yolobs-studio/libobs/obs-output.c

2120 lines
54 KiB
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2016-02-23 23:16:51 +00:00
/******************************************************************************
Copyright (C) 2013-2014 by Hugh Bailey <obs.jim@gmail.com>
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
******************************************************************************/
#include <inttypes.h>
#include "util/platform.h"
#include "obs.h"
#include "obs-internal.h"
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#if BUILD_CAPTIONS
#include <caption/caption.h>
#include <caption/avc.h>
#endif
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static inline bool active(const struct obs_output *output)
{
return os_atomic_load_bool(&output->active);
}
static inline bool reconnecting(const struct obs_output *output)
{
return os_atomic_load_bool(&output->reconnecting);
}
static inline bool stopping(const struct obs_output *output)
{
return os_event_try(output->stopping_event) == EAGAIN;
}
static inline bool delay_active(const struct obs_output *output)
{
return os_atomic_load_bool(&output->delay_active);
}
static inline bool delay_capturing(const struct obs_output *output)
{
return os_atomic_load_bool(&output->delay_capturing);
}
static inline bool data_capture_ending(const struct obs_output *output)
{
return os_atomic_load_bool(&output->end_data_capture_thread_active);
}
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const struct obs_output_info *find_output(const char *id)
{
size_t i;
for (i = 0; i < obs->output_types.num; i++)
if (strcmp(obs->output_types.array[i].id, id) == 0)
return obs->output_types.array+i;
return NULL;
}
const char *obs_output_get_display_name(const char *id)
{
const struct obs_output_info *info = find_output(id);
return (info != NULL) ? info->get_name(info->type_data) : NULL;
}
static const char *output_signals[] = {
"void start(ptr output)",
"void stop(ptr output, int code)",
"void starting(ptr output)",
"void stopping(ptr output)",
"void activate(ptr output)",
"void deactivate(ptr output)",
"void reconnect(ptr output)",
"void reconnect_success(ptr output)",
NULL
};
static bool init_output_handlers(struct obs_output *output, const char *name,
obs_data_t *settings, obs_data_t *hotkey_data)
{
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if (!obs_context_data_init(&output->context, OBS_OBJ_TYPE_OUTPUT,
settings, name, hotkey_data, false))
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return false;
signal_handler_add_array(output->context.signals, output_signals);
return true;
}
obs_output_t *obs_output_create(const char *id, const char *name,
obs_data_t *settings, obs_data_t *hotkey_data)
{
const struct obs_output_info *info = find_output(id);
struct obs_output *output;
int ret;
output = bzalloc(sizeof(struct obs_output));
pthread_mutex_init_value(&output->interleaved_mutex);
pthread_mutex_init_value(&output->delay_mutex);
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pthread_mutex_init_value(&output->caption_mutex);
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if (pthread_mutex_init(&output->interleaved_mutex, NULL) != 0)
goto fail;
if (pthread_mutex_init(&output->delay_mutex, NULL) != 0)
goto fail;
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if (pthread_mutex_init(&output->caption_mutex, NULL) != 0)
goto fail;
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if (os_event_init(&output->stopping_event, OS_EVENT_TYPE_MANUAL) != 0)
goto fail;
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if (!init_output_handlers(output, name, settings, hotkey_data))
goto fail;
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os_event_signal(output->stopping_event);
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if (!info) {
blog(LOG_ERROR, "Output ID '%s' not found", id);
output->info.id = bstrdup(id);
output->owns_info_id = true;
} else {
output->info = *info;
}
output->video = obs_get_video();
output->audio = obs_get_audio();
if (output->info.get_defaults)
output->info.get_defaults(output->context.settings);
ret = os_event_init(&output->reconnect_stop_event,
OS_EVENT_TYPE_MANUAL);
if (ret < 0)
goto fail;
output->reconnect_retry_sec = 2;
output->reconnect_retry_max = 20;
output->valid = true;
output->control = bzalloc(sizeof(obs_weak_output_t));
output->control->output = output;
obs_context_data_insert(&output->context,
&obs->data.outputs_mutex,
&obs->data.first_output);
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if (info)
output->context.data = info->create(output->context.settings,
output);
if (!output->context.data)
blog(LOG_ERROR, "Failed to create output '%s'!", name);
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blog(LOG_DEBUG, "output '%s' (%s) created", name, id);
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return output;
fail:
obs_output_destroy(output);
return NULL;
}
static inline void free_packets(struct obs_output *output)
{
for (size_t i = 0; i < output->interleaved_packets.num; i++)
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obs_encoder_packet_release(output->interleaved_packets.array+i);
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da_free(output->interleaved_packets);
}
void obs_output_destroy(obs_output_t *output)
{
if (output) {
obs_context_data_remove(&output->context);
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blog(LOG_DEBUG, "output '%s' destroyed", output->context.name);
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if (output->valid && active(output))
obs_output_actual_stop(output, true, 0);
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os_event_wait(output->stopping_event);
if (data_capture_ending(output))
pthread_join(output->end_data_capture_thread, NULL);
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if (output->service)
output->service->output = NULL;
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if (output->context.data)
output->info.destroy(output->context.data);
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free_packets(output);
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if (output->video_encoder) {
obs_encoder_remove_output(output->video_encoder,
output);
}
for (size_t i = 0; i < MAX_AUDIO_MIXES; i++) {
if (output->audio_encoders[i]) {
obs_encoder_remove_output(
output->audio_encoders[i],
output);
}
}
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os_event_destroy(output->stopping_event);
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pthread_mutex_destroy(&output->caption_mutex);
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pthread_mutex_destroy(&output->interleaved_mutex);
pthread_mutex_destroy(&output->delay_mutex);
os_event_destroy(output->reconnect_stop_event);
obs_context_data_free(&output->context);
circlebuf_free(&output->delay_data);
if (output->owns_info_id)
bfree((void*)output->info.id);
bfree(output);
}
}
const char *obs_output_get_name(const obs_output_t *output)
{
return obs_output_valid(output, "obs_output_get_name") ?
