yolobs-studio/libobs/audio-monitoring/pulse/pulseaudio-output.c

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#include "obs-internal.h"
#include "pulseaudio-wrapper.h"
#define PULSE_DATA(voidptr) struct audio_monitor *data = voidptr;
#define blog(level, msg, ...) blog(level, "pulse-am: " msg, ##__VA_ARGS__)
struct audio_monitor {
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obs_source_t *source;
pa_stream *stream;
char *device;
pa_buffer_attr attr;
enum speaker_layout speakers;
pa_sample_format_t format;
uint_fast32_t samples_per_sec;
uint_fast32_t bytes_per_frame;
uint_fast8_t channels;
uint_fast32_t packets;
uint_fast64_t frames;
struct circlebuf new_data;
audio_resampler_t *resampler;
size_t buffer_size;
size_t bytesRemaining;
size_t bytes_per_channel;
bool ignore;
pthread_mutex_t playback_mutex;
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};
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static enum speaker_layout
pulseaudio_channels_to_obs_speakers(uint_fast32_t channels)
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{
switch (channels) {
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case 0:
return SPEAKERS_UNKNOWN;
case 1:
return SPEAKERS_MONO;
case 2:
return SPEAKERS_STEREO;
case 3:
return SPEAKERS_2POINT1;
case 4:
return SPEAKERS_4POINT0;
case 5:
return SPEAKERS_4POINT1;
case 6:
return SPEAKERS_5POINT1;
case 8:
return SPEAKERS_7POINT1;
default:
return SPEAKERS_UNKNOWN;
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}
}
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static enum audio_format
pulseaudio_to_obs_audio_format(pa_sample_format_t format)
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{
switch (format) {
case PA_SAMPLE_U8:
return AUDIO_FORMAT_U8BIT;
case PA_SAMPLE_S16LE:
return AUDIO_FORMAT_16BIT;
case PA_SAMPLE_S32LE:
return AUDIO_FORMAT_32BIT;
case PA_SAMPLE_FLOAT32LE:
return AUDIO_FORMAT_FLOAT;
default:
return AUDIO_FORMAT_UNKNOWN;
}
}
static pa_channel_map pulseaudio_channel_map(enum speaker_layout layout)
{
pa_channel_map ret;
ret.map[0] = PA_CHANNEL_POSITION_FRONT_LEFT;
ret.map[1] = PA_CHANNEL_POSITION_FRONT_RIGHT;
ret.map[2] = PA_CHANNEL_POSITION_FRONT_CENTER;
ret.map[3] = PA_CHANNEL_POSITION_LFE;
ret.map[4] = PA_CHANNEL_POSITION_REAR_LEFT;
ret.map[5] = PA_CHANNEL_POSITION_REAR_RIGHT;
ret.map[6] = PA_CHANNEL_POSITION_SIDE_LEFT;
ret.map[7] = PA_CHANNEL_POSITION_SIDE_RIGHT;
switch (layout) {
case SPEAKERS_MONO:
ret.channels = 1;
ret.map[0] = PA_CHANNEL_POSITION_MONO;
break;
case SPEAKERS_STEREO:
ret.channels = 2;
break;
case SPEAKERS_2POINT1:
ret.channels = 3;
ret.map[2] = PA_CHANNEL_POSITION_LFE;
break;
case SPEAKERS_4POINT0:
ret.channels = 4;
ret.map[3] = PA_CHANNEL_POSITION_REAR_CENTER;
break;
case SPEAKERS_4POINT1:
ret.channels = 5;
ret.map[4] = PA_CHANNEL_POSITION_REAR_CENTER;
break;
case SPEAKERS_5POINT1:
ret.channels = 6;
break;
case SPEAKERS_7POINT1:
ret.channels = 8;
break;
case SPEAKERS_UNKNOWN:
default:
ret.channels = 0;
break;
}
return ret;
}
static void process_byte(void *p, size_t frames, size_t channels, float vol)
{
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register char *cur = (char *)p;
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register char *end = cur + frames * channels;
while (cur < end)
*(cur++) *= vol;
}
static void process_short(void *p, size_t frames, size_t channels, float vol)
{
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register short *cur = (short *)p;
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register short *end = cur + frames * channels;
while (cur < end)
*(cur++) *= vol;
}
static void process_float(void *p, size_t frames, size_t channels, float vol)
{
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register float *cur = (float *)p;
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register float *end = cur + frames * channels;
while (cur < end)
*(cur++) *= vol;
}
void process_volume(const struct audio_monitor *monitor, float vol,
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uint8_t *const *resample_data, uint32_t resample_frames)
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{
switch (monitor->bytes_per_channel) {
case 1:
process_byte(resample_data[0], resample_frames,
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monitor->channels, vol);
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break;
case 2:
