audiod: Make mode switching (on, off, sb) work again.
[paraslash.git] / audiod.c
1 /*
2 * Copyright (C) 2005-2009 Andre Noll <maan@systemlinux.org>
3 *
4 * Licensed under the GPL v2. For licencing details see COPYING.
5 */
6
7 /** \file audiod.c the paraslash's audio daemon */
8 #include <regex.h>
9 #include <sys/types.h>
10 #include <dirent.h>
11 #include <signal.h>
12 #include <openssl/rc4.h>
13 #include <stdbool.h>
14
15 #include "para.h"
16 #include "error.h"
17 #include "crypt.h"
18 #include "audiod.cmdline.h"
19 #include "list.h"
20 #include "sched.h"
21 #include "ggo.h"
22 #include "recv.h"
23 #include "buffer_tree.h"
24 #include "filter.h"
25 #include "grab_client.h"
26 #include "client.cmdline.h"
27 #include "client.h"
28 #include "audiod.h"
29 #include "net.h"
30 #include "daemon.h"
31 #include "string.h"
32 #include "fd.h"
33 #include "write.h"
34 #include "write_common.h"
35 #include "signal.h"
36
37 /** define the array of error lists needed by para_audiod */
38 INIT_AUDIOD_ERRLISTS;
39 /** define the array containing all supported audio formats */
40 const char *audio_formats[] = {AUDIOD_AUDIO_FORMAT_ARRAY NULL};
41
42 /** Defines how audiod handles one supported audio format. */
43 struct audio_format_info {
44 /** pointer to the receiver for this audio format */
45 struct receiver *receiver;
46 /** the receiver configuration */
47 void *receiver_conf;
48 /** the number of filters that should be activated for this audio format */
49 unsigned int num_filters;
50 /** Array of filter numbers to be activated. */
51 unsigned *filter_nums;
52 /** Pointer to the array of filter configurations. */
53 void **filter_conf;
54 /** the number of filters that should be activated for this audio format */
55 unsigned int num_writers;
56 /** Array of writer numbers to be activated. */
57 int *writer_nums;
58 /** pointer to the array of writer configurations */
59 void **writer_conf;
60 /** do not start receiver/filters/writer before this time */
61 struct timeval restart_barrier;
62 };
63
64 /**
65 * para_audiod uses \p MAX_STREAM_SLOTS different slots, each of which may
66 * be associated with a receiver/filter/writer triple. This array holds all
67 * information on the status of these slots.
68 *
69 * \sa struct slot_info
70 * */
71 struct slot_info slot[MAX_STREAM_SLOTS];
72
73 /** The vss status flags audiod is interested in. */
74 enum vss_status_flags {
75 /** Whether the 'N' flag is set. */
76 VSS_STATUS_FLAG_NEXT = 1,
77 /** The 'P' flag is set. */
78 VSS_STATUS_FLAG_PLAYING = 2,
79 };
80
81 /**
82 * The task for obtaining para_server's status (para_client stat).
83 *
84 * \sa struct task, struct sched.
85 */
86 struct status_task {
87 /** The associated task structure of audiod. */
88 struct task task;
89 /** Client data associated with the stat task. */
90 struct client_task *ct;
91 /** Do not restart client command until this time. */
92 struct timeval restart_barrier;
93 /** Last time we received status data from para_server. */
94 struct timeval last_status_read;
95 /** The offset value announced by para_server. */
96 int offset_seconds;
97 /** The length of the current audio file as announced by para_server. */
98 int length_seconds;
99 /** The start of the current stream from the view of para_server. */
100 struct timeval server_stream_start;
101 /** The average time deviation between para_server and para_audiod. */
102 struct timeval sa_time_diff;
103 /** Whether client time is ahead of server time. */
104 int sa_time_diff_sign;
105 /** The 'P' and the 'N' flags as announced by para_server. */
106 enum vss_status_flags vss_status;
107 /** Number of times the clock difference is to be checked. */
108 unsigned clock_diff_count;
109 /** When to start the next check for clock difference. */
110 struct timeval clock_diff_barrier;
111 /** Number of the audio format as announced by para_server. */
112 int current_audio_format_num;
113 };
114
115 /** The array of status items sent by para_server. */
116 char *stat_item_values[NUM_STAT_ITEMS] = {NULL};
117
118 /**
119 * the current mode of operation of which can be changed by the on/off/cycle
120 * commands. It is either, AUDIOD_OFF, AUDIOD_ON or AUDIOD_STANDBY.
121 */
122 int audiod_status = AUDIOD_ON;
123
124 /**
125 * the gengetopt args_info struct that holds information on all command line
126 * arguments
127 */
128 struct audiod_args_info conf;
129
130 static char *socket_name;
131 static struct audio_format_info afi[NUM_AUDIO_FORMATS];
132
133 static struct signal_task signal_task_struct, *sig_task = &signal_task_struct;
134
135 static struct status_task status_task_struct;
136
137 /**
138 * the task that calls the status command of para_server
139 *
140 * \sa struct status_task
141 */
142 static struct status_task *stat_task = &status_task_struct;
143 static struct timeval initial_delay_barrier;
144
145 /**
146 * the task for handling audiod commands
147 *
148 * \sa struct task, struct sched
149 */
150 struct command_task {
151 /** the local listening socket */
152 int fd;
153 /** the associated task structure */
154 struct task task;
155 };
156
157 /** iterate over all supported audio formats */
158 #define FOR_EACH_AUDIO_FORMAT(af) for (af = 0; af < NUM_AUDIO_FORMATS; af++)
159
160 /**
161 * get the audio format number
162 * \param name the name of the audio format
163 *
164 * \return The audio format number on success, -E_UNSUPPORTED_AUDIO_FORMAT if
165 * \a name is not a supported audio format.
