0, /* use default creation flags */
592 &threadid); /* returns the thread identifier */
593#else
594 hthread = CreateThread(
595 NULL, /* no security attributes */
596 0, /* use default stack size */
597 thread_ast, /* thread function */
598 tag, /* argument to thread function */
599 0, /* use default creation flags */
600 &threadid); /* returns the thread identifier */
601#endif
602 return (dim_long)hthread;
603}
604
605
606int dim_stop_thread(dim_long thread_id)
607{
608 int ret;
609
610 ret = TerminateThread((HANDLE)thread_id, 0);
611 CloseHandle((HANDLE)thread_id);
612 printf("dim_stop_thread: this function is obsolete, it creates memory leaks\n");
613 return ret;
614}
615
616
617void create_io_thread()
618{
619 int tcpip_task(void *);
620
621#ifndef STDCALL
622 hIO_thread = CreateThread(
623 NULL, /* no security attributes */
624 0, /* use default stack size */
625 (void *)tcpip_task, /* thread function */
626 0, /* argument to thread function */
627 0, /* use default creation flags */
628 &IO_thread); /* returns the thread identifier */
629#else
630 hIO_thread = CreateThread(
631 NULL, /* no security attributes */
632 0, /* use default stack size */
633 tcpip_task, /* thread function */
634 0, /* argument to thread function */
635 0, /* use default creation flags */
636 &IO_thread); /* returns the thread identifier */
637#endif
638}
639
640void create_alrm_thread()
641{
642
643 int dtq_task(void *);
644
645#ifndef STDCALL
646 hALRM_thread = CreateThread(
647 NULL,
648 0,
649 (void *)dtq_task,
650 0,
651 0,
652 &ALRM_thread);
653#else
654 hALRM_thread = CreateThread(
655 NULL,
656 0,
657 dtq_task,
658 0,
659 0,
660 &ALRM_thread);
661#endif
662}
663
664void dim_init_threads()
665{
666 static int done = 0;
667
668 if(!done)
669 {
670 hMAIN_thread = GetCurrentThread();
671 done = 1;
672 }
673}
674
675void dim_stop_threads()
676{
677/*
678 int i;
679 int n = 0;
680
681 for( i = 0; i< Curr_N_Conns; i++ )
682 {
683 if(Net_conns[i].channel != 0)
684 n++;
685 }
686 if(n)
687 return;
688*/
689 if(hIO_thread)
690 TerminateThread(hIO_thread, 0);
691 if(hALRM_thread)
692 TerminateThread(hALRM_thread, 0);
693 if(Global_DIM_mutex)
694 CloseHandle(Global_DIM_mutex);
695 if(Global_DIM_event_auto)
696 CloseHandle(Global_DIM_event_auto);
697 if(Global_DIM_event_manual)
698 CloseHandle(Global_DIM_event_manual);
699 hIO_thread = 0;
700 hALRM_thread = 0;
701 Global_DIM_mutex = 0;
702 Global_DIM_event_auto = 0;
703 Global_DIM_event_manual = 0;
704 dim_tcpip_stop();
705 dim_dtq_stop();
706}
707
708void dim_stop()
709{
710 dim_stop_threads();
711}
712
713int dim_set_scheduler_class(int pclass)
714{
715 HANDLE hProc;
716 int ret;
717 DWORD p = 0;
718
719#ifndef PXI
720 hProc = GetCurrentProcess();
721
722 if(pclass == -1)
723 p = IDLE_PRIORITY_CLASS;
724/*
725 else if(pclass == -1)
726 p = BELOW_NORMAL_PRIORITY_CLASS;
727*/
728 else if(pclass == 0)
729 p = NORMAL_PRIORITY_CLASS;
730/*
731 else if(pclass == 1)
732 p == ABOVE_NORMAL_PRIORITY_CLASS;
733*/
734 else if(pclass == 1)
735 p = HIGH_PRIORITY_CLASS;
736 else if(pclass == 2)
737 p = REALTIME_PRIORITY_CLASS;
738 ret = SetPriorityClass(hProc, p);
739 if(ret)
740 return 1;
741 ret = GetLastError();
742 printf("ret = %x %d\n",ret, ret);
743 return 0;
744#else
745 return 0;
746#endif
747}
748
749int dim_get_scheduler_class(int *pclass)
750{
751 HANDLE hProc;
752 DWORD ret;
753
754#ifndef PXI
