2 * This file is part of DisOrder.
3 * Copyright (C) 2007, 2008 Richard Kettlewell
5 * This program is free software: you can redistribute it and/or modify
6 * it under the terms of the GNU General Public License as published by
7 * the Free Software Foundation, either version 3 of the License, or
8 * (at your option) any later version.
10 * This program is distributed in the hope that it will be useful,
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 * GNU General Public License for more details.
15 * You should have received a copy of the GNU General Public License
16 * along with this program. If not, see <http://www.gnu.org/licenses/>.
18 /** @file clients/playrtp.c
21 * This player supports Linux (<a href="http://www.alsa-project.org/">ALSA</a>)
23 * href="http://developer.apple.com/audio/coreaudio.html">Core Audio</a>)
24 * systems. There is no support for Microsoft Windows yet, and that will in
25 * fact probably an entirely separate program.
27 * The program runs (at least) three threads:
29 * listen_thread() is responsible for reading RTP packets off the wire and
30 * adding them to the linked list @ref received_packets, assuming they are
33 * queue_thread() takes packets off this linked list and adds them to @ref
34 * packets (an operation which might be much slower due to contention for @ref
37 * control_thread() accepts commands from Disobedience (or anything else).
39 * The main thread activates and deactivates audio playing via the @ref
40 * lib/uaudio.h API (which probably implies at least one further thread).
42 * Sometimes it happens that there is no audio available to play. This may
43 * because the server went away, or a packet was dropped, or the server
44 * deliberately did not send any sound because it encountered a silence.
47 * - it is safe to read uint32_t values without a lock protecting them
53 #include <sys/socket.h>
54 #include <sys/types.h>
55 #include <sys/socket.h>
61 #include <netinet/in.h>
71 #include "configuration.h"
81 #include "inputline.h"
85 /** @brief Obsolete synonym */
86 #ifndef IPV6_JOIN_GROUP
87 # define IPV6_JOIN_GROUP IPV6_ADD_MEMBERSHIP
90 /** @brief RTP socket */
93 /** @brief Log output */
96 /** @brief Output device */
98 /** @brief Buffer low watermark in samples */
99 unsigned minbuffer
= 4 * (2 * 44100) / 10; /* 0.4 seconds */
101 /** @brief Maximum buffer size in samples
103 * We'll stop reading from the network if we have this many samples.
105 static unsigned maxbuffer
;
107 /** @brief Received packets
108 * Protected by @ref receive_lock
110 * Received packets are added to this list, and queue_thread() picks them off
111 * it and adds them to @ref packets. Whenever a packet is added to it, @ref
112 * receive_cond is signalled.
114 struct packet
*received_packets
;
116 /** @brief Tail of @ref received_packets
117 * Protected by @ref receive_lock
119 struct packet
**received_tail
= &received_packets
;
121 /** @brief Lock protecting @ref received_packets
123 * Only listen_thread() and queue_thread() ever hold this lock. It is vital
124 * that queue_thread() not hold it any longer than it strictly has to. */
125 pthread_mutex_t receive_lock
= PTHREAD_MUTEX_INITIALIZER
;
127 /** @brief Condition variable signalled when @ref received_packets is updated
129 * Used by listen_thread() to notify queue_thread() that it has added another
130 * packet to @ref received_packets. */
131 pthread_cond_t receive_cond
= PTHREAD_COND_INITIALIZER
;
133 /** @brief Length of @ref received_packets */
136 /** @brief Binary heap of received packets */
137 struct pheap packets
;
139 /** @brief Total number of samples available
141 * We make this volatile because we inspect it without a protecting lock,
142 * so the usual pthread_* guarantees aren't available.
144 volatile uint32_t nsamples
;
146 /** @brief Timestamp of next packet to play.
148 * This is set to the timestamp of the last packet, plus the number of
149 * samples it contained. Only valid if @ref active is nonzero.
