2 * This file is part of DisOrder.
3 * Copyright (C) 2007 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 2 of the License, or
8 * (at your option) any later version.
10 * This program is distributed in the hope that it will be useful, but
11 * WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
13 * 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, write to the Free Software
17 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
20 /** @file clients/playrtp.c
23 * This player supports Linux (<a href="http://www.alsa-project.org/">ALSA</a>)
25 * href="http://developer.apple.com/audio/coreaudio.html">Core Audio</a>)
26 * systems. There is no support for Microsoft Windows yet, and that will in
27 * fact probably an entirely separate program.
29 * The program runs (at least) two threads. listen_thread() is responsible for
30 * reading RTP packets off the wire and adding them to the binary heap @ref
31 * packets, assuming they are basically sound.
33 * The main thread is responsible for actually playing audio. In ALSA this
34 * means it waits until ALSA says it's ready for more audio which it then
37 * InCore Audio the main thread is only responsible for starting and stopping
38 * play: the system does the actual playback in its own private thread, and
39 * calls adioproc() to fetch the audio data.
41 * Sometimes it happens that there is no audio available to play. This may
42 * because the server went away, or a packet was dropped, or the server
43 * deliberately did not send any sound because it encountered a silence.
52 #include <sys/socket.h>
53 #include <sys/types.h>
54 #include <sys/socket.h>
63 #include "configuration.h"
71 #if HAVE_COREAUDIO_AUDIOHARDWARE_H
72 # include <CoreAudio/AudioHardware.h>
75 #include <alsa/asoundlib.h>
78 #define readahead linux_headers_are_borked
80 /** @brief RTP socket */
83 /** @brief Log output */
86 /** @brief Output device */
87 static const char *device
;
89 /** @brief Maximum samples per packet we'll support
91 * NB that two channels = two samples in this program.
93 #define MAXSAMPLES 2048
95 /** @brief Minimum low watermark
97 * We'll stop playing if there's only this many samples in the buffer. */
98 static unsigned minbuffer
= 2 * 44100 / 10; /* 0.2 seconds */
100 /** @brief Buffer high watermark
102 * We'll only start playing when this many samples are available. */
103 static unsigned readahead
= 2 * 2 * 44100;
105 /** @brief Maximum buffer size
107 * We'll stop reading from the network if we have this many samples. */
108 static unsigned maxbuffer
;
110 /** @brief Number of samples to infill by in one go
112 * This is an upper bound - in practice we expect the underlying audio API to
113 * only ask for a much smaller number of samples in any one go.
115 #define INFILL_SAMPLES (44100 * 2) /* 1s */
117 /** @brief Received packet
119 * Received packets are kept in a binary heap (see @ref pheap) ordered by
123 /** @brief Number of samples in this packet */
126 /** @brief Timestamp from RTP packet
128 * NB that "timestamps" are really sample counters. Use lt() or lt_packet()
129 * to compare timestamps.
136 * - @ref IDLE - the idle bit was set in the RTP packet
139 /** @brief idle bit set in RTP packet*/
142 /** @brief Raw sample data
144 * Only the first @p nsamples samples are defined; the rest is uninitialized
147 uint16_t samples_raw
[MAXSAMPLES
];
150 /** @brief Return true iff \f$a < b\f$ in sequence-space arithmetic
152 * Specifically it returns true if \f$(a-b) mod 2^{32} < 2^{31}\f$.
154 * See also lt_packet().
156 static inline int lt(uint32_t a
, uint32_t b
) {
157 return (uint32_t)(a
- b
) & 0x80000000;
160 /** @brief Return true iff a >= b in sequence-space arithmetic */
161 static inline int ge(uint32_t a
, uint32_t b
) {
165 /** @brief Return true iff a > b in sequence-space arithmetic */
166 static inline int gt(uint32_t a
, uint32_t b
) {
170 /** @brief Return true iff a <= b in sequence-space arithmetic */
171 static inline int le(uint32_t a
, uint32_t b
) {
175 /** @brief Ordering for packets, used by @ref pheap */
176 static inline int lt_packet(const struct packet
*a
, const struct packet
*b
) {
177 return lt(a
->timestamp
, b
->timestamp
);
181 * @brief Binary heap of packets ordered by timestamp */
182 HEAP_TYPE(pheap
, struct packet
*, lt_packet
);
184 /** @brief Binary heap of received packets */
185 static struct pheap packets
;
187 /** @brief Total number of samples available */
188 static unsigned long nsamples
;
190 /** @brief Timestamp of next packet to play.