output->context.name : NULL;
}
bool obs_output_actual_start(obs_output_t *output)
{
bool success = false;
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os_event_wait(output->stopping_event);
output->stop_code = 0;
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if (output->context.data)
success = output->info.start(output->context.data);
if (success && output->video) {
output->starting_frame_count =
video_output_get_total_frames(output->video);
output->starting_skipped_frame_count =
video_output_get_skipped_frames(output->video);
output->starting_drawn_count = obs->video.total_frames;
output->starting_lagged_count = obs->video.lagged_frames;
}
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if (os_atomic_load_long(&output->delay_restart_refs))
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os_atomic_dec_long(&output->delay_restart_refs);
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output->caption_timestamp = 0;
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return success;
}
bool obs_output_start(obs_output_t *output)
{
bool encoded;
if (!obs_output_valid(output, "obs_output_start"))
return false;
if (!output->context.data)
return false;
encoded = (output->info.flags & OBS_OUTPUT_ENCODED) != 0;
if (encoded && output->delay_sec) {
return obs_output_delay_start(output);
} else {
if (obs_output_actual_start(output)) {
do_output_signal(output, "starting");
return true;
}
return false;
}
}
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static inline bool data_active(struct obs_output *output)
{
return os_atomic_load_bool(&output->data_active);
}
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static void log_frame_info(struct obs_output *output)
{
struct obs_core_video *video = &obs->video;
uint32_t video_frames = video_output_get_total_frames(output->video);
uint32_t video_skipped = video_output_get_skipped_frames(output->video);
uint32_t total = video_frames - output->starting_frame_count;
uint32_t skipped = video_skipped - output->starting_skipped_frame_count;
uint32_t drawn = video->total_frames - output->starting_drawn_count;
uint32_t lagged = video->lagged_frames - output->starting_lagged_count;
int dropped = obs_output_get_frames_dropped(output);
double percentage_skipped = 0.0f;
double percentage_lagged = 0.0f;
double percentage_dropped = 0.0f;
if (total) {
percentage_skipped = (double)skipped / (double)total * 100.0;
percentage_dropped = (double)dropped / (double)total * 100.0;
}
if (drawn)
percentage_lagged = (double)lagged / (double)drawn * 100.0;
blog(LOG_INFO, "Output '%s': stopping", output->context.name);
blog(LOG_INFO, "Output '%s': Total encoded frames: %"PRIu32,
output->context.name, total);
blog(LOG_INFO, "Output '%s': Total drawn frames: %"PRIu32,
output->context.name, drawn);
if (total && skipped)
blog(LOG_INFO, "Output '%s': Number of skipped frames due "
"to encoding lag: %"PRIu32" (%0.1f%%)",
output->context.name,
skipped, percentage_skipped);
if (drawn && lagged)
blog(LOG_INFO, "Output '%s': Number of lagged frames due "
"to rendering lag/stalls: %"PRIu32" (%0.1f%%)",
output->context.name,
lagged, percentage_lagged);
if (total && dropped)
blog(LOG_INFO, "Output '%s': Number of dropped frames due "
"to insufficient bandwidth/connection stalls: "
"%d (%0.1f%%)",
output->context.name,
dropped, percentage_dropped);
}
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static inline void signal_stop(struct obs_output *output);
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void obs_output_actual_stop(obs_output_t *output, bool force, uint64_t ts)
{
bool call_stop = true;
bool was_reconnecting = false;
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if (stopping(output) && !force)
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return;
os_event_reset(output->stopping_event);
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was_reconnecting = reconnecting(output) && !delay_active(output);
if (reconnecting(output)) {
os_event_signal(output->reconnect_stop_event);
if (output->reconnect_thread_active)
pthread_join(output->reconnect_thread, NULL);
}
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if (force) {
if (delay_active(output)) {
call_stop = delay_capturing(output);
os_atomic_set_bool(&output->delay_active, false);
os_atomic_set_bool(&output->delay_capturing, false);
output->stop_code = OBS_OUTPUT_SUCCESS;
obs_output_end_data_capture(output);
os_event_signal(output->stopping_event);
} else {
call_stop = data_active(output);
}
} else {
call_stop = data_active(output);
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}
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if (output->context.data && call_stop) {
output->info.stop(output->context.data, ts);
} else if (was_reconnecting) {
output->stop_code = OBS_OUTPUT_SUCCESS;
signal_stop(output);
os_event_signal(output->stopping_event);
}
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while (output->caption_head) {
output->caption_tail = output->caption_head->next;
bfree(output->caption_head);
output->caption_head = output->caption_tail;
}
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}
void obs_output_stop(obs_output_t *output)
{
bool encoded;
if (!obs_output_valid(output, "obs_output_stop"))
return;
if (!output->context.data)
return;
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if (!active(output) && !reconnecting(output))
return;
if (reconnecting(output)) {
obs_output_force_stop(output);
return;
}
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encoded = (output->info.flags & OBS_OUTPUT_ENCODED) != 0;
if (encoded && output->active_delay_ns) {
obs_output_delay_stop(output);
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} else if (!stopping(output)) {
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do_output_signal(output, "stopping");
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obs_output_actual_stop(output, false, os_gettime_ns());
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}
}
void obs_output_force_stop(obs_output_t *output)
{
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if (!obs_output_valid(output, "obs_output_force_stop"))
return;
if (!stopping(output)) {
output->stop_code = 0;
do_output_signal(output, "stopping");
}
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obs_output_actual_stop(output, true, 0);
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}
bool obs_output_active(const obs_output_t *output)
{
return (output != NULL) ?