151 uint32_t next_timestamp
;
153 /** @brief True if actively playing
155 * This is true when playing and false when just buffering. */
158 /** @brief Lock protecting @ref packets */
159 pthread_mutex_t lock
= PTHREAD_MUTEX_INITIALIZER
;
161 /** @brief Condition variable signalled whenever @ref packets is changed */
162 pthread_cond_t cond
= PTHREAD_COND_INITIALIZER
;
164 /** @brief Backend to play with */
165 static const struct uaudio
*backend
;
167 HEAP_DEFINE(pheap
, struct packet
*, lt_packet
);
169 /** @brief Control socket or NULL */
170 const char *control_socket
;
172 /** @brief Buffer for debugging dump
174 * The debug dump is enabled by the @c --dump option. It records the last 20s
175 * of audio to the specified file (which will be about 3.5Mbytes). The file is
176 * written as as ring buffer, so the start point will progress through it.
178 * Use clients/dump2wav to convert this to a WAV file, which can then be loaded
179 * into (e.g.) Audacity for further inspection.
181 * All three backends (ALSA, OSS, Core Audio) now support this option.
183 * The idea is to allow the user a few seconds to react to an audible artefact.
185 int16_t *dump_buffer
;
187 /** @brief Current index within debugging dump */
190 /** @brief Size of debugging dump in samples */
191 size_t dump_size
= 44100/*Hz*/ * 2/*channels*/ * 20/*seconds*/;
193 static const struct option options
[] = {
194 { "help", no_argument
, 0, 'h' },
195 { "version", no_argument
, 0, 'V' },
196 { "debug", no_argument
, 0, 'd' },
197 { "device", required_argument
, 0, 'D' },
198 { "min", required_argument
, 0, 'm' },
199 { "max", required_argument
, 0, 'x' },
200 { "rcvbuf", required_argument
, 0, 'R' },
201 #if HAVE_SYS_SOUNDCARD_H || EMPEG_HOST
202 { "oss", no_argument
, 0, 'o' },
204 #if HAVE_ALSA_ASOUNDLIB_H
205 { "alsa", no_argument
, 0, 'a' },
207 #if HAVE_COREAUDIO_AUDIOHARDWARE_H
208 { "core-audio", no_argument
, 0, 'c' },
210 { "dump", required_argument
, 0, 'r' },
211 { "command", required_argument
, 0, 'e' },
212 { "pause-mode", required_argument
, 0, 'P' },
213 { "socket", required_argument
, 0, 's' },
214 { "config", required_argument
, 0, 'C' },
215 { "monitor", no_argument
, 0, 'M' },
219 /** @brief Control thread
221 * This thread is responsible for accepting control commands from Disobedience
222 * (or other controllers) over an AF_UNIX stream socket with a path specified
223 * by the @c --socket option. The protocol uses simple string commands and
226 * - @c stop will shut the player down
227 * - @c query will send back the reply @c running
228 * - anything else is ignored
230 * Commands and response strings terminated by shutting down the connection or
231 * by a newline. No attempt is made to multiplex multiple clients so it is
232 * important that the command be sent as soon as the connection is made - it is
233 * assumed that both parties to the protocol are entirely cooperating with one
236 static void *control_thread(void attribute((unused
)) *arg
) {
237 struct sockaddr_un sa
;
243 assert(control_socket
);
244 unlink(control_socket
);
245 memset(&sa
, 0, sizeof sa
);
246 sa
.sun_family
= AF_UNIX
;
247 strcpy(sa
.sun_path
, control_socket
);
248 sfd
= xsocket(PF_UNIX
, SOCK_STREAM
, 0);
249 if(bind(sfd
, (const struct sockaddr
*)&sa
, sizeof sa
) < 0)
250 fatal(errno
, "error binding to %s", control_socket
);
251 if(listen(sfd
, 128) < 0)
252 fatal(errno
, "error calling listen on %s", control_socket
);
253 info("listening on %s", control_socket
);
256 cfd
= accept(sfd
, (struct sockaddr
*)&sa
, &salen
);
263 fatal(errno
, "error calling accept on %s", control_socket
);
266 if(!(fp
= fdopen(cfd
, "r+"))) {
267 error(errno
, "error calling fdopen for %s connection", control_socket
);
271 if(!inputline(control_socket
, fp
, &line
, '\n')) {
272 if(!strcmp(line
, "stop")) {
273 info("stopped via %s", control_socket
);
274 exit(0); /* terminate immediately */
276 if(!strcmp(line
, "query"))
277 fprintf(fp
, "running");
281 error(errno
, "error closing %s connection", control_socket
);
285 /** @brief Drop the first packet
287 * Assumes that @ref lock is held.