192 * This is set to the timestamp of the last packet, plus the number of
193 * samples it contained. Only valid if @ref active is nonzero.
195 static uint32_t next_timestamp
;
197 /** @brief True if actively playing
199 * This is true when playing and false when just buffering. */
202 /** @brief Structure of free packet list */
205 union free_packet
*next
;
208 /** @brief Linked list of free packets
210 * This is a linked list of formerly used packets. For preference we re-use
211 * packets that have already been used rather than unused ones, to limit the
212 * size of the program's working set. If there are no free packets in the list
213 * we try @ref next_free_packet instead.
215 * Must hold @ref lock when accessing this.
217 static union free_packet
*free_packets
;
219 /** @brief Array of new free packets
221 * There are @ref count_free_packets ready to use at this address. If there
222 * are none left we allocate more memory.
224 * Must hold @ref lock when accessing this.
226 static union free_packet
*next_free_packet
;
228 /** @brief Count of new free packets at @ref next_free_packet
230 * Must hold @ref lock when accessing this.
232 static size_t count_free_packets
;
234 /** @brief Lock protecting @ref packets
236 * This also protects the packet memory allocation infrastructure, @ref
237 * free_packets and @ref next_free_packet. */
238 static pthread_mutex_t lock
= PTHREAD_MUTEX_INITIALIZER
;
240 /** @brief Condition variable signalled whenever @ref packets is changed */
241 static pthread_cond_t cond
= PTHREAD_COND_INITIALIZER
;
243 static const struct option options
[] = {
244 { "help", no_argument
, 0, 'h' },
245 { "version", no_argument
, 0, 'V' },
246 { "debug", no_argument
, 0, 'd' },
247 { "device", required_argument
, 0, 'D' },
248 { "min", required_argument
, 0, 'm' },
249 { "max", required_argument
, 0, 'x' },
250 { "buffer", required_argument
, 0, 'b' },
254 /** @brief Return a new packet
256 * Assumes that @ref lock is held. */
257 static struct packet
*new_packet(void) {
261 p
= &free_packets
->p
;
262 free_packets
= free_packets
->next
;
264 if(!count_free_packets
) {
265 next_free_packet
= xcalloc(1024, sizeof (union free_packet
));
266 count_free_packets
= 1024;
268 p
= &(next_free_packet
++)->p
;
269 --count_free_packets
;
274 /** @brief Free a packet
276 * Assumes that @ref lock is held. */
277 static void free_packet(struct packet
*p
) {
278 union free_packet
*u
= (union free_packet
*)p
;
279 u
->next
= free_packets
;
283 /** @brief Drop the first packet
285 * Assumes that @ref lock is held.
287 static void drop_first_packet(void) {
288 if(pheap_count(&packets
)) {
289 struct packet
*const p
= pheap_remove(&packets
);
290 nsamples
-= p
->nsamples
;
292 pthread_cond_broadcast(&cond
);
296 /** @brief Background thread collecting samples
298 * This function collects samples, perhaps converts them to the target format,
299 * and adds them to the packet list.
301 * It is crucial that the gap between successive calls to read() is as small as
302 * possible: otherwise packets will be dropped.
304 * We use a binary heap to ensure that the unavoidable effort is at worst
305 * logarithmic in the total number of packets - in fact if packets are mostly
306 * received in order then we will largely do constant work per packet since the
307 * newest packet will always be last.