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(active(output) || reconnecting(output)) : false;
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}
static inline obs_data_t *get_defaults(const struct obs_output_info *info)
{
obs_data_t *settings = obs_data_create();
if (info->get_defaults)
info->get_defaults(settings);
return settings;
}
obs_data_t *obs_output_defaults(const char *id)
{
const struct obs_output_info *info = find_output(id);
return (info) ? get_defaults(info) : NULL;
}
obs_properties_t *obs_get_output_properties(const char *id)
{
const struct obs_output_info *info = find_output(id);
if (info && info->get_properties) {
obs_data_t *defaults = get_defaults(info);
obs_properties_t *properties;
properties = info->get_properties(NULL);
obs_properties_apply_settings(properties, defaults);
obs_data_release(defaults);
return properties;
}
return NULL;
}
obs_properties_t *obs_output_properties(const obs_output_t *output)
{
if (!obs_output_valid(output, "obs_output_properties"))
return NULL;
if (output && output->info.get_properties) {
obs_properties_t *props;
props = output->info.get_properties(output->context.data);
obs_properties_apply_settings(props, output->context.settings);
return props;
}
return NULL;
}
void obs_output_update(obs_output_t *output, obs_data_t *settings)
{
if (!obs_output_valid(output, "obs_output_update"))
return;
obs_data_apply(output->context.settings, settings);
if (output->info.update)
output->info.update(output->context.data,
output->context.settings);
}
obs_data_t *obs_output_get_settings(const obs_output_t *output)
{
if (!obs_output_valid(output, "obs_output_get_settings"))
return NULL;
obs_data_addref(output->context.settings);
return output->context.settings;
}
bool obs_output_can_pause(const obs_output_t *output)
{
return obs_output_valid(output, "obs_output_can_pause") ?
(output->info.pause != NULL) : false;
}
void obs_output_pause(obs_output_t *output)
{
if (!obs_output_valid(output, "obs_output_pause"))
return;
if (output->info.pause)
output->info.pause(output->context.data);
}
signal_handler_t *obs_output_get_signal_handler(const obs_output_t *output)
{
return obs_output_valid(output, "obs_output_get_signal_handler") ?
output->context.signals : NULL;
}
proc_handler_t *obs_output_get_proc_handler(const obs_output_t *output)
{
return obs_output_valid(output, "obs_output_get_proc_handler") ?
output->context.procs : NULL;
}
void obs_output_set_media(obs_output_t *output, video_t *video, audio_t *audio)
{
if (!obs_output_valid(output, "obs_output_set_media"))
return;
output->video = video;
output->audio = audio;
}
video_t *obs_output_video(const obs_output_t *output)
{
return obs_output_valid(output, "obs_output_video") ?
output->video : NULL;
}
audio_t *obs_output_audio(const obs_output_t *output)
{
return obs_output_valid(output, "obs_output_audio") ?
output->audio : NULL;
}
void obs_output_set_mixer(obs_output_t *output, size_t mixer_idx)
{
if (!obs_output_valid(output, "obs_output_set_mixer"))
return;
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if (!active(output))
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output->mixer_idx = mixer_idx;
}
size_t obs_output_get_mixer(const obs_output_t *output)
{
return obs_output_valid(output, "obs_output_get_mixer") ?
output->mixer_idx : 0;
}
void obs_output_remove_encoder(struct obs_output *output,
struct obs_encoder *encoder)
{
if (!obs_output_valid(output, "obs_output_remove_encoder"))
return;
if (output->video_encoder == encoder) {
output->video_encoder = NULL;
} else {
for (size_t i = 0; i < MAX_AUDIO_MIXES; i++) {
if (output->audio_encoders[i] == encoder)
output->audio_encoders[i] = NULL;
}
}
}
void obs_output_set_video_encoder(obs_output_t *output, obs_encoder_t *encoder)
{
if (!obs_output_valid(output, "obs_output_set_video_encoder"))
return;
if (encoder && encoder->info.type != OBS_ENCODER_VIDEO) {
blog(LOG_WARNING, "obs_output_set_video_encoder: "
"encoder passed is not a video encoder");
return;
}
if (output->video_encoder == encoder) return;
obs_encoder_remove_output(output->video_encoder, output);
obs_encoder_add_output(encoder, output);
output->video_encoder = encoder;
/* set the preferred resolution on the encoder */
if (output->scaled_width && output->scaled_height)
obs_encoder_set_scaled_size(output->video_encoder,
output->scaled_width, output->scaled_height);
}
void obs_output_set_audio_encoder(obs_output_t *output, obs_encoder_t *encoder,
size_t idx)
{
if (!obs_output_valid(output, "obs_output_set_audio_encoder"))
return;
if (encoder && encoder->info.type != OBS_ENCODER_AUDIO) {
blog(LOG_WARNING, "obs_output_set_audio_encoder: "
"encoder passed is not an audio encoder");
return;
}
if ((output->info.flags & OBS_OUTPUT_MULTI_TRACK) != 0) {
if (idx >= MAX_AUDIO_MIXES) {
return;
}
} else {
if (idx > 0) {
return;
}
}
if (output->audio_encoders[idx] == encoder) return;
obs_encoder_remove_output(output->audio_encoders[idx], output);
obs_encoder_add_output(encoder, output);
output->audio_encoders[idx] = encoder;
}
obs_encoder_t *obs_output_get_video_encoder(const obs_output_t *output)
{
return obs_output_valid(output, "obs_output_get_video_encoder") ?