289 static void drop_first_packet(void) {
290 if(pheap_count(&packets
)) {
291 struct packet
*const p
= pheap_remove(&packets
);
292 nsamples
-= p
->nsamples
;
293 playrtp_free_packet(p
);
294 pthread_cond_broadcast(&cond
);
298 /** @brief Background thread adding packets to heap
300 * This just transfers packets from @ref received_packets to @ref packets. It
301 * is important that it holds @ref receive_lock for as little time as possible,
302 * in order to minimize the interval between calls to read() in
305 static void *queue_thread(void attribute((unused
)) *arg
) {
309 /* Get the next packet */
310 pthread_mutex_lock(&receive_lock
);
311 while(!received_packets
) {
312 pthread_cond_wait(&receive_cond
, &receive_lock
);
314 p
= received_packets
;
315 received_packets
= p
->next
;
316 if(!received_packets
)
317 received_tail
= &received_packets
;
319 pthread_mutex_unlock(&receive_lock
);
320 /* Add it to the heap */
321 pthread_mutex_lock(&lock
);
322 pheap_insert(&packets
, p
);
323 nsamples
+= p
->nsamples
;
324 pthread_cond_broadcast(&cond
);
325 pthread_mutex_unlock(&lock
);
329 /** @brief Background thread collecting samples
331 * This function collects samples, perhaps converts them to the target format,
332 * and adds them to the packet list.
334 * It is crucial that the gap between successive calls to read() is as small as
335 * possible: otherwise packets will be dropped.
337 * We use a binary heap to ensure that the unavoidable effort is at worst
338 * logarithmic in the total number of packets - in fact if packets are mostly
339 * received in order then we will largely do constant work per packet since the
340 * newest packet will always be last.
342 * Of more concern is that we must acquire the lock on the heap to add a packet
343 * to it. If this proves a problem in practice then the answer would be
344 * (probably doubly) linked list with new packets added the end and a second
345 * thread which reads packets off the list and adds them to the heap.
347 * We keep memory allocation (mostly) very fast by keeping pre-allocated
348 * packets around; see @ref playrtp_new_packet().
350 static void *listen_thread(void attribute((unused
)) *arg
) {
351 struct packet
*p
= 0;
353 struct rtp_header header
;
360 p
= playrtp_new_packet();
361 iov
[0].iov_base
= &header
;
362 iov
[0].iov_len
= sizeof header
;
363 iov
[1].iov_base
= p
->samples_raw
;
364 iov
[1].iov_len
= sizeof p
->samples_raw
/ sizeof *p
->samples_raw
;
365 n
= readv(rtpfd
, iov
, 2);
371 fatal(errno
, "error reading from socket");
374 /* Ignore too-short packets */
375 if((size_t)n
<= sizeof (struct rtp_header
)) {
376 info("ignored a short packet");
379 timestamp
= htonl(header
.timestamp
);
380 seq
= htons(header
.seq
);
381 /* Ignore packets in the past */
382 if(active
&& lt(timestamp
, next_timestamp
)) {
383 info("dropping old packet, timestamp=%"PRIx32
" < %"PRIx32
,
384 timestamp
, next_timestamp
);
387 /* Ignore packets with the extension bit set. */
388 if(header
.vpxcc
& 0x10)
392 p
->timestamp
= timestamp
;
393 /* Convert to target format */
394 if(header
.mpt
& 0x80)
396 switch(header
.mpt
& 0x7F) {
398 p
->nsamples
= (n
- sizeof header
) / sizeof(uint16_t);
400 /* TODO support other RFC3551 media types (when the speaker does) */
402 fatal(0, "unsupported RTP payload type %d",
405 /* See if packet is silent */
406 const uint16_t *s
= p
->samples_raw
;
414 fprintf(logfp
, "sequence %u timestamp %"PRIx32
" length %"PRIx32
" end %"PRIx32
"\n",
415 seq
, timestamp
, p
->nsamples
, timestamp
+ p
->nsamples
);
416 /* Stop reading if we've reached the maximum.
