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|
/*
* QEMU PipeWire audio driver
*
* Copyright (c) 2023 Red Hat Inc.
*
* Author: Dorinda Bassey <dbassey@redhat.com>
*
* SPDX-License-Identifier: GPL-2.0-or-later
*/
#include "qemu/osdep.h"
#include "qemu/module.h"
#include "audio.h"
#include <errno.h>
#include "qemu/error-report.h"
#include "qapi/error.h"
#include <spa/param/audio/format-utils.h>
#include <spa/utils/ringbuffer.h>
#include <spa/utils/result.h>
#include <spa/param/props.h>
#include <pipewire/pipewire.h>
#include "trace.h"
#define AUDIO_CAP "pipewire"
#define RINGBUFFER_SIZE (1u << 22)
#define RINGBUFFER_MASK (RINGBUFFER_SIZE - 1)
#include "audio_int.h"
typedef struct pwvolume {
uint32_t channels;
float values[SPA_AUDIO_MAX_CHANNELS];
} pwvolume;
typedef struct pwaudio {
Audiodev *dev;
struct pw_thread_loop *thread_loop;
struct pw_context *context;
struct pw_core *core;
struct spa_hook core_listener;
int last_seq, pending_seq, error;
} pwaudio;
typedef struct PWVoice {
pwaudio *g;
struct pw_stream *stream;
struct spa_hook stream_listener;
struct spa_audio_info_raw info;
uint32_t highwater_mark;
uint32_t frame_size, req;
struct spa_ringbuffer ring;
uint8_t buffer[RINGBUFFER_SIZE];
pwvolume volume;
bool muted;
} PWVoice;
typedef struct PWVoiceOut {
HWVoiceOut hw;
PWVoice v;
} PWVoiceOut;
typedef struct PWVoiceIn {
HWVoiceIn hw;
PWVoice v;
} PWVoiceIn;
#define PW_VOICE_IN(v) ((PWVoiceIn *)v)
#define PW_VOICE_OUT(v) ((PWVoiceOut *)v)
static void
stream_destroy(void *data)
{
PWVoice *v = (PWVoice *) data;
spa_hook_remove(&v->stream_listener);
v->stream = NULL;
}
/* output data processing function to read stuffs from the buffer */
static void
playback_on_process(void *data)
{
PWVoice *v = data;
void *p;
struct pw_buffer *b;
struct spa_buffer *buf;
uint32_t req, index, n_bytes;
int32_t avail;
assert(v->stream);
/* obtain a buffer to read from */
b = pw_stream_dequeue_buffer(v->stream);
if (b == NULL) {
error_report("out of buffers: %s", strerror(errno));
return;
}
buf = b->buffer;
p = buf->datas[0].data;
if (p == NULL) {
return;
}
/* calculate the total no of bytes to read data from buffer */
req = b->requested * v->frame_size;
if (req == 0) {
req = v->req;
}
n_bytes = SPA_MIN(req, buf->datas[0].maxsize);
/* get no of available bytes to read data from buffer */
avail = spa_ringbuffer_get_read_index(&v->ring, &index);
if (avail <= 0) {
PWVoiceOut *vo = container_of(data, PWVoiceOut, v);
audio_pcm_info_clear_buf(&vo->hw.info, p, n_bytes / v->frame_size);
} else {
if ((uint32_t) avail < n_bytes) {
/*
* PipeWire immediately calls this callback again if we provide
* less than n_bytes. Then audio_pcm_info_clear_buf() fills the
* rest of the buffer with silence.