output->video_encoder : NULL;
}
obs_encoder_t *obs_output_get_audio_encoder(const obs_output_t *output,
size_t idx)
{
if (!obs_output_valid(output, "obs_output_get_audio_encoder"))
return NULL;
if ((output->info.flags & OBS_OUTPUT_MULTI_TRACK) != 0) {
if (idx >= MAX_AUDIO_MIXES) {
return NULL;
}
} else {
if (idx > 0) {
return NULL;
}
}
return output->audio_encoders[idx];
}
void obs_output_set_service(obs_output_t *output, obs_service_t *service)
{
if (!obs_output_valid(output, "obs_output_set_service"))
return;
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if (active(output) || !service || service->active)
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return;
if (service->output)
service->output->service = NULL;
output->service = service;
service->output = output;
}
obs_service_t *obs_output_get_service(const obs_output_t *output)
{
return obs_output_valid(output, "obs_output_get_service") ?
output->service : NULL;
}
void obs_output_set_reconnect_settings(obs_output_t *output,
int retry_count, int retry_sec)
{
if (!obs_output_valid(output, "obs_output_set_reconnect_settings"))
return;
output->reconnect_retry_max = retry_count;
output->reconnect_retry_sec = retry_sec;
}
uint64_t obs_output_get_total_bytes(const obs_output_t *output)
{
if (!obs_output_valid(output, "obs_output_get_total_bytes"))
return 0;
if (!output->info.get_total_bytes)
return 0;
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if (delay_active(output) && !delay_capturing(output))
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return 0;
return output->info.get_total_bytes(output->context.data);
}
int obs_output_get_frames_dropped(const obs_output_t *output)
{
if (!obs_output_valid(output, "obs_output_get_frames_dropped"))
return 0;
if (!output->info.get_dropped_frames)
return 0;
return output->info.get_dropped_frames(output->context.data);
}
int obs_output_get_total_frames(const obs_output_t *output)
{
return obs_output_valid(output, "obs_output_get_total_frames") ?
output->total_frames : 0;
}
void obs_output_set_preferred_size(obs_output_t *output, uint32_t width,
uint32_t height)
{
if (!obs_output_valid(output, "obs_output_set_preferred_size"))
return;
if ((output->info.flags & OBS_OUTPUT_VIDEO) == 0)
return;
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if (active(output)) {
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blog(LOG_WARNING, "output '%s': Cannot set the preferred "
"resolution while the output is active",
obs_output_get_name(output));
return;
}
output->scaled_width = width;
output->scaled_height = height;
if (output->info.flags & OBS_OUTPUT_ENCODED) {
if (output->video_encoder)
obs_encoder_set_scaled_size(output->video_encoder,
width, height);
}
}
uint32_t obs_output_get_width(const obs_output_t *output)
{
if (!obs_output_valid(output, "obs_output_get_width"))
return 0;
if ((output->info.flags & OBS_OUTPUT_VIDEO) == 0)
return 0;
if (output->info.flags & OBS_OUTPUT_ENCODED)
return obs_encoder_get_width(output->video_encoder);
else
return output->scaled_width != 0 ?
output->scaled_width :
video_output_get_width(output->video);
}
uint32_t obs_output_get_height(const obs_output_t *output)
{
if (!obs_output_valid(output, "obs_output_get_height"))
return 0;
if ((output->info.flags & OBS_OUTPUT_VIDEO) == 0)
return 0;
if (output->info.flags & OBS_OUTPUT_ENCODED)
return obs_encoder_get_height(output->video_encoder);
else
return output->scaled_height != 0 ?