418 * This is rather unsatisfactory: it means that if packets get heavily
419 * out of order then we guarantee dropouts. But for now... */
420 if(nsamples
>= maxbuffer
) {
421 pthread_mutex_lock(&lock
);
422 while(nsamples
>= maxbuffer
) {
423 pthread_cond_wait(&cond
, &lock
);
425 pthread_mutex_unlock(&lock
);
427 /* Add the packet to the receive queue */
428 pthread_mutex_lock(&receive_lock
);
430 received_tail
= &p
->next
;
432 pthread_cond_signal(&receive_cond
);
433 pthread_mutex_unlock(&receive_lock
);
434 /* We'll need a new packet */
439 /** @brief Wait until the buffer is adequately full
441 * Must be called with @ref lock held.
443 void playrtp_fill_buffer(void) {
444 /* Discard current buffer contents */
446 //fprintf(stderr, "%8u/%u (%u) DROPPING\n", nsamples, maxbuffer, minbuffer);
449 info("Buffering...");
450 /* Wait until there's at least minbuffer samples available */
451 while(nsamples
< minbuffer
) {
452 //fprintf(stderr, "%8u/%u (%u) FILLING\n", nsamples, maxbuffer, minbuffer);
453 pthread_cond_wait(&cond
, &lock
);
455 /* Start from whatever is earliest */
456 next_timestamp
= pheap_first(&packets
)->timestamp
;
460 /** @brief Find next packet
461 * @return Packet to play or NULL if none found
463 * The return packet is merely guaranteed not to be in the past: it might be
464 * the first packet in the future rather than one that is actually suitable to
467 * Must be called with @ref lock held.
469 struct packet
*playrtp_next_packet(void) {
470 while(pheap_count(&packets
)) {
471 struct packet
*const p
= pheap_first(&packets
);
472 if(le(p
->timestamp
+ p
->nsamples
, next_timestamp
)) {
473 /* This packet is in the past. Drop it and try another one. */
476 /* This packet is NOT in the past. (It might be in the future
483 /* display usage message and terminate */
484 static void help(void) {
486 " disorder-playrtp [OPTIONS] [[ADDRESS] PORT]\n"
488 " --device, -D DEVICE Output device\n"
489 " --min, -m FRAMES Buffer low water mark\n"
490 " --max, -x FRAMES Buffer maximum size\n"
491 " --rcvbuf, -R BYTES Socket receive buffer size\n"
492 " --config, -C PATH Set configuration file\n"
493 #if HAVE_ALSA_ASOUNDLIB_H
494 " --alsa, -a Use ALSA to play audio\n"
496 #if HAVE_SYS_SOUNDCARD_H || EMPEG_HOST
497 " --oss, -o Use OSS to play audio\n"
499 #if HAVE_COREAUDIO_AUDIOHARDWARE_H
500 " --core-audio, -c Use Core Audio to play audio\n"
502 " --command, -e COMMAND Pipe audio to command.\n"
503 " --pause-mode, -P silence For -e: pauses send silence (default)\n"
504 " --pause-mode, -P suspend For -e: pauses suspend writes\n"
505 " --help, -h Display usage message\n"
506 " --version, -V Display version number\n"
512 static size_t playrtp_callback(void *buffer
,
514 void attribute((unused
)) *userdata
) {
518 pthread_mutex_lock(&lock
);
519 /* Get the next packet, junking any that are now in the past */
520 const struct packet
*p
= playrtp_next_packet();
521 if(p
&& contains(p
, next_timestamp
)) {
522 /* This packet is ready to play; the desired next timestamp points
523 * somewhere into it. */
525 /* Timestamp of end of packet */
526 const uint32_t packet_end
= p
->timestamp
+ p
->nsamples
;
528 /* Offset of desired next timestamp into current packet */
529 const uint32_t offset
