Annotation of libaitsched/example/test_brut.c, revision 1.1.2.2
1.1.2.1 misho 1: #include <stdio.h>
2: #include <stdlib.h>
3: #include <unistd.h>
4: #include <fcntl.h>
5: #include <signal.h>
6: #include <sys/types.h>
7: #include <sys/event.h>
8: #include <sys/stat.h>
9: #include <sys/signal.h>
10: #include <netinet/in.h>
11: #include <aitsched.h>
12:
13: intptr_t Kill;
14: sched_root_task_t *root;
15:
16: void *event(sched_task_t *arg)
17: {
18: printf("Event::\n");
19: taskExit(arg, NULL);
20: }
21:
22: void *regular(sched_task_t *arg)
23: {
24: printf("Task(%lu):: %s\n", TASK_VAL(arg), (char*) TASK_ARG(arg));
25: fflush(stdout);
26: taskExit(arg, NULL);
27: }
28:
29: void *timer(sched_task_t *arg)
30: {
31: printf("Timer %p sec::\n", TASK_ARG(arg));
32: taskExit(arg, NULL);
33: }
34:
35: void *rtc(sched_task_t *arg)
36: {
37: printf("RTC %p sec:: rtc id %lx signo=%lu\n", TASK_ARG(arg), (long) TASK_DATA(arg), TASK_VAL(arg));
38: taskExit(arg, NULL);
39: }
40:
41: void *rtcinf(sched_task_t *arg)
42: {
43: printf("RTC(inf) sec:: rtc id %lx signo=%lu\n", (long) TASK_DATA(arg), TASK_VAL(arg));
44: schedRTCSelf(arg);
45: taskExit(arg, NULL);
46: }
47:
48: void *alarmz(sched_task_t *arg)
49: {
50: printf("Alarm %ld sec::\n", (u_long) TASK_ARG(arg));
51: taskExit(arg, NULL);
52: }
53:
54: void *node(sched_task_t *arg)
55: {
56: printf("Node %s data %ld fflags 0x%lX\n", (char*) TASK_ARG(arg), (long) TASK_RET(arg), TASK_FLAG(arg));
57: taskExit(arg, NULL);
58: }
59:
60: void *proc(sched_task_t *arg)
61: {
62: printf("Proc pid=%ld data %ld fflags 0x%lX\n", TASK_VAL(arg), (long) TASK_RET(arg), TASK_FLAG(arg));
63: taskExit(arg, NULL);
64: }
65:
66: void *sigz(sched_task_t *arg)
67: {
68: printf("Signal signal=%ld how many times %ld\n", TASK_VAL(arg), (long) TASK_RET(arg));
69: taskExit(arg, NULL);
70: }
71:
72: #ifdef EVFILT_USER
73: void *user(sched_task_t *arg)
74: {
75: printf("User trigger id %ld fflags %ld\n", TASK_VAL(arg), TASK_FLAG(arg) & NOTE_FFLAGSMASK);
76: taskExit(arg, NULL);
77: }
78: #endif
79:
80: void *susp1(sched_task_t *arg)
81: {
82: printf("Suspend 1 =%ld\n", TASK_VAL(arg));
83: taskExit(arg, NULL);
84: }
85: void *susp2(sched_task_t *arg)
86: {
87: printf("Suspend 2 =%ld\n", TASK_VAL(arg));
88: taskExit(arg, NULL);
89: }
90: void *susp3(sched_task_t *arg)
91: {
92: printf("Suspend 3 =%ld\n", TASK_VAL(arg));
93: taskExit(arg, NULL);
94: }
95:
96: void *once(sched_task_t *arg)
97: {
98: printf("once::\n");
99: taskExit(arg, NULL);
100: }
101:
102: void *thr(sched_task_t *arg)
103: {
104: printf("tid (%lx):: %s\n", TASK_VAL(arg), __func__);
105: printf("tid (%lu):: %s\n", TASK_VAL(arg), (char*) TASK_ARG(arg));
106: taskExit(arg, 42);
107: }
108:
109: void *thr4kill(sched_task_t *arg)
110: {
111: char blah[BUFSIZ];
112:
113: printf("tid (%lx):: %s\n", TASK_VAL(arg), __func__);
114:
115: read(0, blah, sizeof blah);
116: printf("never see!!! (%lx):: %s (%d == %d)\n", TASK_VAL(arg), (char*) TASK_ARG(arg), TASK_TYPE(arg), taskTHREAD);
117: taskExit(arg, 0);
118: }
119:
120: void sig(int s)
121: {
122: switch (s) {
123: case SIGINT:
124: case SIGTERM:
125: Kill++;
126: break;
127: case SIGUSR1:
128: schedResumeby(root, CRITERIA_ID, (void*) 0);
129: schedResumeby(root, CRITERIA_ID, (void*) 7);
130: break;
131: }
132: }
133:
134: int
135: main(int argc, char **argv)
136: {
137: struct timespec ts = { 20, 0 };
138: // struct timespec p = { 0, 10000000 };
139: int f = 0;
140: struct sigaction sa;
141: sched_task_t *t;
142: #ifdef EVFILT_USER
143: sched_task_t *tt[4];
144: #endif
145: sched_task_t *task;
146:
147: sa.sa_handler = sig;
148: sigemptyset(&sa.sa_mask);