166 */
167 int get_audio_format_num(const char *name)
168 {
169 int i;
170
171 while (para_isspace(*name))
172 name++;
173 FOR_EACH_AUDIO_FORMAT(i)
174 if (!strcmp(name, audio_formats[i]))
175 return i;
176 return -E_UNSUPPORTED_AUDIO_FORMAT;
177 }
178
179 char *get_time_string(int slot_num)
180 {
181 int ret, seconds = 0, length;
182 struct timeval *tmp, sum, sss, /* server stream start */
183 rstime, /* receiver start time */
184 wstime, /* writer start time */
185 wtime, /* now - writer start */
186 rskip; /* receiver start - sss */
187 struct slot_info *s = slot_num < 0? NULL : &slot[slot_num];
188 char *msg;
189
190 if (audiod_status == AUDIOD_OFF)
191 goto empty;
192 if (!(stat_task->vss_status & VSS_STATUS_FLAG_PLAYING)) {
193 if (stat_task->length_seconds) /* paused */
194 return NULL;
195 goto empty; /* stopped */
196 }
197 if (audiod_status == AUDIOD_ON && !s)
198 goto empty;
199 /*
200 * Valid status items and playing, set length and tmp to the stream
201 * start. We use the slot info and fall back to the info from current
202 * status items if no slot info is available.
203 */
204 length = stat_task->length_seconds;
205 tmp = &stat_task->server_stream_start;
206 if (s && s->wns) { /* writer active in this slot */
207 btr_get_node_start(s->wns[0].btrn, &wstime);
208 if (wstime.tv_sec != 0) { /* writer wrote something */
209 if (s->server_stream_start.tv_sec == 0) {
210 /* copy status info to slot */
211 s->server_stream_start = stat_task->server_stream_start;
212 s->offset_seconds = stat_task->offset_seconds;
213 s->seconds_total = stat_task->length_seconds;
214 }
215 length = s->seconds_total;
216 tmp = &s->server_stream_start;
217 }
218 }
219 if (stat_task->sa_time_diff_sign > 0)
220 tv_diff(tmp, &stat_task->sa_time_diff, &sss);
221 else
222 tv_add(tmp, &stat_task->sa_time_diff, &sss);
223 if (!s || !s->wns) {
224 struct timeval diff;
225 tv_diff(now, &sss, &diff);
226 seconds = diff.tv_sec + stat_task->offset_seconds;
227 goto out;
228 }
229 tv_diff(now, &wstime, &wtime);
230 //PARA_CRIT_LOG("offset %d\n", s->offset_seconds);
231 seconds = s->offset_seconds;
232 btr_get_node_start(s->receiver_node->btrn, &rstime);
233 ret = tv_diff(&rstime, &sss, &rskip);
234 if (ret > 0) { /* audiod was started in the middle of the stream */
235 tv_add(&wtime, &rskip, &sum);
236 seconds += sum.tv_sec;
237 } else
238 seconds += wtime.tv_sec;
239 out:
240 seconds = PARA_MIN(seconds, length);
241 seconds = PARA_MAX(seconds, 0);
242 msg = make_message(
243 "%s%d:%02d [%d:%02d] (%d%%/%d:%02d)",
244 s? "" : "~",
245 seconds / 60,
246 seconds % 60,
247 (length - seconds) / 60,
248 (length - seconds) % 60,
249 length? (seconds * 100 + length / 2) / length : 0,
250 length / 60,
251 length % 60
252 );
253 PARA_DEBUG_LOG("slot %d: %s\n", slot_num, msg);
254 return msg;
255 empty:
256 return para_strdup(NULL);
257 }
258
259 static int want_colors(void)
260 {
261 if (conf.color_arg == color_arg_no)
262 return 0;
263 if (conf.color_arg == color_arg_yes)
264 return 1;
265 if (conf.logfile_given)
266 return 0;
267 return isatty(STDERR_FILENO);
268 }
269
270 static void parse_config_or_die(void)
271 {
272 int ret;
273 char *config_file;
274 struct audiod_cmdline_parser_params params = {
275 .override = 0,
276 .initialize = 0,
277 .check_required = 1,
278 .check_ambiguity = 0,
279 .print_errors = 1
280 };
281
282 if (conf.config_file_given)
283 config_file = para_strdup(conf.config_file_arg);
284 else {
285 char *home = para_homedir();
286 config_file = make_message("%s/.paraslash/audiod.conf", home);
287 free(home);
288 }
289 ret = file_exists(config_file);
290 if (conf.config_file_given && !ret) {
291 PARA_EMERG_LOG("can not read config file %s\n", config_file);
292 goto err;
293 }
294 if (ret)
295 audiod_cmdline_parser_config_file(config_file, &conf, &params);
296 free(config_file);
297 daemon_set_loglevel(conf.loglevel_arg);
298 return;
299 err:
300 free(config_file);
301 exit(EXIT_FAILURE);
302 }
303
304 static void setup_signal_handling(void)
305 {
306 sig_task->fd = para_signal_init();
307 PARA_INFO_LOG("signal pipe: fd %d\n", sig_task->fd);
308 para_install_sighandler(SIGINT);
309 para_install_sighandler(SIGTERM);
310 para_install_sighandler(SIGHUP);
311 para_sigaction(SIGPIPE, SIG_IGN);
312 }
313
314 static void clear_slot(int slot_num)
315 {
316 struct slot_info *s = &slot[slot_num];
317
318 PARA_INFO_LOG("clearing slot %d\n", slot_num);
319 memset(s, 0, sizeof(struct slot_info));
320 s->format = -1;
321 }
322
323 static void close_receiver(int slot_num)
324 {
325 struct slot_info *s = &slot[slot_num];
326 struct audio_format_info *a;
327 struct timeval restart_delay = {0, 200 * 1000};
328
329 if (s->format < 0 || !s->receiver_node)
330 return;
331 a = &afi[s->format];
332 PARA_NOTICE_LOG("closing %s receiver in slot %d\n",
333 audio_formats[s->format], slot_num);
334 a->receiver->close(s->receiver_node);
