4 This file is part of polypaudio.
6 polypaudio is free software; you can redistribute it and/or modify
7 it under the terms of the GNU Lesser General Public License as published
8 by the Free Software Foundation; either version 2 of the License,
9 or (at your option) any later version.
11 polypaudio is distributed in the hope that it will be useful, but
12 WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 General Public License for more details.
16 You should have received a copy of the GNU Lesser General Public License
17 along with polypaudio; if not, write to the Free Software
18 Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
34 #include <sys/ioctl.h>
36 #include <sys/types.h>
41 #include <sys/audio.h>
43 #include <polyp/mainloop-signal.h>
45 #include <polypcore/iochannel.h>
46 #include <polypcore/sink.h>
47 #include <polypcore/source.h>
48 #include <polypcore/module.h>
49 #include <polypcore/sample-util.h>
50 #include <polypcore/util.h>
51 #include <polypcore/modargs.h>
52 #include <polypcore/xmalloc.h>
53 #include <polypcore/log.h>
55 #include "module-solaris-symdef.h"
57 PA_MODULE_AUTHOR("Pierre Ossman")
58 PA_MODULE_DESCRIPTION("Solaris Sink/Source")
59 PA_MODULE_VERSION(PACKAGE_VERSION
)
60 PA_MODULE_USAGE("sink_name=<name for the sink> source_name=<name for the source> device=<OSS device> record=<enable source?> playback=<enable sink?> format=<sample format> channels=<number of channels> rate=<sample rate> buffer_size=<record buffer size>")
68 pa_usec_t poll_timeout
;
71 pa_memchunk memchunk
, silence
;
75 unsigned int written_bytes
, read_bytes
;
81 static const char* const valid_modargs
[] = {
94 #define DEFAULT_SINK_NAME "solaris_output"
95 #define DEFAULT_SOURCE_NAME "solaris_input"
96 #define DEFAULT_DEVICE "/dev/audio"
98 #define CHUNK_SIZE 2048
100 static void update_usage(struct userdata
*u
) {
101 pa_module_set_used(u
->module
,
102 (u
->sink
? pa_idxset_size(u
->sink
->inputs
) : 0) +
103 (u
->sink
? pa_idxset_size(u
->sink
->monitor_source
->outputs
) : 0) +
104 (u
->source
? pa_idxset_size(u
->source
->outputs
) : 0));
107 static void do_write(struct userdata
*u
) {
110 pa_memchunk
*memchunk
;
116 /* We cannot check pa_iochannel_is_writable() because of our buffer hack */
122 err
= ioctl(u
->fd
, AUDIO_GETINFO
, &info
);
126 * Since we cannot modify the size of the output buffer we fake it
127 * by not filling it more than u->buffer_size.
129 len
= u
->buffer_size
;
130 len
-= u
->written_bytes
- (info
.play
.samples
* u
->sample_size
);
132 if (len
== u
->buffer_size
)
133 pa_log_debug(__FILE__
": Solaris buffer underflow!");
135 if (len
< u
->sample_size
)
138 memchunk
= &u
->memchunk
;
140 if (!memchunk
->length
)
141 if (pa_sink_render(u
->sink
, len
, memchunk
) < 0)
142 memchunk
= &u
->silence
;
144 assert(memchunk
->memblock
);
145 assert(memchunk
->memblock
->data
);
146 assert(memchunk
->length
);
148 if (memchunk
->length
< len
)
149 len
= memchunk
->length
;
151 if ((r
= pa_iochannel_write(u
->io
, (uint8_t*) memchunk
->memblock
->data
+ memchunk
->index
, len
)) < 0) {
152 pa_log(__FILE__
": write() failed: %s", strerror(errno
));
156 if (memchunk
== &u
->silence
)
157 assert(r
% u
->sample_size
== 0);
159 u
->memchunk
.index
+= r
;
160 u
->memchunk
.length
-= r
;
162 if (u
->memchunk
.length
<= 0) {
163 pa_memblock_unref(u
->memchunk
.memblock
);
164 u
->memchunk
.memblock
= NULL