149: sigaction(SIGTERM, &sa, NULL);
150: sigaction(SIGINT, &sa, NULL);
151: sigaction(SIGUSR1, &sa, NULL);
152:
153: root = schedBegin();
154: if (!root) {
155: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
156: return 1;
157: }
158:
159: if (!schedRTC(root, rtc, (void*) (intptr_t) ts.tv_sec, ts, NULL, 0)) {
160: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
161: return 4;
162: }
163: if (!schedTimer(root, timer, (void*) (intptr_t) ts.tv_sec, ts, NULL, 0)) {
164: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
165: return 4;
166: } else
167: ts.tv_sec = 15;
168: if (!schedRTC(root, rtc, (void*) (intptr_t) ts.tv_sec, ts, (void*) 1, 0)) {
169: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
170: return 4;
171: }
172: if (!schedTimer(root, timer, (void*) (intptr_t) ts.tv_sec, ts, NULL, 0)) {
173: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
174: return 4;
175: } else
176: ts.tv_sec = 10;
177:
178: if (!schedEvent(root, event, "piuk", 1234, NULL, 0)) {
179: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
180: return 2;
181: }
182:
183: if (!schedTask(root, regular, "piuk", 11, NULL, 0)) {
184: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
185: return 3;
186: }
187: if (!schedTask(root, regular, "piuk", 1, NULL, 0)) {
188: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
189: return 3;
190: }
191: if (!schedTask(root, regular, "piuk", 0, NULL, 0)) {
192: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
193: return 3;
194: }
195: if (!schedTask(root, regular, "piuk", 1000001, NULL, 0)) {
196: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
197: return 3;
198: }
199:
200: if (!schedTimer(root, timer, (void*) (intptr_t) ts.tv_sec, ts, NULL, 0)) {
201: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
202: return 4;
203: }
204:
205: if (!schedRTC(root, rtc, (void*) (intptr_t) ts.tv_sec, ts, (void*) 3, 0)) {
206: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
207: return 4;
208: }
209: if (!schedRTC(root, rtc, (void*) (intptr_t) ts.tv_sec, ts, (void*) 2, 0)) {
210: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
211: return 4;
212: }
213:
214: if (!schedAlarm(root, alarmz, (void*) (intptr_t) ts.tv_sec, ts, NULL, 0)) {
215: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
216: return 5;
217: } else {
218: ts.tv_sec = 3;
219: ts.tv_nsec = 500000000;
220: }
221:
222: if (!schedRTC(root, rtc, (void*) (intptr_t) ts.tv_sec, ts, (void*) 10, 0)) {
223: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
224: return 5;
225: }
226: if (!schedRTC(root, rtc, (void*) (intptr_t) ts.tv_sec, ts, (void*) 10, 0)) {
227: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
228: return 5;
229: } else {
230: ts.tv_sec = 0;
1.1.2.2 ! misho 231: ts.tv_nsec = 1000000;
1.1.2.1 misho 232: }
233:
234: if (!schedRTC(root, rtcinf, (void*) (intptr_t) ts.tv_sec, ts, (void*) 12, 0)) {
235: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
236: return 5;
237: }
238:
239: if (!schedAlarm(root, alarmz, (void*) (intptr_t) ts.tv_sec, ts, (void*) 1, 0)) {
240: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
241: return 5;
242: }
243: if (!schedAlarm(root, alarmz, (void*) (intptr_t) ts.tv_sec, ts, (void*) 2, 0)) {
244: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
245: return 5;
246: } else {
247: ts.tv_sec = 0;
248: ts.tv_nsec = 700000000;
249: }
250: if (!schedAlarm(root, alarmz, (void*) (intptr_t) ts.tv_sec, ts, (void*) 3, 0)) {
251: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
252: return 5;
253: }
254:
255: #ifdef EVFILT_USER
256: if (!(tt[0] = schedUser(root, user, NULL, 42, 0, 0))) {