process_short(resample_data[0], resample_frames,
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monitor->channels, vol);
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break;
default:
process_float(resample_data[0], resample_frames,
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monitor->channels, vol);
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break;
}
}
static void do_stream_write(void *param)
{
PULSE_DATA(param);
uint8_t *buffer = NULL;
while (data->new_data.size >= data->buffer_size &&
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data->bytesRemaining > 0) {
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size_t bytesToFill = data->buffer_size;
if (bytesToFill > data->bytesRemaining)
bytesToFill = data->bytesRemaining;
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pa_stream_begin_write(data->stream, (void **)&buffer,
&bytesToFill);
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circlebuf_pop_front(&data->new_data, buffer, bytesToFill);
pulseaudio_lock();
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pa_stream_write(data->stream, buffer, bytesToFill, NULL, 0LL,
PA_SEEK_RELATIVE);
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pulseaudio_unlock();
data->bytesRemaining -= bytesToFill;
}
}
static void on_audio_playback(void *param, obs_source_t *source,
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const struct audio_data *audio_data, bool muted)
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{
struct audio_monitor *monitor = param;
float vol = source->user_volume;
size_t bytes;
uint8_t *resample_data[MAX_AV_PLANES];
uint32_t resample_frames;
uint64_t ts_offset;
bool success;
if (pthread_mutex_trylock(&monitor->playback_mutex) != 0)
return;
if (os_atomic_load_long(&source->activate_refs) == 0)
goto unlock;
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success = audio_resampler_resample(
monitor->resampler, resample_data, &resample_frames, &ts_offset,
(const uint8_t *const *)audio_data->data,
(uint32_t)audio_data->frames);
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if (!success)
goto unlock;
bytes = monitor->bytes_per_frame * resample_frames;
if (muted) {
memset(resample_data[0], 0, bytes);
} else {
if (!close_float(vol, 1.0f, EPSILON)) {
process_volume(monitor, vol, resample_data,
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resample_frames);
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}
}
circlebuf_push_back(&monitor->new_data, resample_data[0], bytes);
monitor->packets++;
monitor->frames += resample_frames;
unlock:
pthread_mutex_unlock(&monitor->playback_mutex);
do_stream_write(param);
}
static void pulseaudio_stream_write(pa_stream *p, size_t nbytes, void *userdata)
{
UNUSED_PARAMETER(p);
PULSE_DATA(userdata);
pthread_mutex_lock(&data->playback_mutex);
data->bytesRemaining += nbytes;
pthread_mutex_unlock(&data->playback_mutex);
pulseaudio_signal(0);
}
static void pulseaudio_underflow(pa_stream *p, void *userdata)
{
UNUSED_PARAMETER(p);
PULSE_DATA(userdata);
pthread_mutex_lock(&data->playback_mutex);
if (obs_source_active(data->source))
data->attr.tlength = (data->attr.tlength * 3) / 2;
pa_stream_set_buffer_attr(data->stream, &data->attr, NULL, NULL);
pthread_mutex_unlock(&data->playback_mutex);
pulseaudio_signal(0);
}
static void pulseaudio_server_info(pa_context *c, const pa_server_info *i,
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void *userdata)
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{
UNUSED_PARAMETER(c);
UNUSED_PARAMETER(userdata);
blog(LOG_INFO, "Server name: '%s %s'", i->server_name,
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i->server_version);
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pulseaudio_signal(0);
}
static void pulseaudio_source_info(pa_context *c, const pa_source_info *i,
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int eol, void *userdata)
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{
UNUSED_PARAMETER(c);
PULSE_DATA(userdata);
// An error occured
if (eol < 0) {
data->format = PA_SAMPLE_INVALID;
goto skip;
}
// Terminating call for multi instance callbacks
if (eol > 0)
goto skip;
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blog(LOG_INFO, "Audio format: %s, %" PRIu32 " Hz, %" PRIu8 " channels",
pa_sample_format_to_string(i->sample_spec.format),
i->sample_spec.rate, i->sample_spec.channels);