;
168 u
->written_bytes
+= r
;
171 static void do_read(struct userdata
*u
) {
172 pa_memchunk memchunk
;
177 if (!u
->source
|| !pa_iochannel_is_readable(u
->io
))
182 err
= ioctl(u
->fd
, I_NREAD
, &l
);
185 memchunk
.memblock
= pa_memblock_new(l
, u
->core
->memblock_stat
);
186 assert(memchunk
.memblock
);
187 if ((r
= pa_iochannel_read(u
->io
, memchunk
.memblock
->data
, memchunk
.memblock
->length
)) < 0) {
188 pa_memblock_unref(memchunk
.memblock
);
190 pa_log(__FILE__
": read() failed: %s", strerror(errno
));
194 assert(r
<= (ssize_t
) memchunk
.memblock
->length
);
195 memchunk
.length
= memchunk
.memblock
->length
= r
;
198 pa_source_post(u
->source
, &memchunk
);
199 pa_memblock_unref(memchunk
.memblock
);
204 static void io_callback(pa_iochannel
*io
, void*userdata
) {
205 struct userdata
*u
= userdata
;
211 static void timer_cb(pa_mainloop_api
*a
, pa_time_event
*e
, const struct timeval
*tv
, void *userdata
) {
212 struct userdata
*u
= userdata
;
219 pa_gettimeofday(&ntv
);
220 pa_timeval_add(&ntv
, u
->poll_timeout
);
222 a
->time_restart(e
, &ntv
);
225 static void sig_callback(pa_mainloop_api
*api
, pa_signal_event
*e
, int sig
, void *userdata
) {
226 struct userdata
*u
= userdata
;
232 assert(u
->sink
->get_hw_volume
);
233 memcpy(&old_vol
, &u
->sink
->hw_volume
, sizeof(pa_cvolume
));
234 if (u
->sink
->get_hw_volume(u
->sink
) < 0)
236 if (memcmp(&old_vol
, &u
->sink
->hw_volume
, sizeof(pa_cvolume
)) != 0) {
237 pa_subscription_post(u
->sink
->core
,
238 PA_SUBSCRIPTION_EVENT_SINK
|PA_SUBSCRIPTION_EVENT_CHANGE
,
244 assert(u
->source
->get_hw_volume
);
245 memcpy(&old_vol
, &u
->source
->hw_volume
, sizeof(pa_cvolume
));
246 if (u
->source
->get_hw_volume(u
->source
) < 0)
248 if (memcmp(&old_vol
, &u
->source
->hw_volume
, sizeof(pa_cvolume
)) != 0) {
249 pa_subscription_post(u
->source
->core
,
250 PA_SUBSCRIPTION_EVENT_SOURCE
|PA_SUBSCRIPTION_EVENT_CHANGE
,
256 static pa_usec_t
sink_get_latency_cb(pa_sink
*s
) {
260 struct userdata
*u
= s
->userdata
;
261 assert(s
&& u
&& u
->sink
);
263 err
= ioctl(u
->fd
, AUDIO_GETINFO
, &info
);
266 r
+= pa_bytes_to_usec(u
->written_bytes
, &s
->sample_spec
);
267 r
-= pa_bytes_to_usec(info
.play
.samples
* u
->sample_size
, &s
->sample_spec
);
269 if (u
->memchunk
.memblock
)
270 r
+= pa_bytes_to_usec(u
->memchunk
.length
, &s
->sample_spec
);
275 static pa_usec_t
source_get_latency_cb(pa_source
*s
) {
277 struct userdata
*u
= s
->userdata
;
280 assert(s
&& u
&& u
->source
);
282 err
= ioctl(u
->fd
, AUDIO_GETINFO
, &info
);
285 r
+= pa_bytes_to_usec(info
.record
.samples
* u
->sample_size
, &s
->sample_spec
);
286 r
-= pa_bytes_to_usec(u
->read_bytes
, &s
->sample_spec
);
291 static int sink_get_hw_volume_cb(pa_sink
*s
) {
292 struct userdata
*u
= s
->userdata
;
296 err
= ioctl(u
->fd
, AUDIO_GETINFO
, &info
);
299 pa_cvolume_set(&s
->hw_volume
, s
->hw_volume
.channels
,
300 info
.play
.gain
* PA_VOLUME_NORM
/ AUDIO_MAX_GAIN
);
305 static int sink_set_hw_volume_cb(pa_sink
*s
) {
306 struct userdata
*u
= s
->userdata
;
309 AUDIO_INITINFO(&info
);
311 info
.play
.gain
= pa_cvolume_avg(&s
->hw_volume
) * AUDIO_MAX_GAIN
/ PA_VOLUME_NORM
;
312 assert(info
.play
.gain
<= AUDIO_MAX_GAIN
);
314 if (ioctl(u
->fd
, AUDIO_SETINFO
, &info
) < 0) {
316 pa_log(__FILE__
": AUDIO_SETINFO: Unsupported volume.");
318 pa_log(__FILE__
": AUDIO_SETINFO: %s", strerror(errno
));