309 * Of more concern is that we must acquire the lock on the heap to add a packet
310 * to it. If this proves a problem in practice then the answer would be
311 * (probably doubly) linked list with new packets added the end and a second
312 * thread which reads packets off the list and adds them to the heap.
314 * We keep memory allocation (mostly) very fast by keeping pre-allocated
315 * packets around; see @ref new_packet().
317 static void *listen_thread(void attribute((unused
)) *arg
) {
318 struct packet
*p
= 0;
320 struct rtp_header header
;
327 pthread_mutex_lock(&lock
);
329 pthread_mutex_unlock(&lock
);
331 iov
[0].iov_base
= &header
;
332 iov
[0].iov_len
= sizeof header
;
333 iov
[1].iov_base
= p
->samples_raw
;
334 iov
[1].iov_len
= sizeof p
->samples_raw
/ sizeof *p
->samples_raw
;
335 n
= readv(rtpfd
, iov
, 2);
341 fatal(errno
, "error reading from socket");
344 /* Ignore too-short packets */
345 if((size_t)n
<= sizeof (struct rtp_header
)) {
346 info("ignored a short packet");
349 timestamp
= htonl(header
.timestamp
);
350 seq
= htons(header
.seq
);
351 /* Ignore packets in the past */
352 if(active
&& lt(timestamp
, next_timestamp
)) {
353 info("dropping old packet, timestamp=%"PRIx32
" < %"PRIx32
,
354 timestamp
, next_timestamp
);
357 pthread_mutex_lock(&lock
);
359 p
->timestamp
= timestamp
;
360 /* Convert to target format */
361 if(header
.mpt
& 0x80)
363 switch(header
.mpt
& 0x7F) {
365 p
->nsamples
= (n
- sizeof header
) / sizeof(uint16_t);
367 /* TODO support other RFC3551 media types (when the speaker does) */
369 fatal(0, "unsupported RTP payload type %d",
373 fprintf(logfp
, "sequence %u timestamp %"PRIx32
" length %"PRIx32
" end %"PRIx32
"\n",
374 seq
, timestamp
, p
->nsamples
, timestamp
+ p
->nsamples
);
375 /* Stop reading if we've reached the maximum.
377 * This is rather unsatisfactory: it means that if packets get heavily
378 * out of order then we guarantee dropouts. But for now... */
379 if(nsamples
>= maxbuffer
) {
381 while(nsamples
>= maxbuffer
)
382 pthread_cond_wait(&cond
, &lock
);
384 /* Add the packet to the heap */
385 pheap_insert(&packets
, p
);
386 nsamples
+= p
->nsamples
;
387 /* We'll need a new packet */
389 pthread_cond_broadcast(&cond
);
390 pthread_mutex_unlock(&lock
);
394 /** @brief Return true if @p p contains @p timestamp
396 * Containment implies that a sample @p timestamp exists within the packet.
398 static inline int contains(const struct packet
*p
, uint32_t timestamp
) {
399 const uint32_t packet_start
= p
->timestamp
;
400 const uint32_t packet_end
= p
->timestamp
+ p
->nsamples
;
402 return (ge(timestamp
, packet_start
)
403 && lt(timestamp
, packet_end
));
406 #if HAVE_COREAUDIO_AUDIOHARDWARE_H
407 /** @brief Callback from Core Audio */
408 static OSStatus adioproc
409 (AudioDeviceID
attribute((unused
)) inDevice
,
410 const AudioTimeStamp
attribute((unused
)) *inNow
,
411 const AudioBufferList
attribute((unused
)) *inInputData
,
412 const AudioTimeStamp
attribute((unused
)) *inInputTime
,
413 AudioBufferList
*outOutputData
,
414 const AudioTimeStamp
attribute((unused
)) *inOutputTime
,
415 void attribute((unused
)) *inClientData
) {
416 UInt32 nbuffers
= outOutputData
->mNumberBuffers
;
417 AudioBuffer
*ab
= outOutputData
->mBuffers
;
418 const struct packet
*p
;
419 uint32_t samples_available
;
420 struct timeval in
, out
;
422 gettimeofday(&in
, 0);
423 pthread_mutex_lock(&lock
);
424 while(nbuffers
> 0) {
425 float *samplesOut
= ab
->mData
;
426 size_t samplesOutLeft
= ab
->mDataByteSize
/ sizeof (float);
428 while(samplesOutLeft
> 0) {
429 /* Look for a suitable packet, dropping any unsuitable ones along the
430 * way. Unsuitable packets are ones that are in the past. */
431 while(pheap_count(&packets
)) {
432 p
= pheap_first(&packets
);
433 if(le(p
->timestamp
+ p
->nsamples
, next_timestamp
))
434 /* This packet is in the past. Drop it and try another one. */
437 /* This packet is NOT in the past. (It might be in the future
441 p
= pheap_count(&packets
) ?