257: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
258: return 6;
259: }
260: if (!(tt[1] = schedUser(root, user, NULL, 1, 0, 73))) {
261: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
262: return 6;
263: }
264: if (!(tt[2] = schedUser(root, user, NULL, 0xaa, 0, NOTE_FFAND | 0xaa))) {
265: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
266: return 6;
267: }
268: if (!(tt[3] = schedUser(root, user, NULL, -1, 0, NOTE_FFCOPY | 1003))) {
269: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
270: return 6;
271: }
272: #endif
273: if (!schedSuspend(root, susp1, NULL, 7, NULL, 0)) {
274: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
275: return 6;
276: }
277: if (!(task = schedSuspend(root, susp2, NULL, 1, NULL, 0))) {
278: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
279: return 6;
280: }
281: if (!schedSuspend(root, susp3, NULL, 0, NULL, 0)) {
282: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
283: return 6;
284: }
285:
286: if (!(t = schedThread(root, thr4kill, "0aaaa", 0, 0, NULL, 0))) {
287: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
288: return 7;
289: }
290: if (!schedThread(root, thr, "mdaaaa this is thread task", 0, 131072, NULL, 0)) {
291: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
292: return 7;
293: }
294: if (!schedThread(root, thr, "mdaaaa this is thread task -detached", 42, 0, NULL, 0)) {
295: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
296: return 7;
297: }
298: if (!schedThread(root, thr, "mdaaaa this is thread task -j", 0, 131072, NULL, 0)) {
299: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
300: return 7;
301: }
302: printf("try to cancel tid = %lx\n", TASK_VAL(t));
303: schedCancel(t);
304: if (!schedThread(root, thr, "mdaaaa this is thread task -j2", 0, 131072 * 2, NULL, 0)) {
305: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
306: return 7;
307: }
308: if (!(t = schedThread(root, thr4kill, "0aaaa", 42, /*4096*/0, NULL, 0))) {
309: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
310: return 7;
311: }
312: if (!schedThread(root, thr, "mdaaaa this is thread task -j3", 0, 0, NULL, 0)) {
313: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
314: return 7;
315: }
316: sleep(1);
317: schedCancel(t);
318:
319: schedCancelby(root, taskRTC, CRITERIA_DATA, (void*) 2, NULL);
320: // schedCancelby(root, taskRTC, CRITERIA_DATA, (void*) 10, NULL);
321:
322: if (argc > 1)
323: if (!schedProc(root, proc, NULL, atoi(argv[1]), 0, 0)) {
324: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
325: return 7;
326: }
327: if (argc > 2) {
328: f = open(argv[2], O_RDWR);
329: if (f == -1) {
330: perror("open()");
331: return 8;
332: }
333: if (!schedNode(root, node, argv[2], f, 0, 0)) {
334: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
335: close(f);
336: return 8;
337: }
338: }
339:
340: #ifdef EVFILT_USER
341: schedTrigger(tt[3]);
342: schedTrigger(tt[1]);
343: #endif
344: schedResumeby(root, CRITERIA_DATA, task);
345:
346: if (!schedSignal(root, sigz, NULL, SIGUSR1, 0, 0)) {
347: printf("Error:: #%d - %s\n", sched_GetErrno(), sched_GetError());
348: close(f);
349: return 9;
350: }
351:
352: #ifdef EVFILT_USER
353: schedTrigger(tt[2]);
354: schedTrigger(tt[0]);
355: #endif
356:
357: schedCallOnce(root, once, "000000", 42, NULL, 0);
358:
359: printf("read_queue=%d timer_queue=%d\n",
360: ROOT_QUEUE_EMPTY(root, read), ROOT_QUEUE_EMPTY(root, timer));
361:
362: // schedPolling(root, &p, NULL);
363: schedRun(root, &Kill);
364: schedEnd(&root);
365:
366: if (f > 2)
367: close(f);
368: return 0;
369: }
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