*/
n_bytes = avail;
}
spa_ringbuffer_read_data(&v->ring,
v->buffer, RINGBUFFER_SIZE,
index & RINGBUFFER_MASK, p, n_bytes);
index += n_bytes;
spa_ringbuffer_read_update(&v->ring, index);
}
buf->datas[0].chunk->offset = 0;
buf->datas[0].chunk->stride = v->frame_size;
buf->datas[0].chunk->size = n_bytes;
/* queue the buffer for playback */
pw_stream_queue_buffer(v->stream, b);
}
/* output data processing function to generate stuffs in the buffer */
static void
capture_on_process(void *data)
{
PWVoice *v = (PWVoice *) data;
void *p;
struct pw_buffer *b;
struct spa_buffer *buf;
int32_t filled;
uint32_t index, offs, n_bytes;
assert(v->stream);
/* obtain a buffer */
b = pw_stream_dequeue_buffer(v->stream);
if (b == NULL) {
error_report("out of buffers: %s", strerror(errno));
return;
}
/* Write data into buffer */
buf = b->buffer;
p = buf->datas[0].data;
if (p == NULL) {
return;
}
offs = SPA_MIN(buf->datas[0].chunk->offset, buf->datas[0].maxsize);
n_bytes = SPA_MIN(buf->datas[0].chunk->size, buf->datas[0].maxsize - offs);
filled = spa_ringbuffer_get_write_index(&v->ring, &index);
if (filled < 0) {
error_report("%p: underrun write:%u filled:%d", p, index, filled);
} else {
if ((uint32_t) filled + n_bytes > RINGBUFFER_SIZE) {
error_report("%p: overrun write:%u filled:%d + size:%u > max:%u",
p, index, filled, n_bytes, RINGBUFFER_SIZE);
}
}
spa_ringbuffer_write_data(&v->ring,
v->buffer, RINGBUFFER_SIZE,
index & RINGBUFFER_MASK,
SPA_PTROFF(p, offs, void), n_bytes);
index += n_bytes;
spa_ringbuffer_write_update(&v->ring, index);
/* queue the buffer for playback */
pw_stream_queue_buffer(v->stream, b);
}
static void
on_stream_state_changed(void *data, enum pw_stream_state old,
enum pw_stream_state state, const char *error)
{
PWVoice *v = (PWVoice *) data;
trace_pw_state_changed(pw_stream_get_node_id(v->stream),
pw_stream_state_as_string(state));
}
static const struct pw_stream_events capture_stream_events = {
PW_VERSION_STREAM_EVENTS,
.destroy = stream_destroy,
.state_changed = on_stream_state_changed,
.process = capture_on_process
};
static const struct pw_stream_events playback_stream_events = {
PW_VERSION_STREAM_EVENTS,
.destroy = stream_destroy,
.state_changed = on_stream_state_changed,
.process = playback_on_process
};
static size_t
qpw_read(HWVoiceIn *hw, void *data, size_t len)
{
PWVoiceIn *pw = (PWVoiceIn *) hw;
PWVoice *v = &pw->v;
pwaudio *c = v->g;
const char *error = NULL;
size_t l;
int32_t avail;
uint32_t index;
pw_thread_loop_lock(c->thread_loop);
if (pw_stream_get_state(v->stream, &error) != PW_STREAM_STATE_STREAMING) {
/* wait for stream to become ready */
l = 0;
goto done_unlock;
}
/* get no of available bytes to read data from buffer */
avail = spa_ringbuffer_get_read_index(&v->ring, &index);
trace_pw_read(avail, index, len);
if (avail < (int32_t) len) {
len = avail;
}
spa_ringbuffer_read_data(&v->ring,
v->buffer, RINGBUFFER_SIZE,
index & RINGBUFFER_MASK, data, len);
index += len;