output->scaled_height :
video_output_get_height(output->video);
}
void obs_output_set_video_conversion(obs_output_t *output,
const struct video_scale_info *conversion)
{
if (!obs_output_valid(output, "obs_output_set_video_conversion"))
return;
if (!obs_ptr_valid(conversion, "obs_output_set_video_conversion"))
return;
output->video_conversion = *conversion;
output->video_conversion_set = true;
}
void obs_output_set_audio_conversion(obs_output_t *output,
const struct audio_convert_info *conversion)
{
if (!obs_output_valid(output, "obs_output_set_audio_conversion"))
return;
if (!obs_ptr_valid(conversion, "obs_output_set_audio_conversion"))
return;
output->audio_conversion = *conversion;
output->audio_conversion_set = true;
}
static inline bool service_supports_multitrack(const struct obs_output *output)
{
const struct obs_service *service = output->service;
if (!service || !service->info.supports_multitrack) {
return false;
}
return service->info.supports_multitrack(service->context.data);
}
static inline size_t num_audio_mixes(const struct obs_output *output)
{
size_t mix_count = 1;
if ((output->info.flags & OBS_OUTPUT_SERVICE) != 0) {
if (!service_supports_multitrack(output)) {
return 1;
}
}
if ((output->info.flags & OBS_OUTPUT_MULTI_TRACK) != 0) {
mix_count = 0;
for (size_t i = 0; i < MAX_AUDIO_MIXES; i++) {
if (!output->audio_encoders[i])
break;
mix_count++;
}
}
return mix_count;
}
static inline bool audio_valid(const struct obs_output *output, bool encoded)
{
if (encoded) {
size_t mix_count = num_audio_mixes(output);
if (!mix_count)
return false;
for (size_t i = 0; i < mix_count; i++) {
if (!output->audio_encoders[i]) {
return false;
}
}
} else {
if (!output->audio)
return false;
}
return true;
}
static bool can_begin_data_capture(const struct obs_output *output,
bool encoded, bool has_video, bool has_audio, bool has_service)
{
if (has_video) {
if (encoded) {
if (!output->video_encoder)
return false;
} else {
if (!output->video)
return false;
}
}
if (has_audio) {
if (!audio_valid(output, encoded)) {
return false;
}
}
if (has_service && !output->service)
return false;
return true;
}
static inline bool has_scaling(const struct obs_output *output)
{
uint32_t video_width = video_output_get_width(output->video);
uint32_t video_height = video_output_get_height(output->video);
return output->scaled_width && output->scaled_height &&
(video_width != output->scaled_width ||
video_height != output->scaled_height);
}
static inline struct video_scale_info *get_video_conversion(
struct obs_output *output)
{
if (output->video_conversion_set) {
if (!output->video_conversion.width)
output->video_conversion.width =
obs_output_get_width(output);
if (!output->video_conversion.height)
output->video_conversion.height =
obs_output_get_height(output);
return &output->video_conversion;
} else if (has_scaling(output)) {
const struct video_output_info *info =
video_output_get_info(output->video);
output->video_conversion.format = info->format;
output->video_conversion.colorspace = VIDEO_CS_DEFAULT;
output->video_conversion.range = VIDEO_RANGE_DEFAULT;
output->video_conversion.width = output->scaled_width;
output->video_conversion.height = output->scaled_height;
return &output->video_conversion;
}
return NULL;
}
static inline struct audio_convert_info *get_audio_conversion(
struct obs_output *output)
{
return output->audio_conversion_set ? &output->audio_conversion : NULL;
}
static size_t get_track_index(const struct obs_output *output,
struct encoder_packet *pkt)
{
for (size_t i = 0; i < MAX_AUDIO_MIXES; i++) {
struct obs_encoder *encoder = output->audio_encoders[i];
if (pkt->encoder == encoder)
return i;
}
assert(false);
return 0;
}
static inline void check_received(struct obs_output *output,
struct encoder_packet *out)
{
if (out->type == OBS_ENCODER_VIDEO) {
if (!output->received_video)
output->received_video = true;
} else {
if (!output->received_audio)
output->received_audio = true;
}
}
static inline void apply_interleaved_packet_offset(struct obs_output *output,
struct encoder_packet *out)
{
int64_t offset;
/* audio and video need to start at timestamp 0, and the encoders
* may not currently be at 0 when we get data. so, we store the
* current dts as offset and subtract that value from the dts/pts
* of the output packet. */
offset = (out->type == OBS_ENCODER_VIDEO) ?
output->video_offset : output->audio_offsets[out->track_idx];
out->dts -= offset;
out->pts -= offset;
/* convert the newly adjusted dts to relative dts time to ensure proper
* interleaving. if we're using an audio encoder that's already been
* started on another output, then the first audio packet may not be
* quite perfectly synced up in terms of system time (and there's
* nothing we can really do about that), but it will always at least be
* within a 23ish millisecond threshold (at least for AAC) */
out->dts_usec = packet_dts_usec(out);
}
static inline bool has_higher_opposing_ts(struct obs_output *output,
struct encoder_packet *packet)
{
if (packet->type == OBS_ENCODER_VIDEO)
return output->highest_audio_ts > packet->dts_usec;
else
return output->highest_video_ts > packet->dts_usec;
}
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#if BUILD_CAPTIONS
static const uint8_t nal_start[4] = {0, 0, 0, 1};
static bool add_caption(struct obs_output *output, struct encoder_packet *out)
{
struct encoder_packet backup = *out;
caption_frame_t cf;
sei_t sei;
uint8_t *data;
size_t size;
long ref = 1;
DARRAY(uint8_t) out_data;
if (out->priority > 1)
return false;
sei_init(&sei);
da_init(out_data);
da_push_back_array(out_data, &ref, sizeof(ref));
da_push_back_array(out_data, out->data, out->size);
caption_frame_init(&cf);
caption_frame_from_text(&cf, &output->caption_head->text[0]);
sei_from_caption_frame(&sei, &cf);
data = malloc(sei_render_size(&sei));
size = sei_render(&sei, data);
/* TODO SEI should come after AUD/SPS/PPS, but before any VCL */
da_push_back_array(out_data, nal_start, 4);
da_push_back_array(out_data, data, size);
free(data);
obs_encoder_packet_release(out);
*out = backup;
out->data = (uint8_t*)out_data.array + sizeof(ref);
out->size = out_data.num - sizeof(ref);
sei_free(&sei);
struct caption_text *next = output->caption_head->next;
bfree(output->caption_head);
output->caption_head = next;
return true;
}
#endif
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static inline void send_interleaved(struct obs_output *output)
{
struct encoder_packet out = output->interleaved_packets.array[0];
/* do not send an interleaved packet if there's no packet of the
* opposing type of a higher timstamp in the interleave buffer.