335 btr_free_node(s->receiver_node->btrn);
336 free(s->receiver_node);
337 s->receiver_node = NULL;
338 tv_add(now, &restart_delay, &afi[s->format].restart_barrier);
339 }
340
341 static void writer_cleanup(struct writer_node *wn)
342 {
343 struct writer *w;
344
345 if (!wn)
346 return;
347 w = writers + wn->writer_num;
348 PARA_INFO_LOG("closing %s\n", writer_names[wn->writer_num]);
349 w->close(wn);
350 btr_free_node(wn->btrn);
351 }
352
353 static void close_writers(struct slot_info *s)
354 {
355 struct audio_format_info *a;
356 int i;
357
358 if (s->format < 0)
359 return;
360 a = afi + s->format;
361 if (a->num_writers == 0)
362 writer_cleanup(s->wns);
363 else {
364 for (i = 0; i < a->num_writers; i++)
365 writer_cleanup(s->wns + i);
366 }
367 free(s->wns);
368 s->wns = NULL;
369 }
370
371 static void close_filters(struct slot_info *s)
372 {
373 int i;
374 struct audio_format_info *a = afi + s->format;
375 if (a->num_filters == 0)
376 return;
377 for (i = 0; i < a->num_filters; i++) {
378 struct filter_node *fn = s->fns + i;
379 struct filter *f;
380
381 if (!fn)
382 continue;
383 f = filters + fn->filter_num;
384 if (f->close)
385 f->close(fn);
386 btr_free_node(fn->btrn);
387 }
388 free(s->fns);
389 s->fns = NULL;
390 }
391
392 /*
393 * Whenever a task commits suicide by returning from post_select with t->error
394 * < 0, it also removes its btr node. We do exactly that to kill a running
395 * task. Note that the scheduler checks t->error also _before_ each pre/post
396 * select call, so the victim will never be scheduled again.
397 */
398 static void kill_btrn(struct btr_node *btrn, struct task *t, int error)
399 {
400 if (t->error < 0)
401 return;
402 t->error = error;
403 btr_remove_node(btrn);
404 }
405
406 static void kill_all_decoders(int error)
407 {
408 int i, j;
409
410 FOR_EACH_SLOT(i) {
411 struct slot_info *s = &slot[i];
412 struct audio_format_info *a;
413 if (s->format < 0)
414 continue;
415 a = afi + s->format;
416 if (s->wns)
417 for (j = 0; j < a->num_writers; j++)
418 kill_btrn(s->wns[j].btrn, &s->wns[j].task, error);
419 if (s->fns)
420 for (j = 0; j < a->num_writers; j++)
421 kill_btrn(s->fns[j].btrn, &s->wns[j].task, error);
422 if (s->receiver_node)
423 kill_btrn(s->receiver_node->btrn, &s->receiver_node->task,
424 error);
425 }
426 }
427
428 static int get_empty_slot(void)
429 {
430 int i;
431 struct slot_info *s;
432
433 FOR_EACH_SLOT(i) {
434 s = &slot[i];
435 if (s->format < 0) {
436 clear_slot(i);
437 return i;
438 }
439 if (s->wns || s->receiver_node || s->fns)
440 continue;
441 clear_slot(i);
442 return i;
443 }
444 return -E_NO_MORE_SLOTS;
445 }
446
447 /**
448 * get the number of filters
449 *
450 * \param audio_format_num the number identifying the audio format
451 *
452 * \return the number of filters for the given audio format
453 *
454 * \sa struct filter;
455 */
456 int num_filters(int audio_format_num)
457 {
458 return afi[audio_format_num].num_filters;
459 }
460
461 static void open_filters(struct slot_info *s)
462 {
463 struct audio_format_info *a = afi + s->format;
464 struct filter_node *fn;
465 int nf = a->num_filters;
466 struct btr_node *parent;
467 int i;
468
469 if (nf == 0)
470 return;
471 PARA_INFO_LOG("opening %s filters\n", audio_formats[s->format]);
472 assert(s->fns == NULL);
473 s->fns = para_calloc(nf * sizeof(struct filter_node));
474 parent = s->receiver_node->btrn;
475 for (i = 0; i < nf; i++) {
476 struct filter *f = filters + a->filter_nums[i];
477 fn = s->fns + i;
478 fn->filter_num = a->filter_nums[i];
479 fn->conf = a->filter_conf[i];
480 fn->task.pre_select = f->pre_select;
481 fn->task.post_select = f->post_select;
482 fn->btrn = btr_new_node(f->name, parent, f->execute, fn);
483 f->open(fn);
484 register_task(&fn->task);
485 parent = fn->btrn;
486 PARA_NOTICE_LOG("%s filter %d/%d (%s) started in slot %d\n",
487 audio_formats[s->format], i, nf, f->name, s - slot);
488 sprintf(fn->task.status, "%s (slot %d)", f->name, s - slot);
489 }
490 }
491
492 static void open_writers(struct slot_info *s)
493 {
494 int i;
495 struct audio_format_info *a = afi + s->format;
496 struct writer_node *wn;
497 struct btr_node *parent = s->fns[a->num_filters - 1].btrn;
498
499 assert(s->wns == NULL);
500 s->wns = para_calloc(PARA_MAX(1U, a->num_writers)
501 * sizeof(struct writer_node));
502 if (a->num_writers == 0)
503 setup_writer_node(NULL, parent, s->wns);
504 else {
505 PARA_INFO_LOG("opening %s writers\n", audio_formats[s->format]);
506 for (i = 0; i < a->num_writers; i++) {
507 wn = s->wns + i;
508 wn->conf = a->writer_conf[i];
509 wn->writer_num = a->writer_nums[i];
510 register_writer_node(wn, parent);
511 }
512 }
513 }
514
515 /* returns slot num on success */
516 static int open_receiver(int format)
517 {
518 struct audio_format_info *a = &afi[format];
519 struct slot_info *s;
520 int ret, slot_num;