pheap_first(&packets
) : 0;
442 if(p
&& contains(p
, next_timestamp
)) {
444 fprintf(stderr
, "\nIDLE\n");
445 /* This packet is ready to play */
446 const uint32_t packet_end
= p
->timestamp
+ p
->nsamples
;
447 const uint32_t offset
= next_timestamp
- p
->timestamp
;
448 const uint16_t *ptr
= (void *)(p
->samples_raw
+ offset
);
450 samples_available
= packet_end
- next_timestamp
;
451 if(samples_available
> samplesOutLeft
)
452 samples_available
= samplesOutLeft
;
453 next_timestamp
+= samples_available
;
454 samplesOutLeft
-= samples_available
;
455 while(samples_available
-- > 0)
456 *samplesOut
++ = (int16_t)ntohs(*ptr
++) * (0.5 / 32767);
457 /* We don't bother junking the packet - that'll be dealt with next time
461 /* No packet is ready to play (and there might be no packet at all) */
462 samples_available
= p ? p
->timestamp
- next_timestamp
464 if(samples_available
> samplesOutLeft
)
465 samples_available
= samplesOutLeft
;
466 //info("infill by %"PRIu32, samples_available);
467 /* Conveniently the buffer is 0 to start with */
468 next_timestamp
+= samples_available
;
469 samplesOut
+= samples_available
;
470 samplesOutLeft
-= samples_available
;
477 pthread_mutex_unlock(&lock
);
478 gettimeofday(&out
, 0);
481 double thistime
= (out
.tv_sec
- in
.tv_sec
) + (out
.tv_usec
- in
.tv_usec
) / 1000000.0;
483 fprintf(stderr
, "adioproc: %8.8fs\n", max
= thistime
);
491 /** @brief PCM handle */
492 static snd_pcm_t
*pcm
;
494 /** @brief True when @ref pcm is up and running */
495 static int alsa_prepared
= 1;
497 /** @brief Initialize @ref pcm */
498 static void setup_alsa(void) {
499 snd_pcm_hw_params_t
*hwparams
;
500 snd_pcm_sw_params_t
*swparams
;
501 /* Only support one format for now */
502 const int sample_format
= SND_PCM_FORMAT_S16_BE
;
503 unsigned rate
= 44100;
504 const int channels
= 2;
505 const int samplesize
= channels
* sizeof(uint16_t);
506 snd_pcm_uframes_t pcm_bufsize
= MAXSAMPLES
* samplesize
* 3;
507 /* If we can write more than this many samples we'll get a wakeup */
508 const int avail_min
= 256;
512 if((err
= snd_pcm_open(&pcm
,
513 device ? device
: "default",
514 SND_PCM_STREAM_PLAYBACK
,
516 fatal(0, "error from snd_pcm_open: %d", err
);
517 /* Set up 'hardware' parameters */
518 snd_pcm_hw_params_alloca(&hwparams
);
519 if((err
= snd_pcm_hw_params_any(pcm
, hwparams
)) < 0)
520 fatal(0, "error from snd_pcm_hw_params_any: %d", err
);
521 if((err
= snd_pcm_hw_params_set_access(pcm
, hwparams
,
522 SND_PCM_ACCESS_RW_INTERLEAVED
)) < 0)
523 fatal(0, "error from snd_pcm_hw_params_set_access: %d", err
);
524 if((err
= snd_pcm_hw_params_set_format(pcm
, hwparams
,
527 fatal(0, "error from snd_pcm_hw_params_set_format (%d): %d",
529 if((err
= snd_pcm_hw_params_set_rate_near(pcm
, hwparams
, &rate
, 0)) < 0)
530 fatal(0, "error from snd_pcm_hw_params_set_rate (%d): %d",
532 if((err
= snd_pcm_hw_params_set_channels(pcm
, hwparams
,
534 fatal(0, "error from snd_pcm_hw_params_set_channels (%d): %d",
536 if((err
= snd_pcm_hw_params_set_buffer_size_near(pcm
, hwparams
,
538 fatal(0, "error from snd_pcm_hw_params_set_buffer_size (%d): %d",