= next_timestamp
- p
->timestamp
;
531 /* Pointer to audio data */
532 const uint16_t *ptr
= (void *)(p
->samples_raw
+ offset
);
534 /* Compute number of samples left in packet, limited to output buffer
536 samples
= packet_end
- next_timestamp
;
537 if(samples
> max_samples
)
538 samples
= max_samples
;
540 /* Copy into buffer, converting to native endianness */
542 int16_t *bufptr
= buffer
;
544 *bufptr
++ = (int16_t)ntohs(*ptr
++);
547 silent
= !!(p
->flags
& SILENT
);
549 /* There is no suitable packet. We introduce 0s up to the next packet, or
550 * to fill the buffer if there's no next packet or that's too many. The
551 * comparison with max_samples deals with the otherwise troubling overflow
553 samples
= p ? p
->timestamp
- next_timestamp
: max_samples
;
554 if(samples
> max_samples
)
555 samples
= max_samples
;
556 //info("infill by %zu", samples);
557 memset(buffer
, 0, samples
* uaudio_sample_size
);
562 for(size_t i
= 0; i
< samples
; ++i
) {
563 dump_buffer
[dump_index
++] = ((int16_t *)buffer
)[i
];
564 dump_index
%= dump_size
;
567 /* Advance timestamp */
568 next_timestamp
+= samples
;
569 /* If we're getting behind then try to drop just silent packets */
570 if(nsamples
> minbuffer
&& silent
) {
571 info("dropping %zu samples (%"PRIu32
" > %"PRIu32
")",
572 samples
, nsamples
, minbuffer
);
575 /* Junk obsolete packets */
576 playrtp_next_packet();
577 pthread_mutex_unlock(&lock
);
581 int main(int argc
, char **argv
) {
583 struct addrinfo
*res
;
584 struct stringlist sl
;
586 int rcvbuf
, target_rcvbuf
= 0;
589 struct ipv6_mreq mreq6
;
591 char *address
, *port
;
595 struct sockaddr_in in
;
596 struct sockaddr_in6 in6
;
598 union any_sockaddr mgroup
;
599 const char *dumpfile
= 0;
602 static const int one
= 1;
604 static const struct addrinfo prefs
= {
605 .ai_flags
= AI_PASSIVE
,
606 .ai_family
= PF_INET
,
607 .ai_socktype
= SOCK_DGRAM
,
608 .ai_protocol
= IPPROTO_UDP
611 /* Timing information is often important to debugging playrtp, so we include
612 * timestamps in the logs */
615 if(!setlocale(LC_CTYPE
, "")) fatal(errno
, "error calling setlocale");
616 backend
= uaudio_apis
[0];
617 while((n
= getopt_long(argc
, argv
, "hVdD:m:x:L:R:aocC:re:P:M", options
, 0)) >= 0) {
620 case 'V': version("disorder-playrtp");
621 case 'd': debugging
= 1; break;
622 case 'D': uaudio_set("device", optarg
); break;
623 case 'm': minbuffer
= 2 * atol(optarg
); break;
624 case 'x': maxbuffer
= 2 * atol(optarg
); break;
625 case 'L': logfp
= fopen(optarg
, "w"); break;
626 case 'R': target_rcvbuf
= atoi(optarg
); break;
627 #if HAVE_ALSA_ASOUNDLIB_H
628 case 'a': backend
= &uaudio_alsa
; break;
630 #if HAVE_SYS_SOUNDCARD_H || EMPEG_HOST
631 case 'o': backend
= &uaudio_oss
; break;
633 #if HAVE_COREAUDIO_AUDIOHARDWARE_H
634 case 'c': backend
= &uaudio_coreaudio
; break;
636 case 'C': configfile
= optarg
; break;
637 case 's': control_socket
= optarg
; break;
638 case 'r': dumpfile
= optarg
; break;
639 case 'e': backend
= &uaudio_command
; uaudio_set("command", optarg
); break;
640 case 'P': uaudio_set("pause-mode", optarg
); break;
641 case 'M': monitor
= 1; break;
642 default: fatal(0, "invalid option");
645 if(config_read(0, NULL
)) fatal(0, "cannot read configuration");
647 maxbuffer
= 2 * minbuffer