spa_ringbuffer_read_update(&v->ring, index);
l = len;
done_unlock:
pw_thread_loop_unlock(c->thread_loop);
return l;
}
static size_t qpw_buffer_get_free(HWVoiceOut *hw)
{
PWVoiceOut *pw = (PWVoiceOut *)hw;
PWVoice *v = &pw->v;
pwaudio *c = v->g;
const char *error = NULL;
int32_t filled, avail;
uint32_t index;
pw_thread_loop_lock(c->thread_loop);
if (pw_stream_get_state(v->stream, &error) != PW_STREAM_STATE_STREAMING) {
/* wait for stream to become ready */
avail = 0;
goto done_unlock;
}
filled = spa_ringbuffer_get_write_index(&v->ring, &index);
avail = v->highwater_mark - filled;
done_unlock:
pw_thread_loop_unlock(c->thread_loop);
return avail;
}
static size_t
qpw_write(HWVoiceOut *hw, void *data, size_t len)
{
PWVoiceOut *pw = (PWVoiceOut *) hw;
PWVoice *v = &pw->v;
pwaudio *c = v->g;
const char *error = NULL;
int32_t filled, avail;
uint32_t index;
pw_thread_loop_lock(c->thread_loop);
if (pw_stream_get_state(v->stream, &error) != PW_STREAM_STATE_STREAMING) {
/* wait for stream to become ready */
len = 0;
goto done_unlock;
}
filled = spa_ringbuffer_get_write_index(&v->ring, &index);
avail = v->highwater_mark - filled;
trace_pw_write(filled, avail, index, len);
if (len > avail) {
len = avail;
}
if (filled < 0) {
error_report("%p: underrun write:%u filled:%d", pw, index, filled);
} else {
if ((uint32_t) filled + len > RINGBUFFER_SIZE) {
error_report("%p: overrun write:%u filled:%d + size:%zu > max:%u",
pw, index, filled, len, RINGBUFFER_SIZE);
}
}
spa_ringbuffer_write_data(&v->ring,
v->buffer, RINGBUFFER_SIZE,
index & RINGBUFFER_MASK, data, len);
index += len;
spa_ringbuffer_write_update(&v->ring, index);
done_unlock:
pw_thread_loop_unlock(c->thread_loop);
return len;
}
static int
audfmt_to_pw(AudioFormat fmt, int endianness)
{
int format;
switch (fmt) {
case AUDIO_FORMAT_S8:
format = SPA_AUDIO_FORMAT_S8;
break;
case AUDIO_FORMAT_U8:
format = SPA_AUDIO_FORMAT_U8;
break;
case AUDIO_FORMAT_S16:
format = endianness ? SPA_AUDIO_FORMAT_S16_BE : SPA_AUDIO_FORMAT_S16_LE;
break;
case AUDIO_FORMAT_U16:
format = endianness ? SPA_AUDIO_FORMAT_U16_BE : SPA_AUDIO_FORMAT_U16_LE;
break;
case AUDIO_FORMAT_S32:
format = endianness ? SPA_AUDIO_FORMAT_S32_BE : SPA_AUDIO_FORMAT_S32_LE;
break;
case AUDIO_FORMAT_U32:
format = endianness ? SPA_AUDIO_FORMAT_U32_BE : SPA_AUDIO_FORMAT_U32_LE;
break;
case AUDIO_FORMAT_F32:
format = endianness ? SPA_AUDIO_FORMAT_F32_BE : SPA_AUDIO_FORMAT_F32_LE;
break;
default:
dolog("Internal logic error: Bad audio format %d\n", fmt);
format = SPA_AUDIO_FORMAT_U8;
break;
}
return format;
}
static AudioFormat
pw_to_audfmt(enum spa_audio_format fmt, int *endianness,
uint32_t *sample_size)
{
switch (fmt) {
case SPA_AUDIO_FORMAT_S8:
*sample_size = 1;
return AUDIO_FORMAT_S8;
case SPA_AUDIO_FORMAT_U8:
*sample_size = 1;
return AUDIO_FORMAT_U8;
case SPA_AUDIO_FORMAT_S16_BE:
*sample_size = 2;
*endianness = 1;
return AUDIO_FORMAT_S16;
case SPA_AUDIO_FORMAT_S16_LE:
*sample_size = 2;
*endianness = 0;
return AUDIO_FORMAT_S16;