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pa_sample_format_t format = i->sample_spec.format;
if (pulseaudio_to_obs_audio_format(format) == AUDIO_FORMAT_UNKNOWN) {
format = PA_SAMPLE_FLOAT32LE;
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blog(LOG_INFO,
"Sample format %s not supported by OBS,"
"using %s instead for recording",
pa_sample_format_to_string(i->sample_spec.format),
pa_sample_format_to_string(format));
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}
uint8_t channels = i->sample_spec.channels;
if (pulseaudio_channels_to_obs_speakers(channels) == SPEAKERS_UNKNOWN) {
channels = 2;
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blog(LOG_INFO,
"%c channels not supported by OBS,"
"using %c instead for recording",
i->sample_spec.channels, channels);
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}
data->format = format;
data->samples_per_sec = i->sample_spec.rate;
data->channels = channels;
skip:
pulseaudio_signal(0);
}
static void pulseaudio_stop_playback(struct audio_monitor *monitor)
{
if (monitor->stream) {
pa_stream_disconnect(monitor->stream);
pa_stream_unref(monitor->stream);
monitor->stream = NULL;
}
blog(LOG_INFO, "Stopped Monitoring in '%s'", monitor->device);
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blog(LOG_INFO,
"Got %" PRIuFAST32 " packets with %" PRIuFAST64 " frames",
monitor->packets, monitor->frames);
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monitor->packets = 0;
monitor->frames = 0;
}
static bool audio_monitor_init(struct audio_monitor *monitor,
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obs_source_t *source)
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{
pthread_mutex_init_value(&monitor->playback_mutex);
monitor->source = source;
const char *id = obs->audio.monitoring_device_id;
if (!id)
return false;
if (source->info.output_flags & OBS_SOURCE_DO_NOT_SELF_MONITOR) {
obs_data_t *s = obs_source_get_settings(source);
const char *s_dev_id = obs_data_get_string(s, "device_id");
bool match = devices_match(s_dev_id, id);
obs_data_release(s);
if (match) {
monitor->ignore = true;
blog(LOG_INFO, "Prevented feedback-loop in '%s'",
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s_dev_id);
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return true;
}
}
pulseaudio_init();
if (strcmp(id, "default") == 0)
get_default_id(&monitor->device);
else
monitor->device = bstrdup(id);
if (!monitor->device)
return false;
if (pulseaudio_get_server_info(pulseaudio_server_info,
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(void *)monitor) < 0) {
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blog(LOG_ERROR, "Unable to get server info !");
return false;
}
if (pulseaudio_get_source_info(pulseaudio_source_info, monitor->device,
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(void *)monitor) < 0) {
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blog(LOG_ERROR, "Unable to get source info !");
return false;
}
if (monitor->format == PA_SAMPLE_INVALID) {
blog(LOG_ERROR,
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"An error occurred while getting the source info!");
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return false;
}
pa_sample_spec spec;
spec.format = monitor->format;
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spec.rate = (uint32_t)monitor->samples_per_sec;
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spec.channels = monitor->channels;
if (!pa_sample_spec_valid(&spec)) {
blog(LOG_ERROR, "Sample spec is not valid");
return false;
}
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const struct audio_output_info *info =
audio_output_get_info(obs->audio.audio);
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struct resample_info from = {.samples_per_sec = info->samples_per_sec,
.speakers = info->speakers,
.format = AUDIO_FORMAT_FLOAT_PLANAR};
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struct resample_info to = {
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.samples_per_sec = (uint32_t)monitor->samples_per_sec,
.speakers =
pulseaudio_channels_to_obs_speakers(monitor->channels),
.format = pulseaudio_to_obs_audio_format(monitor->format)};
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monitor->resampler = audio_resampler_create(&to, &from);
if (!monitor->resampler) {
blog(LOG_WARNING, "%s: %s", __FUNCTION__,
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"Failed to create resampler");