* this ensures that the timestamps are monotonic */
if (!has_higher_opposing_ts(output, &out))
return;
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da_erase(output->interleaved_packets, 0);
if (out.type == OBS_ENCODER_VIDEO) {
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output->total_frames++;
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#if BUILD_CAPTIONS
pthread_mutex_lock(&output->caption_mutex);
double frame_timestamp = (out.pts * out.timebase_num) /
(double)out.timebase_den;
/* TODO if output->caption_timestamp is more than 5 seconds
* old, send empty frame */
if (output->caption_head &&
output->caption_timestamp <= frame_timestamp) {
blog(LOG_INFO,"Sending caption: %f \"%s\"",
frame_timestamp,
&output->caption_head->text[0]);
if (add_caption(output, &out)) {
output->caption_timestamp =
frame_timestamp + 2.0;
}
}
pthread_mutex_unlock(&output->caption_mutex);
#endif
}
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output->info.encoded_packet(output->context.data, &out);
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obs_encoder_packet_release(&out);
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}
static inline void set_higher_ts(struct obs_output *output,
struct encoder_packet *packet)
{
if (packet->type == OBS_ENCODER_VIDEO) {
if (output->highest_video_ts < packet->dts_usec)
output->highest_video_ts = packet->dts_usec;
} else {
if (output->highest_audio_ts < packet->dts_usec)
output->highest_audio_ts = packet->dts_usec;
}
}
static inline struct encoder_packet *find_first_packet_type(
struct obs_output *output, enum obs_encoder_type type,
size_t audio_idx);
static int find_first_packet_type_idx(struct obs_output *output,
enum obs_encoder_type type, size_t audio_idx);
/* gets the point where audio and video are closest together */
static size_t get_interleaved_start_idx(struct obs_output *output)
{
int64_t closest_diff = 0x7FFFFFFFFFFFFFFFLL;
struct encoder_packet *first_video = find_first_packet_type(output,
OBS_ENCODER_VIDEO, 0);
size_t video_idx = DARRAY_INVALID;
size_t idx = 0;
for (size_t i = 0; i < output->interleaved_packets.num; i++) {
struct encoder_packet *packet =
&output->interleaved_packets.array[i];
int64_t diff;
if (packet->type != OBS_ENCODER_AUDIO) {
if (packet == first_video)
video_idx = i;
continue;
}
diff = llabs(packet->dts_usec - first_video->dts_usec);
if (diff < closest_diff) {
closest_diff = diff;
idx = i;
}
}
return video_idx < idx ? video_idx : idx;
}
static int prune_premature_packets(struct obs_output *output)
{
size_t audio_mixes = num_audio_mixes(output);
struct encoder_packet *video;
int video_idx;
int max_idx;
int64_t duration_usec;
int64_t max_diff = 0;
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int64_t diff = 0;
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video_idx = find_first_packet_type_idx(output, OBS_ENCODER_VIDEO, 0);
if (video_idx == -1) {
output->received_video = false;
return -1;
}
max_idx = video_idx;
video = &output->interleaved_packets.array[video_idx];
duration_usec = video->timebase_num * 1000000LL / video->timebase_den;
for (size_t i = 0; i < audio_mixes; i++) {
struct encoder_packet *audio;
int audio_idx;
audio_idx = find_first_packet_type_idx(output,
OBS_ENCODER_AUDIO, i);
if (audio_idx == -1) {
output->received_audio = false;
return -1;
}
audio = &output->interleaved_packets.array[audio_idx];
if (audio_idx > max_idx)
max_idx = audio_idx;
diff = audio->dts_usec - video->dts_usec;
if (diff > max_diff)
max_diff = diff;
}
return diff > duration_usec ? max_idx + 1 : 0;
}
static void discard_to_idx(struct obs_output *output, size_t idx)
{
for (size_t i = 0; i < idx; i++) {
struct encoder_packet *packet =
&output->interleaved_packets.array[i];
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obs_encoder_packet_release(packet);
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}
da_erase_range(output->interleaved_packets, 0, idx);
}
#define DEBUG_STARTING_PACKETS 0
static bool prune_interleaved_packets(struct obs_output *output)
{
size_t start_idx = 0;
int prune_start = prune_premature_packets(output);
#if DEBUG_STARTING_PACKETS == 1
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blog(LOG_DEBUG, "--------- Pruning! %d ---------", prune_start);
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for (size_t i = 0; i < output->interleaved_packets.num; i++) {
struct encoder_packet *packet =
&output->interleaved_packets.array[i];
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blog(LOG_DEBUG, "packet: %s %d, ts: %lld, pruned = %s",
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packet->type == OBS_ENCODER_AUDIO ?