325 static int sink_get_hw_mute_cb(pa_sink
*s
) {
326 struct userdata
*u
= s
->userdata
;
330 err
= ioctl(u
->fd
, AUDIO_GETINFO
, &info
);
333 s
->hw_muted
= !!info
.output_muted
;
338 static int sink_set_hw_mute_cb(pa_sink
*s
) {
339 struct userdata
*u
= s
->userdata
;
342 AUDIO_INITINFO(&info
);
344 info
.output_muted
= !!s
->hw_muted
;
346 if (ioctl(u
->fd
, AUDIO_SETINFO
, &info
) < 0) {
347 pa_log(__FILE__
": AUDIO_SETINFO: %s", strerror(errno
));
354 static int source_get_hw_volume_cb(pa_source
*s
) {
355 struct userdata
*u
= s
->userdata
;
359 err
= ioctl(u
->fd
, AUDIO_GETINFO
, &info
);
362 pa_cvolume_set(&s
->hw_volume
, s
->hw_volume
.channels
,
363 info
.record
.gain
* PA_VOLUME_NORM
/ AUDIO_MAX_GAIN
);
368 static int source_set_hw_volume_cb(pa_source
*s
) {
369 struct userdata
*u
= s
->userdata
;
372 AUDIO_INITINFO(&info
);
374 info
.record
.gain
= pa_cvolume_avg(&s
->hw_volume
) * AUDIO_MAX_GAIN
/ PA_VOLUME_NORM
;
375 assert(info
.record
.gain
<= AUDIO_MAX_GAIN
);
377 if (ioctl(u
->fd
, AUDIO_SETINFO
, &info
) < 0) {
379 pa_log(__FILE__
": AUDIO_SETINFO: Unsupported volume.");
381 pa_log(__FILE__
": AUDIO_SETINFO: %s", strerror(errno
));
388 static int pa_solaris_auto_format(int fd
, int mode
, pa_sample_spec
*ss
) {
391 AUDIO_INITINFO(&info
);
393 if (mode
!= O_RDONLY
) {
394 info
.play
.sample_rate
= ss
->rate
;
395 info
.play
.channels
= ss
->channels
;
396 switch (ss
->format
) {
398 info
.play
.precision
= 8;
399 info
.play
.encoding
= AUDIO_ENCODING_LINEAR
;
402 info
.play
.precision
= 8;
403 info
.play
.encoding
= AUDIO_ENCODING_ALAW
;
406 info
.play
.precision
= 8;
407 info
.play
.encoding
= AUDIO_ENCODING_ULAW
;
409 case PA_SAMPLE_S16NE
:
410 info
.play
.precision
= 16;
411 info
.play
.encoding
= AUDIO_ENCODING_LINEAR
;
418 if (mode
!= O_WRONLY
) {
419 info
.record
.sample_rate
= ss
->rate
;
420 info
.record
.channels
= ss
->channels
;
421 switch (ss
->format
) {
423 info
.record
.precision
= 8;
424 info
.record
.encoding
= AUDIO_ENCODING_LINEAR
;
427 info
.record
.precision
= 8;
428 info
.record
.encoding
= AUDIO_ENCODING_ALAW
;
431 info
.record
.precision
= 8;
432 info
.record
.encoding
= AUDIO_ENCODING_ULAW
;
434 case PA_SAMPLE_S16NE
:
435 info
.record
.precision
= 16;
436 info
.record
.encoding
= AUDIO_ENCODING_LINEAR
;
443 if (ioctl(fd
, AUDIO_SETINFO
, &info
) < 0) {
445 pa_log(__FILE__
": AUDIO_SETINFO: Unsupported sample format.");
447 pa_log(__FILE__
": AUDIO_SETINFO: %s", strerror(errno
));
454 static int pa_solaris_set_buffer(int fd
, int buffer_size
) {
457 AUDIO_INITINFO(&info
);
459 info
.record
.buffer_size
= buffer_size
;
461 if (ioctl(fd
, AUDIO_SETINFO
, &info
) < 0) {
463 pa_log(__FILE__
": AUDIO_SETINFO: Unsupported buffer size.");
465 pa_log(__FILE__
": AUDIO_SETINFO: %s", strerror(errno
));
472 int pa__init(pa_core
*c
, pa_module
*m
) {
473 struct userdata
*u
= NULL
;
478 int record
= 1, playback
= 1;
480 pa_modargs
*ma
= NULL
;
484 if (!(ma
= pa_modargs_new(m
->argument
, valid_modargs
))) {
485 pa_log(__FILE__
": failed to parse module arguments.");
489 if (pa_modargs_get_value_boolean(ma
, "record", &record
) < 0 || pa_modargs_get_value_boolean(ma
, "playback", &playback
) < 0) {
490 pa_log(__FILE__
": record= and playback= expect numeric argument.");
494 if (!playback
&& !record
) {
495 pa_log(__FILE__
": neither playback nor record enabled for device.");
499 mode
= (playback