755 hProc = GetCurrentProcess();
756
757 ret = GetPriorityClass(hProc);
758 if(ret == 0)
759 return 0;
760 if(ret == IDLE_PRIORITY_CLASS)
761 *pclass = -1;
762/*
763 else if(ret == BELOW_NORMAL_PRIORITY_CLASS)
764 *pclass = -1;
765*/
766 else if(ret == NORMAL_PRIORITY_CLASS)
767 *pclass = 0;
768/*
769 else if(ret == ABOVE_NORMAL_PRIORITY_CLASS)
770 *pclass = 1;
771*/
772 else if(ret == HIGH_PRIORITY_CLASS)
773 *pclass = 1;
774 else if(ret == REALTIME_PRIORITY_CLASS)
775 *pclass = 2;
776 return 1;
777#else
778 *pclass = 0;
779 return 0;
780#endif
781}
782
783int dim_set_priority(int threadId, int prio)
784{
785 HANDLE id = 0;
786 int ret, p = 0;
787
788#ifndef PXI
789 if(threadId == 1)
790 id = hMAIN_thread;
791 else if(threadId == 2)
792 id = hIO_thread;
793 else if(threadId == 3)
794 id = hALRM_thread;
795
796 if(prio == -3)
797 p = THREAD_PRIORITY_IDLE;
798 if(prio == -2)
799 p = THREAD_PRIORITY_LOWEST;
800 if(prio == -1)
801 p = THREAD_PRIORITY_BELOW_NORMAL;
802 if(prio == 0)
803 p = THREAD_PRIORITY_NORMAL;
804 if(prio == 1)
805 p = THREAD_PRIORITY_ABOVE_NORMAL;
806 if(prio == 2)
807 p = THREAD_PRIORITY_HIGHEST;
808 if(prio == 3)
809 p = THREAD_PRIORITY_TIME_CRITICAL;
810
811 ret = SetThreadPriority(id, p);
812 if(ret)
813 return 1;
814 return 0;
815#else
816 return 0;
817#endif
818}
819
820int dim_get_priority(int threadId, int *prio)
821{
822 HANDLE id = 0;
823 int ret, p = 0;
824
825#ifndef PXI
826 if(threadId == 1)
827 id = hMAIN_thread;
828 else if(threadId == 2)
829 id = hIO_thread;
830 else if(threadId == 3)
831 id = hALRM_thread;
832
833 ret = GetThreadPriority(id);
834 if(ret == THREAD_PRIORITY_ERROR_RETURN)
835 return 0;
836 if(ret == THREAD_PRIORITY_IDLE)
837 p = -3;
838 if(ret == THREAD_PRIORITY_LOWEST)
839 p = -2;
840 if(ret == THREAD_PRIORITY_BELOW_NORMAL)
841 p = -1;
842 if(ret == THREAD_PRIORITY_NORMAL)
843 p = 0;
844 if(ret == THREAD_PRIORITY_ABOVE_NORMAL)
845 p = 1;
846 if(ret == THREAD_PRIORITY_HIGHEST)
847 p = 2;
848 if(ret == THREAD_PRIORITY_TIME_CRITICAL)
849 p = 3;
850 *prio = p;
851 return 1;
852#else
853 *prio = 0;
854 return 0;
855#endif
856}
857
858void dim_init()
859{
860}
861
862void dim_no_threads()
863{
864}
865
866int dim_wait()
867{
868 pause();
869 return(1);
870}
871
872void dim_lock()
873{
874 if(!Global_DIM_mutex)
875 {
876 Global_DIM_mutex = CreateMutex(NULL,FALSE,NULL);
877 }
878 WaitForSingleObject(Global_DIM_mutex, INFINITE);
879}
880
881void dim_unlock()
882{
883 ReleaseMutex(Global_DIM_mutex);
884}
885
886void dim_pause()
887{
888HANDLE handles[2];
889
890 if(!Global_DIM_event_auto)
891 {
892 Global_DIM_event_auto = CreateEvent(NULL,FALSE,FALSE,NULL);
893 Global_DIM_event_manual = CreateEvent(NULL,TRUE,FALSE,NULL);
894 }
895 else
896 {
897/*
898 WaitForSingleObject(Global_DIM_event, INFINITE);
899*/
900 handles[0] = Global_DIM_event_auto;
901 handles[1] = Global_DIM_event_manual;
902 WaitForMultipleObjects(2, handles, FALSE, INFINITE);
903 }
904}
905
906void dim_wake_up()
907{
908 if(Global_DIM_event_auto)
909 {
910 SetEvent(Global_DIM_event_auto);
911 }
912 if(Global_DIM_event_manual)
913 {
914 SetEvent(Global_DIM_event_manual);
915 ResetEvent(Global_DIM_event_manual);
916 }
917}
918
919void dim_sleep(unsigned int t)
920{
921 Sleep(t*1000);
922}
923
924void dim_win_usleep(unsigned int t)
925{
926 Sleep(t/1000);
927}
928
929#endif
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