521 struct receiver *r = a->receiver;
522 struct receiver_node *rn;
523 const struct timeval restart_delay = {2, 0};
524
525 ret = get_empty_slot();
526 if (ret < 0)
527 goto err;
528 slot_num = ret;
529 s = &slot[slot_num];
530 s->format = format;
531 s->receiver_node = para_calloc(sizeof(struct receiver_node));
532 rn = s->receiver_node;
533 rn->receiver = r;
534 rn->conf = a->receiver_conf;
535 rn->btrn = btr_new_node(r->name, NULL, NULL, rn);
536 ret = r->open(rn);
537 if (ret < 0) {
538 btr_free_node(rn->btrn);
539 free(rn);
540 s->receiver_node = NULL;
541 goto err;
542 }
543 PARA_NOTICE_LOG("started %s: %s receiver in slot %d\n",
544 audio_formats[s->format], r->name, slot_num);
545 rn->task.pre_select = r->pre_select;
546 rn->task.post_select = r->post_select;
547 sprintf(rn->task.status, "%s receiver node", r->name);
548 register_task(&rn->task);
549 ret = slot_num;
550 err:
551 if (ret < 0)
552 PARA_ERROR_LOG("%s\n", para_strerror(-ret));
553 tv_add(now, &restart_delay, &afi[format].restart_barrier);
554 return ret;
555 }
556
557 /* return: 0: Not running, 1: Running, -1: Running but eof (or error) */
558 static int receiver_running(int format)
559 {
560 int i, ret = 0;
561
562 FOR_EACH_SLOT(i) {
563 struct slot_info *s = &slot[i];
564 if (s->format != format)
565 continue;
566 if (!s->receiver_node)
567 continue;
568 if (s->receiver_node->task.error >= 0)
569 return 1;
570 ret = -1;
571 }
572 return ret;
573 }
574
575 struct btr_node *audiod_get_btr_root(void)
576 {
577 int i, newest_slot = -1;
578 struct timeval newest_rstime = {0, 0};
579
580 FOR_EACH_SLOT(i) {
581 struct slot_info *s = &slot[i];
582 struct timeval rstime;
583 if (!s->receiver_node)
584 continue;
585 if (s->receiver_node->task.error < 0)
586 continue;
587 btr_get_node_start(s->receiver_node->btrn, &rstime);
588 if (newest_slot >= 0 && tv_diff(&rstime, &newest_rstime, NULL) < 0)
589 continue;
590 newest_rstime = rstime;
591 newest_slot = i;
592 }
593 if (newest_slot == -1)
594 return NULL;
595 return slot[newest_slot].receiver_node->btrn;
596 }
597
598 /* returns slot num on success. */
599 static int open_current_receiver(struct sched *s)
600 {
601 struct timeval diff;
602 int ret, cafn = stat_task->current_audio_format_num;
603
604 if (cafn < 0 || !stat_task->ct)
605 return -1;
606 /* Do nothing if the 'N' flag is set or the 'P' flag is unset */
607 if (stat_task->vss_status != VSS_STATUS_FLAG_PLAYING)
608 return -1;
609 ret = receiver_running(cafn);
610 if (ret > 0) /* already running and not eof */
611 return -1;
612 if (ret < 0) { /* eof */
613 /*
614 * para_server uses a zero start time during the announcement
615 * period, i.e. before it sends the first chunk. Wait until
616 * this period begins to avoid restarting the receiver that
617 * belongs to the file just completed.
618 */
619 if (stat_task->server_stream_start.tv_sec != 0) {
620 sched_request_timeout_ms(100, s);
621 return -1;
622 }
623 }
624 if (tv_diff(now, &afi[cafn].restart_barrier, &diff) < 0) {
625 if (tv_diff(&s->timeout, &diff, NULL) > 0)
626 sched_request_timeout(&diff, s);
627 else
628 sched_min_delay(s);
629 return -1;
630 }
631 /* start a new receiver */
632 return open_receiver(cafn);
633 }
634
635 static unsigned compute_time_diff(const struct timeval *status_time)
636 {
637 struct timeval tmp, diff;
638 static unsigned count;
639 int sign, sa_time_diff_sign = stat_task->sa_time_diff_sign;
640 const struct timeval max_deviation = {0, 500 * 1000};
641 const int time_smooth = 5;
642
643 if (!status_time)
644 return count;
645 sign = tv_diff(status_time, now, &diff);
646 // PARA_NOTICE_LOG("%s: sign = %i, sa_time_diff_sign = %i\n", __func__,
647 // sign, sa_time_diff_sign);
648 if (!count) {
649 sa_time_diff_sign = sign;
650 stat_task->sa_time_diff = diff;
651 count++;
652 goto out;
653 }
654 if (count > 5) {
655 int s = tv_diff(&diff, &stat_task->sa_time_diff, &tmp);
656 if (tv_diff(&max_deviation, &tmp, NULL) < 0)
657 PARA_WARNING_LOG("time diff jump: %lims\n",
658 s * tv2ms(&tmp));
659 }
660 count++;
661 sa_time_diff_sign = tv_convex_combination(
662 sa_time_diff_sign * time_smooth, &stat_task->sa_time_diff,
663 count > 10? sign : sign * time_smooth, &diff,
664 &tmp);
665 stat_task->sa_time_diff = tmp;
666 PARA_INFO_LOG("time diff (cur/avg): %s%lums/%s%lums\n",
667 sign > 0? "+" : "-",
668 tv2ms(&diff),
669 sa_time_diff_sign ? "+" : "-",
670 tv2ms(&stat_task->sa_time_diff)
671 );
672 out:
673 stat_task->sa_time_diff_sign = sa_time_diff_sign;
674 return count;
675 }
676
677 static int update_item(int itemnum, char *buf)
678 {
679 long unsigned sec, usec;
680
681 if (stat_task->clock_diff_count && itemnum != SI_CURRENT_TIME)
682 return 1;
683 free(stat_item_values[itemnum]);
684 stat_item_values[itemnum] = para_strdup(buf);
685 stat_client_write_item(itemnum);
686 switch (itemnum) {
687 case SI_STATUS_FLAGS:
688 stat_task->vss_status = 0;
689 if (strchr(buf, 'N'))
690 stat_task->vss_status |= VSS_STATUS_FLAG_NEXT;
691 if (strchr(buf, 'P'))
692 stat_task->vss_status |= VSS_STATUS_FLAG_PLAYING;
693 break;
694 case SI_OFFSET:
695 stat_task->offset_seconds = atoi(buf);
696 break;
697 case SI_SECONDS_TOTAL:
698 stat_task->length_seconds = atoi(buf);
699 break;
700 case SI_STREAM_START:
701 if (sscanf(buf, "%lu.%lu", &sec, &usec) == 2) {
702 struct timeval a_start, delay;
703 delay.tv_sec = conf.stream_delay_arg / 1000;
704 delay.tv_usec = (conf.stream_delay_arg % 1000) * 1000;
705 stat_task->server_stream_start.tv_sec = sec;
706 stat_task->server_stream_start.tv_usec = usec;
707 if (compute_time_diff(NULL) > 2) {
708 if (stat_task->sa_time_diff_sign < 0)
709 tv_add(&stat_task->server_stream_start,
710 &stat_task->sa_time_diff, &a_start);
711 else
712 tv_diff(&stat_task->server_stream_start,
713 &stat_task->sa_time_diff, &a_start);
714 tv_add(&a_start, &delay, &initial_delay_barrier);
715 }
716 }
717 break;
718 case SI_CURRENT_TIME:
719 if (sscanf(buf, "%lu.%lu", &sec, &usec) == 2) {
720 struct timeval tv = {sec, usec};
721 compute_time_diff(&tv);
722 }
723 break;
724 case SI_FORMAT:
725 stat_task->current_audio_format_num
726 = get_audio_format_num(buf);
727 }
728 return 1;
729 }
730
731 static int parse_stream_command(const char *txt, char **cmd)
732 {
733 char *p = strchr(txt, ':');
734 int i;
735
736 if (!p)
737 return -E_MISSING_COLON;
738 p++;
739 FOR_EACH_AUDIO_FORMAT(i) {
740 if (strncmp(txt, audio_formats[i], strlen(audio_formats[i])))
741 continue;
742 *cmd = p;
743 return i;
744 }
745 return -E_UNSUPPORTED_AUDIO_FORMAT;
746 }
747
748 static int add_filter(int format, char *cmdline)
749 {
750 struct audio_format_info *a = &afi[format];
751 int filter_num, nf = a->num_filters;
752
753 filter_num = check_filter_arg(cmdline, &a->filter_conf[nf]);
754 if (filter_num < 0)
755 return filter_num;
756 a->filter_nums[nf] = filter_num;
757 a->num_filters++;
758 PARA_INFO_LOG("%s filter %d: %s\n", audio_formats[format], nf,
759 filters[filter_num].name);
760 return filter_num;
761 }
762
763 static int parse_writer_args(void)
764 {
765 int i, ret, nw;
766 char *cmd;
767 struct audio_format_info *a;
768
769 nw = PARA_MAX(1U, conf.writer_given);
770 PARA_INFO_LOG("maximal number of writers: %d\n", nw);
771 FOR_EACH_AUDIO_FORMAT(i) {
772 a = &afi[i];
773 a->writer_conf = para_malloc(nw * sizeof(void *));
774 a->writer_nums = para_malloc(nw * sizeof(int));
775 a->num_writers = 0;
776 }
777 for (i = 0; i < conf.writer_given; i++) {
778 void *wconf;
779 int writer_num;
780 ret = parse_stream_command(conf.writer_arg[i], &cmd);
781 if (ret < 0)
782 goto out;
783 a = &afi[ret];
784 nw = a->num_writers;
785 wconf = check_writer_arg(cmd, &writer_num);
786 if (!wconf) {
787 ret = writer_num;
788 goto out;
789 }
790 a->writer_nums[nw] = writer_num;
791 a->writer_conf[nw] = wconf;
792 PARA_INFO_LOG("%s writer #%d: %s\n", audio_formats[ret],
793 nw, writer_names[writer_num]);
794 a->num_writers++;
795 }
796 ret = 1;
797 out:
798 return ret;
799 }
800
801 static int parse_receiver_args(void)
802 {
803 int i, ret, receiver_num;
804 char *cmd = NULL;
805 struct audio_format_info *a;
806
807 for (i = conf.receiver_given - 1; i >= 0; i--) {
808 char *arg = conf.receiver_arg[i];
809 char *recv_arg = strchr(arg, ':');
810 ret = -E_MISSING_COLON;
811 if (!recv_arg)
812 goto out;
813 *recv_arg = '\0';
814 recv_arg++;
815 ret = get_audio_format_num(arg);
816 if (ret < 0)
817 goto out;
818 afi[ret].receiver_conf = check_receiver_arg(recv_arg, &receiver_num);
819 if (!afi[ret].receiver_conf) {
820 ret = -E_RECV_SYNTAX;
821 goto out;
822 }
823 afi[ret].receiver = &receivers[receiver_num];
824 }
825 /* use the first available receiver with no arguments
826 * for those audio formats for which no receiver
827 * was specified
828 */
829 cmd = para_strdup(receivers[0].name);
830 FOR_EACH_AUDIO_FORMAT(i) {
831 a = &afi[i];
832 if (a->receiver_conf)
833 continue;
834 a->receiver_conf = check_receiver_arg(cmd, &receiver_num);
835 if (!a->receiver_conf)
836 return -E_RECV_SYNTAX;
837 a->receiver = &receivers[receiver_num];
838 }
839 ret = 1;
840 out:
841 free(cmd);
842 return ret;
843 }
844
845 static int init_default_filters(void)
846 {
847 int i, ret = 1;
848
849 FOR_EACH_AUDIO_FORMAT(i) {
850 struct audio_format_info *a = &afi[i];
851 char *tmp;
852 int j;
853
854 if (a->num_filters)
855 continue; /* no default -- nothing to to */
856 /* add "dec" to audio format name */
857 tmp = make_message("%sdec", audio_formats[i]);
858 for (j = 0; filters[j].name; j++)
859 if (!strcmp(tmp, filters[j].name))
860 break;
861 free(tmp);
862 ret = -E_UNSUPPORTED_FILTER;
863 if (!filters[j].name)
864 goto out;
865 tmp = para_strdup(filters[j].name);
866 ret = add_filter(i, tmp);
867 free(tmp);
868 if (ret < 0)
869 goto out;