&&record
) ? O_RDWR
: (playback
? O_WRONLY
: (record
? O_RDONLY
: 0));
502 if (pa_modargs_get_value_s32(ma
, "buffer_size", &buffer_size
) < 0) {
503 pa_log(__FILE__
": failed to parse buffer size argument");
507 ss
= c
->default_sample_spec
;
508 if (pa_modargs_get_sample_spec(ma
, &ss
) < 0) {
509 pa_log(__FILE__
": failed to parse sample specification");
513 if ((fd
= open(p
= pa_modargs_get_value(ma
, "device", DEFAULT_DEVICE
), mode
| O_NONBLOCK
)) < 0)
516 pa_log_info(__FILE__
": device opened in %s mode.", mode
== O_WRONLY
? "O_WRONLY" : (mode
== O_RDONLY
? "O_RDONLY" : "O_RDWR"));
518 if (pa_solaris_auto_format(fd
, mode
, &ss
) < 0)
521 if ((mode
!= O_WRONLY
) && (buffer_size
>= 1))
522 if (pa_solaris_set_buffer(fd
, buffer_size
) < 0)
525 u
= pa_xmalloc(sizeof(struct userdata
));
528 if (mode
!= O_WRONLY
) {
529 u
->source
= pa_source_new(c
, __FILE__
, pa_modargs_get_value(ma
, "source_name", DEFAULT_SOURCE_NAME
), 0, &ss
, NULL
);
531 u
->source
->userdata
= u
;
532 u
->source
->get_latency
= source_get_latency_cb
;
533 u
->source
->get_hw_volume
= source_get_hw_volume_cb
;
534 u
->source
->set_hw_volume
= source_set_hw_volume_cb
;
535 pa_source_set_owner(u
->source
, m
);
536 u
->source
->description
= pa_sprintf_malloc("Solaris PCM on '%s'", p
);
540 if (mode
!= O_RDONLY
) {
541 u
->sink
= pa_sink_new(c
, __FILE__
, pa_modargs_get_value(ma
, "sink_name", DEFAULT_SINK_NAME
), 0, &ss
, NULL
);
543 u
->sink
->get_latency
= sink_get_latency_cb
;
544 u
->sink
->get_hw_volume
= sink_get_hw_volume_cb
;
545 u
->sink
->set_hw_volume
= sink_set_hw_volume_cb
;
546 u
->sink
->get_hw_mute
= sink_get_hw_mute_cb
;
547 u
->sink
->set_hw_mute
= sink_set_hw_mute_cb
;
548 u
->sink
->userdata
= u
;
549 pa_sink_set_owner(u
->sink
, m
);
550 u
->sink
->description
= pa_sprintf_malloc("Solaris PCM on '%s'", p
);
554 assert(u
->source
|| u
->sink
);
556 u
->io
= pa_iochannel_new(c
->mainloop
, u
->source
? fd
: -1, u
->sink
? fd
: 0);
558 pa_iochannel_set_callback(u
->io
, io_callback
, u
);
561 u
->memchunk
.memblock
= NULL
;
562 u
->memchunk
.length
= 0;
563 u
->sample_size
= pa_frame_size(&ss
);
564 u
->buffer_size
= buffer_size
;
566 u
->silence
.memblock
= pa_memblock_new(u
->silence
.length
= CHUNK_SIZE
, u
->core
->memblock_stat
);
567 assert(u
->silence
.memblock
);
568 pa_silence_memblock(u
->silence
.memblock
, &ss
);
569 u
->silence
.index
= 0;
571 u
->written_bytes
= 0;
577 u
->poll_timeout
= pa_bytes_to_usec(u
->buffer_size
/ 10, &ss
);
579 pa_gettimeofday(&tv
);
580 pa_timeval_add(&tv
, u
->poll_timeout
);
582 u
->timer
= c
->mainloop
->time_new(c
->mainloop
, &tv
, timer_cb
, u
);
585 u
->sig
= pa_signal_new(SIGPOLL
, sig_callback
, u
);
587 ioctl(u
->fd
, I_SETSIG
, S_MSG
);
591 /* Read mixer settings */
593 source_get_hw_volume_cb(u
->source
);
595 sink_get_hw_volume_cb(u
->sink
);
596 sink_get_hw_mute_cb(u
->sink
);
611 void pa__done(pa_core
*c
, pa_module
*m
) {
615 if (!(u
= m
->userdata
))
619 c
->mainloop
->time_free(u
->timer
);
620 ioctl(u
->fd
, I_SETSIG
, 0);
621 pa_signal_free(u
->sig
);
623 if (u
->memchunk
.memblock
)
624 pa_memblock_unref(u
->memchunk
.memblock
);
625 if (u
->silence
.memblock
)
626 pa_memblock_unref(u
->silence
.memblock
);
629 pa_sink_disconnect(u
->sink
);
630 pa_sink_unref(u
->sink
);
634 pa_source_disconnect(u
->source
);
635 pa_source_unref(u
->source
);
638 pa_iochannel_free(u
->io
);