539 MAXSAMPLES
* samplesize
* 3, err
);
540 if((err
= snd_pcm_hw_params(pcm
, hwparams
)) < 0)
541 fatal(0, "error calling snd_pcm_hw_params: %d", err
);
542 /* Set up 'software' parameters */
543 snd_pcm_sw_params_alloca(&swparams
);
544 if((err
= snd_pcm_sw_params_current(pcm
, swparams
)) < 0)
545 fatal(0, "error calling snd_pcm_sw_params_current: %d", err
);
546 if((err
= snd_pcm_sw_params_set_avail_min(pcm
, swparams
, avail_min
)) < 0)
547 fatal(0, "error calling snd_pcm_sw_params_set_avail_min %d: %d",
549 if((err
= snd_pcm_sw_params(pcm
, swparams
)) < 0)
550 fatal(0, "error calling snd_pcm_sw_params: %d", err
);
553 /** @brief Wait until ALSA wants some audio */
554 static void wait_alsa(void) {
555 struct pollfd fds
[64];
557 unsigned short events
;
561 if((nfds
= snd_pcm_poll_descriptors(pcm
,
562 fds
, sizeof fds
/ sizeof *fds
)) < 0)
563 fatal(0, "error calling snd_pcm_poll_descriptors: %d", nfds
);
564 } while(poll(fds
, nfds
, -1) < 0 && errno
== EINTR
);
565 if((err
= snd_pcm_poll_descriptors_revents(pcm
, fds
, nfds
, &events
)))
566 fatal(0, "error calling snd_pcm_poll_descriptors_revents: %d", err
);
572 /** @brief Play some sound via ALSA
573 * @param s Pointer to sample data
574 * @param n Number of samples
575 * @return 0 on success, -1 on non-fatal error
577 static int alsa_writei(const void *s
, size_t n
) {
579 const snd_pcm_sframes_t frames_written
= snd_pcm_writei(pcm
, s
, n
/ 2);
580 if(frames_written
< 0) {
581 /* Something went wrong */
582 switch(frames_written
) {
587 error(0, "error calling snd_pcm_writei: %ld",
588 (long)frames_written
);
591 fatal(0, "error calling snd_pcm_writei: %ld",
592 (long)frames_written
);
596 next_timestamp
+= frames_written
* 2;
601 /** @brief Play the relevant part of a packet
602 * @param p Packet to play
603 * @return 0 on success, -1 on non-fatal error
605 static int alsa_play(const struct packet
*p
) {
609 return alsa_writei(p
->samples_raw
+ next_timestamp
- p
->timestamp
,
610 (p
->timestamp
+ p
->nsamples
) - next_timestamp
);
613 /** @brief Play some silence
614 * @param p Next packet or NULL
615 * @return 0 on success, -1 on non-fatal error
617 static int alsa_infill(const struct packet
*p
) {
618 static const uint16_t zeros
[INFILL_SAMPLES
];
619 size_t samples_available
= INFILL_SAMPLES
;
621 if(p
&& samples_available
> p
->timestamp
- next_timestamp
)
622 samples_available
= p
->timestamp
- next_timestamp
;
624 return alsa_writei(zeros
, samples_available
);
627 /** @brief Reset ALSA state after we lost synchronization */
628 static void alsa_reset(int hard_reset
) {
631 if((err
= snd_pcm_nonblock(pcm
, 0)))
632 fatal(0, "error calling snd_pcm_nonblock: %d", err
);
634 if((err
= snd_pcm_drop(pcm
)))
635 fatal(0, "error calling snd_pcm_drop: %d", err
);
637 if((err
= snd_pcm_drain(pcm
)))
638 fatal(0, "error calling snd_pcm_drain: %d", err
);
639 if((err
= snd_pcm_nonblock(pcm
, 1)))
640 fatal(0, "error calling snd_pcm_nonblock: %d", err
);
645 /** @brief Wait until the buffer is adequately full
647 * Must be called with @ref lock held.