;
652 /* Get configuration from server */
653 if(!(c
= disorder_new(1))) exit(EXIT_FAILURE
);
654 if(disorder_connect(c
)) exit(EXIT_FAILURE
);
655 if(disorder_rtp_address(c
, &address
, &port
)) exit(EXIT_FAILURE
);
657 sl
.s
= xcalloc(2, sizeof *sl
.s
);
663 /* Use command-line ADDRESS+PORT or just PORT */
668 fatal(0, "usage: disorder-playrtp [OPTIONS] [[ADDRESS] PORT]");
670 /* Look up address and port */
671 if(!(res
= get_address(&sl
, &prefs
, &sockname
)))
673 /* Create the socket */
674 if((rtpfd
= socket(res
->ai_family
,
676 res
->ai_protocol
)) < 0)
677 fatal(errno
, "error creating socket");
678 /* Allow multiple listeners */
679 xsetsockopt(rtpfd
, SOL_SOCKET
, SO_REUSEADDR
, &one
, sizeof one
);
680 is_multicast
= multicast(res
->ai_addr
);
681 /* The multicast and unicast/broadcast cases are different enough that they
682 * are totally split. Trying to find commonality between them causes more
683 * trouble that it's worth. */
685 /* Stash the multicast group address */
686 memcpy(&mgroup
, res
->ai_addr
, res
->ai_addrlen
);
687 switch(res
->ai_addr
->sa_family
) {
689 mgroup
.in
.sin_port
= 0;
692 mgroup
.in6
.sin6_port
= 0;
695 fatal(0, "unsupported family %d", (int)res
->ai_addr
->sa_family
);
697 /* Bind to to the multicast group address */
698 if(bind(rtpfd
, res
->ai_addr
, res
->ai_addrlen
) < 0)
699 fatal(errno
, "error binding socket to %s", format_sockaddr(res
->ai_addr
));
700 /* Add multicast group membership */
701 switch(mgroup
.sa
.sa_family
) {
703 mreq
.imr_multiaddr
= mgroup
.in
.sin_addr
;
704 mreq
.imr_interface
.s_addr
= 0; /* use primary interface */
705 if(setsockopt(rtpfd
, IPPROTO_IP
, IP_ADD_MEMBERSHIP
,
706 &mreq
, sizeof mreq
) < 0)
707 fatal(errno
, "error calling setsockopt IP_ADD_MEMBERSHIP");
710 mreq6
.ipv6mr_multiaddr
= mgroup
.in6
.sin6_addr
;
711 memset(&mreq6
.ipv6mr_interface
, 0, sizeof mreq6
.ipv6mr_interface
);
712 if(setsockopt(rtpfd
, IPPROTO_IPV6
, IPV6_JOIN_GROUP
,
713 &mreq6
, sizeof mreq6
) < 0)
714 fatal(errno
, "error calling setsockopt IPV6_JOIN_GROUP");
717 fatal(0, "unsupported address family %d", res
->ai_family
);
719 /* Report what we did */
720 info("listening on %s multicast group %s",
721 format_sockaddr(res
->ai_addr
), format_sockaddr(&mgroup
.sa
));
724 switch(res
->ai_addr
->sa_family
) {
726 struct sockaddr_in
*in
= (struct sockaddr_in
*)res
->ai_addr
;
728 memset(&in
->sin_addr
, 0, sizeof (struct in_addr
));
729 if(bind(rtpfd
, res
->ai_addr
, res
->ai_addrlen
) < 0)
730 fatal(errno
, "error binding socket to 0.0.0.0 port %d",
731 ntohs(in
->sin_port
));
735 struct sockaddr_in6
*in6
= (struct sockaddr_in6
*)res
->ai_addr
;
737 memset(&in6
->sin6_addr
, 0, sizeof (struct in6_addr
));
741 fatal(0, "unsupported family %d", (int)res
->ai_addr
->sa_family
);
743 if(bind(rtpfd
, res
->ai_addr
, res
->ai_addrlen
) < 0)
744 fatal(errno
, "error binding socket to %s", format_sockaddr(res
->ai_addr
));
745 /* Report what we did */
746 info("listening on %s", format_sockaddr(res
->ai_addr
));
749 if(getsockopt(rtpfd
, SOL_SOCKET
, SO_RCVBUF
, &rcvbuf
, &len
) < 0)
750 fatal(errno
, "error calling getsockopt SO_RCVBUF");
751 if(target_rcvbuf
> rcvbuf
) {
752 if(setsockopt(rtpfd
, SOL_SOCKET
, SO_RCVBUF
,
753 &target_rcvbuf