case SPA_AUDIO_FORMAT_U16_BE:
*sample_size = 2;
*endianness = 1;
return AUDIO_FORMAT_U16;
case SPA_AUDIO_FORMAT_U16_LE:
*sample_size = 2;
*endianness = 0;
return AUDIO_FORMAT_U16;
case SPA_AUDIO_FORMAT_S32_BE:
*sample_size = 4;
*endianness = 1;
return AUDIO_FORMAT_S32;
case SPA_AUDIO_FORMAT_S32_LE:
*sample_size = 4;
*endianness = 0;
return AUDIO_FORMAT_S32;
case SPA_AUDIO_FORMAT_U32_BE:
*sample_size = 4;
*endianness = 1;
return AUDIO_FORMAT_U32;
case SPA_AUDIO_FORMAT_U32_LE:
*sample_size = 4;
*endianness = 0;
return AUDIO_FORMAT_U32;
case SPA_AUDIO_FORMAT_F32_BE:
*sample_size = 4;
*endianness = 1;
return AUDIO_FORMAT_F32;
case SPA_AUDIO_FORMAT_F32_LE:
*sample_size = 4;
*endianness = 0;
return AUDIO_FORMAT_F32;
default:
*sample_size = 1;
dolog("Internal logic error: Bad spa_audio_format %d\n", fmt);
return AUDIO_FORMAT_U8;
}
}
static int
qpw_stream_new(pwaudio *c, PWVoice *v, const char *stream_name,
const char *name, enum spa_direction dir)
{
int res;
uint32_t n_params;
const struct spa_pod *params[2];
uint8_t buffer[1024];
struct spa_pod_builder b;
uint64_t buf_samples;
struct pw_properties *props;
props = pw_properties_new(NULL, NULL);
if (!props) {
error_report("Failed to create PW properties: %s", g_strerror(errno));
return -1;
}
/* 75% of the timer period for faster updates */
buf_samples = (uint64_t)v->g->dev->timer_period * v->info.rate
* 3 / 4 / 1000000;
pw_properties_setf(props, PW_KEY_NODE_LATENCY, "%" PRIu64 "/%u",
buf_samples, v->info.rate);
trace_pw_period(buf_samples, v->info.rate);
if (name) {
pw_properties_set(props, PW_KEY_TARGET_OBJECT, name);
}
v->stream = pw_stream_new(c->core, stream_name, props);
if (v->stream == NULL) {
error_report("Failed to create PW stream: %s", g_strerror(errno));
return -1;
}
if (dir == SPA_DIRECTION_INPUT) {
pw_stream_add_listener(v->stream,
&v->stream_listener, &capture_stream_events, v);
} else {
pw_stream_add_listener(v->stream,
&v->stream_listener, &playback_stream_events, v);
}
n_params = 0;
spa_pod_builder_init(&b, buffer, sizeof(buffer));
params[n_params++] = spa_format_audio_raw_build(&b,
SPA_PARAM_EnumFormat,
&v->info);
/* connect the stream to a sink or source */
res = pw_stream_connect(v->stream,
dir ==
SPA_DIRECTION_INPUT ? PW_DIRECTION_INPUT :
PW_DIRECTION_OUTPUT, PW_ID_ANY,
PW_STREAM_FLAG_AUTOCONNECT |
PW_STREAM_FLAG_INACTIVE |
PW_STREAM_FLAG_MAP_BUFFERS |
PW_STREAM_FLAG_RT_PROCESS, params, n_params);
if (res < 0) {
error_report("Failed to connect PW stream: %s", g_strerror(errno));
pw_stream_destroy(v->stream);
return -1;
}
return 0;
}
static void
qpw_set_position(uint32_t channels, uint32_t position[SPA_AUDIO_MAX_CHANNELS])
{
memcpy(position, (uint32_t[SPA_AUDIO_MAX_CHANNELS]) { SPA_AUDIO_CHANNEL_UNKNOWN, },
sizeof(uint32_t) * SPA_AUDIO_MAX_CHANNELS);
/*
* TODO: This currently expects the only frontend supporting more than 2
* channels is the usb-audio. We will need some means to set channel
* order when a new frontend gains multi-channel support.