649 static void fill_buffer(void) {
650 info("Buffering...");
651 while(nsamples
< readahead
)
652 pthread_cond_wait(&cond
, &lock
);
653 next_timestamp
= pheap_first(&packets
)->timestamp
;
657 /** @brief Find next packet
658 * @return Packet to play or NULL if none found
660 * The return packet is merely guaranteed not to be in the past: it might be
661 * the first packet in the future rather than one that is actually suitable to
664 * Must be called with @ref lock held.
666 static struct packet
*next_packet(void) {
667 while(pheap_count(&packets
)) {
668 struct packet
*const p
= pheap_first(&packets
);
669 if(le(p
->timestamp
+ p
->nsamples
, next_timestamp
)) {
670 /* This packet is in the past. Drop it and try another one. */
673 /* This packet is NOT in the past. (It might be in the future
680 /** @brief Play an RTP stream
682 * This is the guts of the program. It is responsible for:
683 * - starting the listening thread
684 * - opening the audio device
685 * - reading ahead to build up a buffer
686 * - arranging for audio to be played
687 * - detecting when the buffer has got too small and re-buffering
689 static void play_rtp(void) {
692 /* We receive and convert audio data in a background thread */
693 pthread_create(<id
, 0, listen_thread
, 0);
699 /* Open the sound device */
701 pthread_mutex_lock(&lock
);
703 /* Wait for the buffer to fill up a bit */
706 if((err
= snd_pcm_prepare(pcm
)))
707 fatal(0, "error calling snd_pcm_prepare: %d", err
);
712 /* Keep playing until the buffer empties out, or ALSA tells us to get
714 while(nsamples
>= minbuffer
&& !escape
) {
715 /* Wait for ALSA to ask us for more data */
716 pthread_mutex_unlock(&lock
);
718 pthread_mutex_lock(&lock
);
719 /* ALSA is ready for more data, find something to play */
721 /* Play it or play some silence */
722 if(contains(p
, next_timestamp
))
723 escape
= alsa_play(p
);
725 escape
= alsa_infill(p
);
728 /* We stop playing for a bit until the buffer re-fills */
729 pthread_mutex_unlock(&lock
);
731 pthread_mutex_lock(&lock
);
735 #elif HAVE_COREAUDIO_AUDIOHARDWARE_H
740 AudioStreamBasicDescription asbd
;
742 /* If this looks suspiciously like libao's macosx driver there's an
743 * excellent reason for that... */
745 /* TODO report errors as strings not numbers */
746 propertySize
= sizeof adid
;
747 status
= AudioHardwareGetProperty(kAudioHardwarePropertyDefaultOutputDevice
,
748 &propertySize
, &adid
);
750 fatal(0, "AudioHardwareGetProperty: %d", (int)status
);
751 if(adid
== kAudioDeviceUnknown
)
752 fatal(0, "no output device");
753 propertySize
= sizeof asbd
;
754 status
= AudioDeviceGetProperty(adid
, 0, false,
755 kAudioDevicePropertyStreamFormat
,
756 &propertySize
, &asbd
);
758 fatal(0, "AudioHardwareGetProperty: %d", (int)status
);
759 D(("mSampleRate %f", asbd
.mSampleRate
));
760 D(("mFormatID %08lx", asbd