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return false;
}
monitor->bytes_per_channel = get_audio_bytes_per_channel(
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pulseaudio_to_obs_audio_format(monitor->format));
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monitor->speakers = pulseaudio_channels_to_obs_speakers(spec.channels);
monitor->bytes_per_frame = pa_frame_size(&spec);
pa_channel_map channel_map = pulseaudio_channel_map(monitor->speakers);
monitor->stream = pulseaudio_stream_new(
obs_source_get_name(monitor->source), &spec, &channel_map);
if (!monitor->stream) {
blog(LOG_ERROR, "Unable to create stream");
return false;
}
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monitor->attr.fragsize = (uint32_t)-1;
monitor->attr.maxlength = (uint32_t)-1;
monitor->attr.minreq = (uint32_t)-1;
monitor->attr.prebuf = (uint32_t)-1;
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monitor->attr.tlength = pa_usec_to_bytes(25000, &spec);
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monitor->buffer_size =
monitor->bytes_per_frame * pa_usec_to_bytes(5000, &spec);
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pa_stream_flags_t flags = PA_STREAM_INTERPOLATE_TIMING |
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PA_STREAM_AUTO_TIMING_UPDATE;
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if (pthread_mutex_init(&monitor->playback_mutex, NULL) != 0) {
blog(LOG_WARNING, "%s: %s", __FUNCTION__,
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"Failed to init mutex");
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return false;
}
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int_fast32_t ret = pulseaudio_connect_playback(
monitor->stream, monitor->device, &monitor->attr, flags);
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if (ret < 0) {
pulseaudio_stop_playback(monitor);
blog(LOG_ERROR, "Unable to connect to stream");
return false;
}
blog(LOG_INFO, "Started Monitoring in '%s'", monitor->device);
return true;
}
static void audio_monitor_init_final(struct audio_monitor *monitor)
{
if (monitor->ignore)
return;
obs_source_add_audio_capture_callback(monitor->source,
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on_audio_playback, monitor);
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pulseaudio_write_callback(monitor->stream, pulseaudio_stream_write,
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(void *)monitor);
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pulseaudio_set_underflow_callback(monitor->stream, pulseaudio_underflow,
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(void *)monitor);
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}
static inline void audio_monitor_free(struct audio_monitor *monitor)
{
if (monitor->ignore)
return;
if (monitor->source)
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obs_source_remove_audio_capture_callback(
monitor->source, on_audio_playback, monitor);
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audio_resampler_destroy(monitor->resampler);
circlebuf_free(&monitor->new_data);
if (monitor->stream)
pulseaudio_stop_playback(monitor);
pulseaudio_unref();
bfree(monitor->device);
}
struct audio_monitor *audio_monitor_create(obs_source_t *source)
{
struct audio_monitor monitor = {0};
struct audio_monitor *out;
if (!audio_monitor_init(&monitor, source))
goto fail;
out = bmemdup(&monitor, sizeof(monitor));
pthread_mutex_lock(&obs->audio.monitoring_mutex);
da_push_back(obs->audio.monitors, &out);
pthread_mutex_unlock(&obs->audio.monitoring_mutex);
audio_monitor_init_final(out);
return out;
fail:
audio_monitor_free(&monitor);
return NULL;
}
void audio_monitor_reset(struct audio_monitor *monitor)
{
struct audio_monitor new_monitor = {0};
bool success;
audio_monitor_free(monitor);
pthread_mutex_lock(&monitor->playback_mutex);
success = audio_monitor_init(&new_monitor, monitor->source);
pthread_mutex_unlock(&monitor->playback_mutex);
if (success) {
*monitor = new_monitor;
audio_monitor_init_final(monitor);
} else {
audio_monitor_free(&new_monitor);
}
}
void audio_monitor_destroy(struct audio_monitor *monitor)
{
if (monitor) {
audio_monitor_free(monitor);
pthread_mutex_lock(&obs->audio.monitoring_mutex);
da_erase_item(obs->audio.monitors, &monitor);
pthread_mutex_unlock(&obs->audio.monitoring_mutex);
bfree(monitor);
}
}