*/
switch (channels) {
case 8:
position[6] = SPA_AUDIO_CHANNEL_SL;
position[7] = SPA_AUDIO_CHANNEL_SR;
/* fallthrough */
case 6:
position[2] = SPA_AUDIO_CHANNEL_FC;
position[3] = SPA_AUDIO_CHANNEL_LFE;
position[4] = SPA_AUDIO_CHANNEL_RL;
position[5] = SPA_AUDIO_CHANNEL_RR;
/* fallthrough */
case 2:
position[0] = SPA_AUDIO_CHANNEL_FL;
position[1] = SPA_AUDIO_CHANNEL_FR;
break;
case 1:
position[0] = SPA_AUDIO_CHANNEL_MONO;
break;
default:
dolog("Internal error: unsupported channel count %d\n", channels);
}
}
static int
qpw_init_out(HWVoiceOut *hw, struct audsettings *as, void *drv_opaque)
{
PWVoiceOut *pw = (PWVoiceOut *) hw;
PWVoice *v = &pw->v;
struct audsettings obt_as = *as;
pwaudio *c = v->g = drv_opaque;
AudiodevPipewireOptions *popts = &c->dev->u.pipewire;
AudiodevPipewirePerDirectionOptions *ppdo = popts->out;
int r;
pw_thread_loop_lock(c->thread_loop);
v->info.format = audfmt_to_pw(as->fmt, as->endianness);
v->info.channels = as->nchannels;
qpw_set_position(as->nchannels, v->info.position);
v->info.rate = as->freq;
obt_as.fmt =
pw_to_audfmt(v->info.format, &obt_as.endianness, &v->frame_size);
v->frame_size *= as->nchannels;
v->req = (uint64_t)c->dev->timer_period * v->info.rate
* 1 / 2 / 1000000 * v->frame_size;
/* call the function that creates a new stream for playback */
r = qpw_stream_new(c, v, ppdo->stream_name ? : c->dev->id,
ppdo->name, SPA_DIRECTION_OUTPUT);
if (r < 0) {
pw_thread_loop_unlock(c->thread_loop);
return -1;
}
/* report the audio format we support */
audio_pcm_init_info(&hw->info, &obt_as);
/* report the buffer size to qemu */
hw->samples = audio_buffer_frames(
qapi_AudiodevPipewirePerDirectionOptions_base(ppdo), &obt_as, 46440);
v->highwater_mark = MIN(RINGBUFFER_SIZE,
(ppdo->has_latency ? ppdo->latency : 46440)
* (uint64_t)v->info.rate / 1000000 * v->frame_size);
pw_thread_loop_unlock(c->thread_loop);
return 0;
}
static int
qpw_init_in(HWVoiceIn *hw, struct audsettings *as, void *drv_opaque)
{
PWVoiceIn *pw = (PWVoiceIn *) hw;
PWVoice *v = &pw->v;
struct audsettings obt_as = *as;
pwaudio *c = v->g = drv_opaque;
AudiodevPipewireOptions *popts = &c->dev->u.pipewire;
AudiodevPipewirePerDirectionOptions *ppdo = popts->in;
int r;
pw_thread_loop_lock(c->thread_loop);
v->info.format = audfmt_to_pw(as->fmt, as->endianness);
v->info.channels = as->nchannels;
qpw_set_position(as->nchannels, v->info.position);
v->info.rate = as->freq;
obt_as.fmt =
pw_to_audfmt(v->info.format, &obt_as.endianness, &v->frame_size);
v->frame_size *= as->nchannels;
/* call the function that creates a new stream for recording */
r = qpw_stream_new(c, v, ppdo->stream_name ? : c->dev->id,
ppdo->name, SPA_DIRECTION_INPUT);
if (r < 0) {
pw_thread_loop_unlock(c->thread_loop);
return -1;
}