"audio" : "video", (int)packet->track_idx,
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packet->dts_usec,
(int)i < prune_start ? "true" : "false");
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}
#endif
/* prunes the first video packet if it's too far away from audio */
if (prune_start == -1)
return false;
else if (prune_start != 0)
start_idx = (size_t)prune_start;
else
start_idx = get_interleaved_start_idx(output);
if (start_idx)
discard_to_idx(output, start_idx);
return true;
}
static int find_first_packet_type_idx(struct obs_output *output,
enum obs_encoder_type type, size_t audio_idx)
{
for (size_t i = 0; i < output->interleaved_packets.num; i++) {
struct encoder_packet *packet =
&output->interleaved_packets.array[i];
if (packet->type == type) {
if (type == OBS_ENCODER_AUDIO &&
packet->track_idx != audio_idx) {
continue;
}
return (int)i;
}
}
return -1;
}
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static int find_last_packet_type_idx(struct obs_output *output,
enum obs_encoder_type type, size_t audio_idx)
{
for (size_t i = output->interleaved_packets.num; i > 0; i--) {
struct encoder_packet *packet =
&output->interleaved_packets.array[i - 1];
if (packet->type == type) {
if (type == OBS_ENCODER_AUDIO &&
packet->track_idx != audio_idx) {
continue;
}
return (int)(i - 1);
}
}
return -1;
}
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static inline struct encoder_packet *find_first_packet_type(
struct obs_output *output, enum obs_encoder_type type,
size_t audio_idx)
{
int idx = find_first_packet_type_idx(output, type, audio_idx);
return (idx != -1) ? &output->interleaved_packets.array[idx] : NULL;
}
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static inline struct encoder_packet *find_last_packet_type(
struct obs_output *output, enum obs_encoder_type type,
size_t audio_idx)
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{
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int idx = find_last_packet_type_idx(output, type, audio_idx);
return (idx != -1) ? &output->interleaved_packets.array[idx] : NULL;
}
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static bool get_audio_and_video_packets(struct obs_output *output,
struct encoder_packet **video,
struct encoder_packet **audio, size_t audio_mixes)
{
*video = find_first_packet_type(output, OBS_ENCODER_VIDEO, 0);
if (!*video)
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output->received_video = false;
for (size_t i = 0; i < audio_mixes; i++) {
audio[i] = find_first_packet_type(output, OBS_ENCODER_AUDIO, i);
if (!audio[i]) {
output->received_audio = false;
return false;
}
}
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if (!*video) {
return false;
}
return true;
}
static bool initialize_interleaved_packets(struct obs_output *output)
{
struct encoder_packet *video;
struct encoder_packet *audio[MAX_AUDIO_MIXES];
struct encoder_packet *last_audio[MAX_AUDIO_MIXES];
size_t audio_mixes = num_audio_mixes(output);
size_t start_idx;
if (!get_audio_and_video_packets(output, &video, audio, audio_mixes))
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return false;
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for (size_t i = 0; i < audio_mixes; i++)
last_audio[i] = find_last_packet_type(output, OBS_ENCODER_AUDIO,
i);
/* ensure that there is audio past the first video packet */
for (size_t i = 0; i < audio_mixes; i++) {
if (last_audio[i]->dts_usec < video->dts_usec) {
output->received_audio = false;
return false;
}
}
/* clear out excess starting audio if it hasn't been already */
start_idx = get_interleaved_start_idx(output);
if (start_idx) {
discard_to_idx(output, start_idx);
if (!get_audio_and_video_packets(output, &video, audio,
audio_mixes))
return false;
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}
/* get new offsets */
output->video_offset = video->dts;
for (size_t i = 0; i < audio_mixes; i++)
output->audio_offsets[i] = audio[i]->dts;
#if DEBUG_STARTING_PACKETS == 1
int64_t v = video->dts_usec;
int64_t a = audio[0]->dts_usec;
int64_t diff = v - a;
blog(LOG_DEBUG, "output '%s' offset for video: %lld, audio: %lld, "
"diff: %lldms", output->context.name, v, a,
diff / 1000LL);
#endif
/* subtract offsets from highest TS offset variables */
output->highest_audio_ts -= audio[0]->dts_usec;
output->highest_video_ts -= video->dts_usec;
/* apply new offsets to all existing packet DTS/PTS values */
for (size_t i = 0; i < output->interleaved_packets.num; i++) {
struct encoder_packet *packet =
&output->interleaved_packets.array[i];
apply_interleaved_packet_offset(output, packet);
}
return true;
}
static inline void insert_interleaved_packet(struct obs_output *output,
struct encoder_packet *out)
{
size_t idx;
for (idx = 0; idx < output->interleaved_packets.num; idx++) {
struct encoder_packet *cur_packet;
cur_packet = output->interleaved_packets.array + idx;
if (out->dts_usec < cur_packet->dts_usec)
break;
}
da_insert(output->interleaved_packets, idx, out);
}
static void resort_interleaved_packets(struct obs_output *output)
{
DARRAY(struct encoder_packet) old_array;
old_array.da = output->interleaved_packets.da;
memset(&output->interleaved_packets, 0,
sizeof(output->interleaved_packets));
for (size_t i = 0; i < old_array.num; i++)
insert_interleaved_packet(output, &old_array.array[i]);
da_free(old_array);
}
static void discard_unused_audio_packets(struct obs_output *output,
int64_t dts_usec)
{
size_t idx = 0;
for (; idx < output->interleaved_packets.num; idx++) {
struct encoder_packet *p =
&output->interleaved_packets.array[idx];
if (p->dts_usec >= dts_usec)
break;
}
if (idx)
discard_to_idx(output, idx);
}
static void interleave_packets(void *data, struct encoder_packet *packet)
{
struct obs_output *output = data;
struct encoder_packet out;
bool was_started;