.mFormatID
));
761 D(("mFormatFlags %08lx", asbd
.mFormatFlags
));
762 D(("mBytesPerPacket %08lx", asbd
.mBytesPerPacket
));
763 D(("mFramesPerPacket %08lx", asbd
.mFramesPerPacket
));
764 D(("mBytesPerFrame %08lx", asbd
.mBytesPerFrame
));
765 D(("mChannelsPerFrame %08lx", asbd
.mChannelsPerFrame
));
766 D(("mBitsPerChannel %08lx", asbd
.mBitsPerChannel
));
767 D(("mReserved %08lx", asbd
.mReserved
));
768 if(asbd
.mFormatID
!= kAudioFormatLinearPCM
)
769 fatal(0, "audio device does not support kAudioFormatLinearPCM");
770 status
= AudioDeviceAddIOProc(adid
, adioproc
, 0);
772 fatal(0, "AudioDeviceAddIOProc: %d", (int)status
);
773 pthread_mutex_lock(&lock
);
775 /* Wait for the buffer to fill up a bit */
777 /* Start playing now */
779 next_timestamp
= pheap_first(&packets
)->timestamp
;
781 status
= AudioDeviceStart(adid
, adioproc
);
783 fatal(0, "AudioDeviceStart: %d", (int)status
);
784 /* Wait until the buffer empties out */
785 while(nsamples
>= minbuffer
)
786 pthread_cond_wait(&cond
, &lock
);
787 /* Stop playing for a bit until the buffer re-fills */
788 status
= AudioDeviceStop(adid
, adioproc
);
790 fatal(0, "AudioDeviceStop: %d", (int)status
);
796 # error No known audio API
800 /* display usage message and terminate */
801 static void help(void) {
803 " disorder-playrtp [OPTIONS] ADDRESS [PORT]\n"
805 " --device, -D DEVICE Output device\n"
806 " --min, -m FRAMES Buffer low water mark\n"
807 " --buffer, -b FRAMES Buffer high water mark\n"
808 " --max, -x FRAMES Buffer maximum size\n"
809 " --help, -h Display usage message\n"
810 " --version, -V Display version number\n"
816 /* display version number and terminate */
817 static void version(void) {
818 xprintf("disorder-playrtp version %s\n", disorder_version_string
);
823 int main(int argc
, char **argv
) {
825 struct addrinfo
*res
;
826 struct stringlist sl
;
829 static const struct addrinfo prefs
= {
841 if(!setlocale(LC_CTYPE
, "")) fatal(errno
, "error calling setlocale");
842 while((n
= getopt_long(argc
, argv
, "hVdD:m:b:x:L:", options
, 0)) >= 0) {
846 case 'd': debugging
= 1; break;
847 case 'D': device
= optarg
; break;
848 case 'm': minbuffer
= 2 * atol(optarg
); break;
849 case 'b': readahead
= 2 * atol(optarg
); break;
850 case 'x': maxbuffer
= 2 * atol(optarg
); break;
851 case 'L': logfp
= fopen(optarg
, "w"); break;
852 default: fatal(0, "invalid option");
856 maxbuffer
= 4 * readahead
;
859 if(argc
< 1 || argc
> 2)
860 fatal(0, "usage: disorder-playrtp [OPTIONS] ADDRESS [PORT]");
863 /* Listen for inbound audio data */
864 if(!(res
= get_address(&sl
, &prefs
, &sockname
)))
866 if((rtpfd
= socket(res
->ai_family
,
868 res
->ai_protocol
)) < 0)
869 fatal(errno
, "error creating socket");
870 if(bind(rtpfd
, res
->ai_addr
, res
->ai_addrlen
) < 0)
871 fatal(errno
, "error binding socket to %s", sockname
);