/* report the audio format we support */
audio_pcm_init_info(&hw->info, &obt_as);
/* report the buffer size to qemu */
hw->samples = audio_buffer_frames(
qapi_AudiodevPipewirePerDirectionOptions_base(ppdo), &obt_as, 46440);
pw_thread_loop_unlock(c->thread_loop);
return 0;
}
static void
qpw_voice_fini(PWVoice *v)
{
pwaudio *c = v->g;
if (!v->stream) {
return;
}
pw_thread_loop_lock(c->thread_loop);
pw_stream_destroy(v->stream);
v->stream = NULL;
pw_thread_loop_unlock(c->thread_loop);
}
static void
qpw_fini_out(HWVoiceOut *hw)
{
qpw_voice_fini(&PW_VOICE_OUT(hw)->v);
}
static void
qpw_fini_in(HWVoiceIn *hw)
{
qpw_voice_fini(&PW_VOICE_IN(hw)->v);
}
static void
qpw_voice_set_enabled(PWVoice *v, bool enable)
{
pwaudio *c = v->g;
pw_thread_loop_lock(c->thread_loop);
pw_stream_set_active(v->stream, enable);
pw_thread_loop_unlock(c->thread_loop);
}
static void
qpw_enable_out(HWVoiceOut *hw, bool enable)
{
qpw_voice_set_enabled(&PW_VOICE_OUT(hw)->v, enable);
}
static void
qpw_enable_in(HWVoiceIn *hw, bool enable)
{
qpw_voice_set_enabled(&PW_VOICE_IN(hw)->v, enable);
}
static void
qpw_voice_set_volume(PWVoice *v, Volume *vol)
{
pwaudio *c = v->g;
int i, ret;
pw_thread_loop_lock(c->thread_loop);
v->volume.channels = vol->channels;
for (i = 0; i < vol->channels; ++i) {
v->volume.values[i] = (float)vol->vol[i] / 255;
}
ret = pw_stream_set_control(v->stream,
SPA_PROP_channelVolumes, v->volume.channels, v->volume.values, 0);
trace_pw_vol(ret == 0 ? "success" : "failed");
v->muted = vol->mute;
float val = v->muted ? 1.f : 0.f;
ret = pw_stream_set_control(v->stream, SPA_PROP_mute, 1, &val, 0);
pw_thread_loop_unlock(c->thread_loop);
}
static void
qpw_volume_out(HWVoiceOut *hw, Volume *vol)
{
qpw_voice_set_volume(&PW_VOICE_OUT(hw)->v, vol);
}
static void
qpw_volume_in(HWVoiceIn *hw, Volume *vol)
{
qpw_voice_set_volume(&PW_VOICE_IN(hw)->v, vol);
}
static int wait_resync(pwaudio *pw)
{
int res;
pw->pending_seq = pw_core_sync(pw->core, PW_ID_CORE, pw->pending_seq);
while (true) {
pw_thread_loop_wait(pw->thread_loop);
res = pw->error;
if (res < 0) {
pw->error = 0;
return res;
}
if (pw->pending_seq == pw->last_seq) {
break;
}
}
return 0;
}
static void
on_core_error(void *data, uint32_t id, int seq, int res, const char *message)
{
pwaudio *pw = data;
error_report("error id:%u seq:%d res:%d (%s): %s",
id, seq, res, spa_strerror(res), message);
/* stop and exit the thread loop */
pw_thread_loop_signal(pw->thread_loop, FALSE);
}
static void
on_core_done(void *data, uint32_t id, int seq)
{
pwaudio *pw = data;
assert(id == PW_ID_CORE);
pw->last_seq = seq;
if (pw->pending_seq == seq) {
/* stop and exit the thread loop */
pw_thread_loop_signal(pw->thread_loop, FALSE);
}
}
static const struct pw_core_events core_events = {