, sizeof target_rcvbuf
) < 0)
754 error(errno
, "error calling setsockopt SO_RCVBUF %d",
756 /* We try to carry on anyway */
758 info("changed socket receive buffer from %d to %d",
759 rcvbuf
, target_rcvbuf
);
761 info("default socket receive buffer %d", rcvbuf
);
762 //info("minbuffer %u maxbuffer %u", minbuffer, maxbuffer);
764 info("WARNING: -L option can impact performance");
768 if((err
= pthread_create(&tid
, 0, control_thread
, 0)))
769 fatal(err
, "pthread_create control_thread");
773 unsigned char buffer
[65536];
776 if((fd
= open(dumpfile
, O_RDWR
|O_TRUNC
|O_CREAT
, 0666)) < 0)
777 fatal(errno
, "opening %s", dumpfile
);
778 /* Fill with 0s to a suitable size */
779 memset(buffer
, 0, sizeof buffer
);
780 for(written
= 0; written
< dump_size
* sizeof(int16_t);
781 written
+= sizeof buffer
) {
782 if(write(fd
, buffer
, sizeof buffer
) < 0)
783 fatal(errno
, "clearing %s", dumpfile
);
785 /* Map the buffer into memory for convenience */
786 dump_buffer
= mmap(0, dump_size
* sizeof(int16_t), PROT_READ
|PROT_WRITE
,
788 if(dump_buffer
== (void *)-1)
789 fatal(errno
, "mapping %s", dumpfile
);
790 info("dumping to %s", dumpfile
);
792 /* Set up output. Currently we only support L16 so there's no harm setting
793 * the format before we know what it is! */
794 uaudio_set_format(44100/*Hz*/, 2/*channels*/,
795 16/*bits/channel*/, 1/*signed*/);
796 backend
->start(playrtp_callback
, NULL
);
797 /* We receive and convert audio data in a background thread */
798 if((err
= pthread_create(<id
, 0, listen_thread
, 0)))
799 fatal(err
, "pthread_create listen_thread");
800 /* We have a second thread to add received packets to the queue */
801 if((err
= pthread_create(<id
, 0, queue_thread
, 0)))
802 fatal(err
, "pthread_create queue_thread");
803 pthread_mutex_lock(&lock
);
806 /* Wait for the buffer to fill up a bit */
807 playrtp_fill_buffer();
808 /* Start playing now */
810 next_timestamp
= pheap_first(&packets
)->timestamp
;
812 pthread_mutex_unlock(&lock
);
814 pthread_mutex_lock(&lock
);
815 /* Wait until the buffer empties out
817 * If there's a packet that we can play right now then we definitely
820 * Also if there's at least minbuffer samples we carry on regardless and
821 * insert silence. The assumption is there's been a pause but more data
824 while(nsamples
>= minbuffer
826 && contains(pheap_first(&packets
), next_timestamp
))) {
828 time_t now
= time(0);
830 if(now
>= lastlog
+ 60) {
831 int offset
= nsamples
- minbuffer
;
832 double offtime
= (double)offset
/ (uaudio_rate
* uaudio_channels
);
833 info("%+d samples off (%d.%02ds, %d bytes)",
835 (int)fabs(offtime
) * (offtime
< 0 ?
-1 : 1),
836 (int)(fabs(offtime
) * 100) % 100,
837 offset
* uaudio_bits
/ CHAR_BIT
);
841 //fprintf(stderr, "%8u/%u (%u) PLAYING\n", nsamples, maxbuffer, minbuffer);
842 pthread_cond_wait(&cond
, &lock
);
846 struct packet
*p
= pheap_first(&packets
);
847 fprintf(stderr
, "nsamples=%u (%u) next_timestamp=%"PRIx32
", first packet is [%"PRIx32
",%"PRIx32
")\n",
848 nsamples
, minbuffer
, next_timestamp
,p
->timestamp
,p
->timestamp
+p
->nsamples
);
851 /* Stop playing for a bit until the buffer re-fills */
852 pthread_mutex_unlock(&lock
);
853 backend
->deactivate();
854 pthread_mutex_lock(&lock
);