870 PARA_INFO_LOG("%s -> default filter: %s\n", audio_formats[i],
871 filters[j].name);
872 }
873 out:
874 return ret;
875 }
876
877 static int parse_filter_args(void)
878 {
879 int i, ret, nf;
880
881 nf = PARA_MAX(1U, conf.filter_given);
882 PARA_INFO_LOG("maximal number of filters: %d\n", nf);
883 FOR_EACH_AUDIO_FORMAT(i) {
884 afi[i].filter_conf = para_malloc(nf * sizeof(void *));
885 afi[i].filter_nums = para_malloc(nf * sizeof(unsigned));
886 }
887 if (!conf.no_default_filters_given)
888 return init_default_filters();
889 for (i = 0; i < conf.filter_given; i++) {
890 char *arg = conf.filter_arg[i];
891 char *filter_name = strchr(arg, ':');
892 ret = -E_MISSING_COLON;
893 if (!filter_name)
894 goto out;
895 *filter_name = '\0';
896 filter_name++;
897 ret = get_audio_format_num(arg);
898 if (ret < 0)
899 goto out;
900 ret = add_filter(ret, filter_name);
901 if (ret < 0)
902 goto out;
903 }
904 ret = init_default_filters(); /* use default values for the rest */
905 out:
906 return ret;
907 }
908
909 static int parse_stream_args(void)
910 {
911 int ret;
912
913 ret = parse_receiver_args();
914 if (ret < 0)
915 return ret;
916 ret = parse_filter_args();
917 if (ret < 0)
918 return ret;
919 ret = parse_writer_args();
920 if (ret < 0)
921 return ret;
922 return 1;
923 }
924
925 /* does not unlink socket on errors */
926 static int audiod_get_socket(void)
927 {
928 struct sockaddr_un unix_addr;
929 int ret, fd;
930
931 if (conf.socket_given)
932 socket_name = para_strdup(conf.socket_arg);
933 else {
934 char *hn = para_hostname();
935 socket_name = make_message("/var/paraslash/audiod_socket.%s",
936 hn);
937 free(hn);
938 }
939 PARA_NOTICE_LOG("local socket: %s\n", socket_name);
940 if (conf.force_given)
941 unlink(socket_name);
942 ret = create_local_socket(socket_name, &unix_addr,
943 S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP | S_IWOTH);
944 if (ret < 0)
945 goto err;
946 fd = ret;
947 if (listen(fd , 5) < 0) {
948 ret = -ERRNO_TO_PARA_ERROR(errno);
949 goto err;
950 }
951 ret = mark_fd_nonblocking(fd);
952 if (ret < 0)
953 goto err;
954 return fd;
955 err:
956 PARA_EMERG_LOG("%s\n", para_strerror(-ret));
957 exit(EXIT_FAILURE);
958 }
959
960 static void signal_pre_select(struct sched *s, struct task *t)
961 {
962 struct signal_task *st = container_of(t, struct signal_task, task);
963 para_fd_set(st->fd, &s->rfds, &s->max_fileno);
964 }
965
966 static void signal_post_select(struct sched *s, struct task *t)
967 {
968 struct signal_task *st = container_of(t, struct signal_task, task);
969
970 if (!FD_ISSET(st->fd, &s->rfds))
971 return;
972
973 st->signum = para_next_signal();
974 switch (st->signum) {
975 case SIGINT:
976 case SIGTERM:
977 case SIGHUP:
978 PARA_EMERG_LOG("terminating on signal %d\n", st->signum);
979 clean_exit(EXIT_FAILURE, "caught deadly signal");
980 }
981 }
982
983 static void signal_setup_default(struct signal_task *st)
984 {
985 st->task.pre_select = signal_pre_select;
986 st->task.post_select = signal_post_select;
987 sprintf(st->task.status, "signal task");
988 }
989
990 static void command_pre_select(struct sched *s, struct task *t)
991 {
992 struct command_task *ct = container_of(t, struct command_task, task);
993 para_fd_set(ct->fd, &s->rfds, &s->max_fileno);
994 }
995
996 static void command_post_select(struct sched *s, struct task *t)
997 {
998 int ret;
999 struct command_task *ct = container_of(t, struct command_task, task);
1000 static struct timeval last_status_dump;
1001 struct timeval tmp, delay = {0, 500 * 1000};
1002
1003 tv_add(&last_status_dump, &delay, &tmp);
1004 if (tv_diff(&tmp, now, NULL) < 0) {
1005 audiod_status_dump();
1006 last_status_dump = *now;
1007 }
1008
1009 if (!FD_ISSET(ct->fd, &s->rfds))
1010 return;
1011 ret = handle_connect(ct->fd);
1012 if (ret < 0)
1013 PARA_ERROR_LOG("%s\n", para_strerror(-ret));
1014 }
1015
1016 static void init_command_task(struct command_task *ct)
1017 {
1018 ct->task.pre_select = command_pre_select;
1019 ct->task.post_select = command_post_select;
1020 ct->task.error = 0;
1021 ct->fd = audiod_get_socket(); /* doesn't return on errors */
1022 sprintf(ct->task.status, "command task");
1023 }
1024
1025 static void close_stat_pipe(void)
1026 {
1027 if (!stat_task->ct)
1028 return;
1029 client_close(stat_task->ct);
1030 stat_task->ct = NULL;
1031 clear_and_dump_items();
1032 stat_task->length_seconds = 0;
1033 stat_task->offset_seconds = 0;
1034 stat_task->vss_status = 0;
1035 stat_task->current_audio_format_num = -1;
1036 audiod_status_dump();
1037 }
1038
1039 /**
1040 * close the connection to para_server and exit
1041 *
1042 * \param status the exit status which is passed to exit(3)
1043 * \param msg the log message
1044 *
1045 * Log \a msg with loglevel \p EMERG, close the connection to para_server if
1046 * open, and call \p exit(status). \a status should be either EXIT_SUCCESS or
1047 * EXIT_FAILURE.