PW_VERSION_CORE_EVENTS,
.done = on_core_done,
.error = on_core_error,
};
static void *
qpw_audio_init(Audiodev *dev, Error **errp)
{
g_autofree pwaudio *pw = g_new0(pwaudio, 1);
assert(dev->driver == AUDIODEV_DRIVER_PIPEWIRE);
trace_pw_audio_init();
pw_init(NULL, NULL);
pw->dev = dev;
pw->thread_loop = pw_thread_loop_new("PipeWire thread loop", NULL);
if (pw->thread_loop == NULL) {
error_setg_errno(errp, errno, "Could not create PipeWire loop");
goto fail;
}
pw->context =
pw_context_new(pw_thread_loop_get_loop(pw->thread_loop), NULL, 0);
if (pw->context == NULL) {
error_setg_errno(errp, errno, "Could not create PipeWire context");
goto fail;
}
if (pw_thread_loop_start(pw->thread_loop) < 0) {
error_setg_errno(errp, errno, "Could not start PipeWire loop");
goto fail;
}
pw_thread_loop_lock(pw->thread_loop);
pw->core = pw_context_connect(pw->context, NULL, 0);
if (pw->core == NULL) {
pw_thread_loop_unlock(pw->thread_loop);
goto fail_error;
}
if (pw_core_add_listener(pw->core, &pw->core_listener,
&core_events, pw) < 0) {
pw_thread_loop_unlock(pw->thread_loop);
goto fail_error;
}
if (wait_resync(pw) < 0) {
pw_thread_loop_unlock(pw->thread_loop);
}
pw_thread_loop_unlock(pw->thread_loop);
return g_steal_pointer(&pw);
fail_error:
error_setg(errp, "Failed to initialize PW context");
fail:
if (pw->thread_loop) {
pw_thread_loop_stop(pw->thread_loop);
}
g_clear_pointer(&pw->context, pw_context_destroy);
g_clear_pointer(&pw->thread_loop, pw_thread_loop_destroy);
return NULL;
}
static void
qpw_audio_fini(void *opaque)
{
pwaudio *pw = opaque;
if (pw->thread_loop) {
pw_thread_loop_stop(pw->thread_loop);
}
if (pw->core) {
spa_hook_remove(&pw->core_listener);
spa_zero(pw->core_listener);
pw_core_disconnect(pw->core);
}
if (pw->context) {
pw_context_destroy(pw->context);
}
pw_thread_loop_destroy(pw->thread_loop);
g_free(pw);
}
static struct audio_pcm_ops qpw_pcm_ops = {
.init_out = qpw_init_out,
.fini_out = qpw_fini_out,
.write = qpw_write,
.buffer_get_free = qpw_buffer_get_free,
.run_buffer_out = audio_generic_run_buffer_out,
.enable_out = qpw_enable_out,
.volume_out = qpw_volume_out,
.volume_in = qpw_volume_in,
.init_in = qpw_init_in,
.fini_in = qpw_fini_in,
.read = qpw_read,
.run_buffer_in = audio_generic_run_buffer_in,
.enable_in = qpw_enable_in
};
static struct audio_driver pw_audio_driver = {
.name = "pipewire",
.descr = "http://www.pipewire.org/",
.init = qpw_audio_init,
.fini = qpw_audio_fini,
.pcm_ops = &qpw_pcm_ops,
.max_voices_out = INT_MAX,
.max_voices_in = INT_MAX,
.voice_size_out = sizeof(PWVoiceOut),
.voice_size_in = sizeof(PWVoiceIn),
};
static void
register_audio_pw(void)
{
audio_driver_register(&pw_audio_driver);
}
type_init(register_audio_pw);
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