1048 *
1049 * \sa exit(3)
1050 */
1051 void __noreturn clean_exit(int status, const char *msg)
1052 {
1053 PARA_EMERG_LOG("%s\n", msg);
1054 if (socket_name)
1055 unlink(socket_name);
1056 close_stat_pipe();
1057 exit(status);
1058 }
1059
1060 /* avoid busy loop if server is down */
1061 static void set_stat_task_restart_barrier(unsigned seconds)
1062 {
1063 struct timeval delay = {seconds, 0};
1064 tv_add(now, &delay, &stat_task->restart_barrier);
1065 }
1066
1067 static bool try_to_close_slot(int slot_num)
1068 {
1069 struct slot_info *s = &slot[slot_num];
1070 struct audio_format_info *a = afi + s->format;
1071 int i;
1072
1073 if (s->format < 0)
1074 return false;
1075 if (s->receiver_node && s->receiver_node->task.error != -E_TASK_UNREGISTERED)
1076 return false;
1077 for (i = 0; i < a->num_filters; i++)
1078 if (s->fns && s->fns[i].task.error != -E_TASK_UNREGISTERED)
1079 return false;
1080 if (a->num_writers > 0) {
1081 for (i = 0; i < a->num_writers; i++)
1082 if (s->wns && s->wns[i].task.error != -E_TASK_UNREGISTERED)
1083 return false;
1084 } else {
1085 if (s->wns && s->wns[0].task.error != -E_TASK_UNREGISTERED)
1086 return false;
1087 }
1088 PARA_INFO_LOG("closing slot %d\n", slot_num);
1089 close_writers(s);
1090 close_filters(s);
1091 close_receiver(slot_num);
1092 clear_slot(slot_num);
1093 return true;
1094 }
1095
1096 /*
1097 * Check if any receivers/filters/writers need to be started and do so if
1098 * necessary.
1099 */
1100 static void start_stop_decoders(struct sched *s)
1101 {
1102 int i, ret;
1103 struct slot_info *sl;
1104 struct audio_format_info *a;
1105
1106 FOR_EACH_SLOT(i)
1107 if (try_to_close_slot(i))
1108 sched_min_delay(s);
1109 if (audiod_status != AUDIOD_ON ||
1110 !(stat_task->vss_status & VSS_STATUS_FLAG_PLAYING))
1111 return kill_all_decoders(-E_NOT_PLAYING);
1112 ret = open_current_receiver(s);
1113 if (ret < 0)
1114 return;
1115 sl = slot + ret;
1116 a = afi + sl->format;
1117 if (a->num_filters)
1118 open_filters(sl);
1119 open_writers(sl);
1120 activate_grab_clients();
1121 btr_log_tree(sl->receiver_node->btrn, LL_NOTICE);
1122 sched_min_delay(s);
1123 }
1124
1125 /* restart the client task if necessary */
1126 static void status_pre_select(struct sched *s, struct task *t)
1127 {
1128 struct status_task *st = container_of(t, struct status_task, task);
1129
1130 if (audiod_status == AUDIOD_OFF) {
1131 if (!st->ct)
1132 goto out;
1133 if (st->ct->task.error >= 0) {
1134 st->ct->task.error = -E_AUDIOD_OFF;
1135 goto out;
1136 }
1137 if (st->ct->task.error != -E_TASK_UNREGISTERED)
1138 goto out;
1139 close_stat_pipe();
1140 st->clock_diff_count = conf.clock_diff_count_arg;
1141 goto out;
1142 }
1143 if (st->ct) {
1144 int ret;
1145 if (st->ct->task.error < 0) {
1146 if (st->ct->task.error != -E_TASK_UNREGISTERED)
1147 goto out;
1148 close_stat_pipe();
1149 goto out;
1150 }
1151 if (st->ct->status != CL_RECEIVING)
1152 goto out;
1153 ret = for_each_stat_item(st->ct->buf, st->ct->loaded,
1154 update_item);
1155 if (ret < 0) {
1156 st->ct->task.error = ret;
1157 goto out;
1158 }
1159 if (st->ct->loaded != ret) {
1160 st->last_status_read = *now;
1161 st->ct->loaded = ret;
1162 } else {
1163 struct timeval diff;
1164 tv_diff(now, &st->last_status_read, &diff);
1165 if (diff.tv_sec > 61)
1166 st->ct->task.error = -E_STATUS_TIMEOUT;
1167 }
1168 goto out;
1169 }
1170 if (tv_diff(now, &st->restart_barrier, NULL) < 0)
1171 goto out;
1172 if (st->clock_diff_count) { /* get status only one time */
1173 char *argv[] = {"audiod", "--", "stat", "-p", "-n=1", NULL};
1174 int argc = 5;
1175 PARA_INFO_LOG("clock diff count: %d\n", st->clock_diff_count);
1176 st->clock_diff_count--;
1177 client_open(argc, argv, &st->ct, NULL);
1178 set_stat_task_restart_barrier(2);
1179 sched_min_delay(s);
1180
1181 } else {
1182 char *argv[] = {"audiod", "--", "stat", "-p", NULL};
1183 int argc = 4;
1184 client_open(argc, argv, &st->ct, NULL);
1185 set_stat_task_restart_barrier(5);
1186 sched_min_delay(s);
1187 }
1188 free(stat_item_values[SI_BASENAME]);
1189 stat_item_values[SI_BASENAME] = para_strdup(
1190 "no connection to para_server");
1191 stat_client_write_item(SI_BASENAME);
1192 st->last_status_read = *now;
1193 out:
1194 start_stop_decoders(s);
1195 }
1196
1197 static void init_status_task(struct status_task *st)
1198 {
1199 memset(st, 0, sizeof(struct status_task));
1200 st->task.pre_select = status_pre_select;
1201 st->sa_time_diff_sign = 1;
1202 st->clock_diff_count = conf.clock_diff_count_arg;
1203 st->current_audio_format_num = -1;
1204 sprintf(st->task.status, "status task");
1205 }
1206
1207 static void set_initial_status(void)
1208 {
1209 audiod_status = AUDIOD_ON;
1210 if (!conf.mode_given)
1211 return;
1212 if (!strcmp(conf.mode_arg, "sb")) {
1213 audiod_status = AUDIOD_STANDBY;
1214 return;
1215 }
1216 if (!strcmp(conf.mode_arg, "off")) {
1217 audiod_status = AUDIOD_OFF;
1218 return;
1219 }
1220 if (strcmp(conf.mode_arg, "on"))
1221 PARA_WARNING_LOG("invalid mode\n");
1222 }
1223
1224 __noreturn static void print_help_and_die(void)
1225 {
1226 int d = conf.detailed_help_given;
1227 const char **p = d? audiod_args_info_detailed_help
1228 : audiod_args_info_help;
1229
1230 printf_or_die("%s\n\n", AUDIOD_CMDLINE_PARSER_PACKAGE "-"
1231 AUDIOD_CMDLINE_PARSER_VERSION);
1232 printf_or_die("%s\n\n", audiod_args_info_usage);
1233 for (; *p; p++)
1234 printf_or_die("%s\n", *p);
1235 print_receiver_helps(d);
1236 print_filter_helps(d);
1237 print_writer_helps(d);
1238 exit(0);
1239 }
1240
1241 static void init_colors_or_die(void)
1242 {
1243 int ret, i;
1244
1245 if (!want_colors())
1246 return;
1247 daemon_set_default_log_colors();
1248 daemon_set_flag(DF_COLOR_LOG);
1249 for (i = 0; i < conf.log_color_given; i++) {
1250 ret = daemon_set_log_color(conf.log_color_arg[i]);
1251 if (ret < 0)
1252 exit(EXIT_FAILURE);
1253 }
1254 }
1255
1256 /**
1257 * the main function of para_audiod
1258 *
1259 * \param argc usual argument count
1260 * \param argv usual argument vector
1261 *
1262 * \return EXIT_SUCCESS or EXIT_FAILURE
1263 *
1264 * \sa para_audiod(1)
1265 * */
1266 int main(int argc, char *argv[])
1267 {
1268 int ret, i;
1269 static struct sched s;
1270 struct command_task command_task_struct, *cmd_task = &command_task_struct;
1271 struct audiod_cmdline_parser_params params = {
1272 .override = 0,
1273 .initialize = 1,
1274 .check_required = 0,
1275 .check_ambiguity = 0,
1276 .print_errors = 1
1277 };
1278
1279 valid_fd_012();
1280 if (audiod_cmdline_parser_ext(argc, argv, &conf, &params))
1281 exit(EXIT_FAILURE);
1282 HANDLE_VERSION_FLAG("audiod", conf);
1283 /* init receivers/filters/writers early to make help work */
1284 recv_init();
1285 filter_init();
1286 writer_init();
1287 if (conf.help_given || conf.detailed_help_given)
1288 print_help_and_die();
1289 drop_privileges_or_die(conf.user_arg, conf.group_arg);
1290 parse_config_or_die();
1291 init_colors_or_die();
1292 init_random_seed_or_die();
1293 daemon_set_flag(DF_LOG_TIME);
1294 daemon_set_flag(DF_LOG_HOSTNAME);
1295 daemon_set_flag(DF_LOG_LL);
1296 if (conf.log_timing_given)
1297 daemon_set_flag(DF_LOG_TIMING);
1298 if (conf.logfile_given) {
1299 daemon_set_logfile(conf.logfile_arg);
1300 daemon_open_log_or_die();
1301 }
1302 ret = parse_stream_args();
1303 if (ret < 0) {
1304 PARA_EMERG_LOG("%s\n", para_strerror(-ret));
1305 exit(EXIT_FAILURE);
1306 }
1307 log_welcome("para_audiod");
1308 server_uptime(UPTIME_SET);
1309 set_initial_status();
1310 FOR_EACH_SLOT(i)
1311 clear_slot(i);
1312 setup_signal_handling();
1313 signal_setup_default(sig_task);
1314
1315 init_status_task(stat_task);
1316 init_command_task(cmd_task);
1317
1318 if (conf.daemon_given)
1319 daemonize();
1320
1321 register_task(&sig_task->task);
1322 register_task(&cmd_task->task);
1323 register_task(&stat_task->task);
1324 s.default_timeout.tv_sec = 2;
1325 s.default_timeout.tv_usec = 999 * 1000;
1326 ret = schedule(&s);
1327
1328 PARA_EMERG_LOG("%s\n", para_strerror(-ret));
1329 return EXIT_FAILURE;
1330 }