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if (!active(output))
return;
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if (packet->type == OBS_ENCODER_AUDIO)
packet->track_idx = get_track_index(output, packet);
pthread_mutex_lock(&output->interleaved_mutex);
/* if first video frame is not a keyframe, discard until received */
if (!output->received_video &&
packet->type == OBS_ENCODER_VIDEO &&
!packet->keyframe) {
discard_unused_audio_packets(output, packet->dts_usec);
pthread_mutex_unlock(&output->interleaved_mutex);
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if (output->active_delay_ns)
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obs_encoder_packet_release(packet);
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return;
}
was_started = output->received_audio && output->received_video;
if (output->active_delay_ns)
out = *packet;
else
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obs_encoder_packet_create_instance(&out, packet);
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if (was_started)
apply_interleaved_packet_offset(output, &out);
else
check_received(output, packet);
insert_interleaved_packet(output, &out);
set_higher_ts(output, &out);
/* when both video and audio have been received, we're ready
* to start sending out packets (one at a time) */
if (output->received_audio && output->received_video) {
if (!was_started) {
if (prune_interleaved_packets(output)) {
if (initialize_interleaved_packets(output)) {
resort_interleaved_packets(output);
send_interleaved(output);
}
}
} else {
send_interleaved(output);
}
}
pthread_mutex_unlock(&output->interleaved_mutex);
}
static void default_encoded_callback(void *param, struct encoder_packet *packet)
{
struct obs_output *output = param;
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if (data_active(output)) {
if (packet->type == OBS_ENCODER_AUDIO)
packet->track_idx = get_track_index(output, packet);
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output->info.encoded_packet(output->context.data, packet);
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if (packet->type == OBS_ENCODER_VIDEO)
output->total_frames++;
}
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if (output->active_delay_ns)
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obs_encoder_packet_release(packet);
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}
static void default_raw_video_callback(void *param, struct video_data *frame)
{
struct obs_output *output = param;
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if (data_active(output))
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output->info.raw_video(output->context.data, frame);
output->total_frames++;
}
static void default_raw_audio_callback(void *param, size_t mix_idx,
struct audio_data *frames)
{
struct obs_output *output = param;
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if (!data_active(output))
return;
output->info.raw_audio(output->context.data, frames);
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UNUSED_PARAMETER(mix_idx);
}
static inline void start_audio_encoders(struct obs_output *output,
encoded_callback_t encoded_callback)
{
size_t num_mixes = num_audio_mixes(output);
for (size_t i = 0; i < num_mixes; i++) {
obs_encoder_start(output->audio_encoders[i],
encoded_callback, output);
}
}
static void reset_packet_data(obs_output_t *output)
{
output->received_audio = false;
output->received_video = false;
output->highest_audio_ts = 0;
output->highest_video_ts = 0;
output->video_offset = 0;
for (size_t i = 0; i < MAX_AUDIO_MIXES; i++)
output->audio_offsets[0] = 0;
free_packets(output);
}
static inline bool preserve_active(struct obs_output *output)
{
return (output->delay_flags & OBS_OUTPUT_DELAY_PRESERVE) != 0;
}
static void hook_data_capture(struct obs_output *output, bool encoded,
bool has_video, bool has_audio)
{
encoded_callback_t encoded_callback;
if (encoded) {
pthread_mutex_lock(&output->interleaved_mutex);
reset_packet_data(output);
pthread_mutex_unlock(&output->interleaved_mutex);
encoded_callback = (has_video && has_audio) ?
interleave_packets : default_encoded_callback;
if (output->delay_sec) {
output->active_delay_ns =
(uint64_t)output->delay_sec * 1000000000ULL;
output->delay_cur_flags = output->delay_flags;
output->delay_callback = encoded_callback;
encoded_callback = process_delay;
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os_atomic_set_bool(&output->delay_active, true);
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blog(LOG_INFO, "Output '%s': %"PRIu32" second delay "
"active, preserve on disconnect is %s",
output->context.name,
output->delay_sec,
preserve_active(output) ? "on" : "off");
}
if (has_audio)
start_audio_encoders(output, encoded_callback);
if (has_video)
obs_encoder_start(output->video_encoder,
encoded_callback, output);
} else {
if (has_video)
video_output_connect(output->video,
get_video_conversion(output),
default_raw_video_callback, output);
if (has_audio)
audio_output_connect(output->audio, output->mixer_idx,
get_audio_conversion(output),
default_raw_audio_callback, output);
}
}
static inline void signal_start(struct obs_output *output)
{
do_output_signal(output, "start");
}
static inline void signal_reconnect(struct obs_output *output)
{
struct calldata params;
uint8_t stack[128];
calldata_init_fixed(&params, stack, sizeof(stack));
calldata_set_int(&params, "timeout_sec",
output->reconnect_retry_cur_sec);
calldata_set_ptr(&params, "output", output);
signal_handler_signal(output->context.signals, "reconnect", &params);
}
static inline void signal_reconnect_success(struct obs_output *output)
{
do_output_signal(output, "reconnect_success");
}
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static inline void signal_stop(struct obs_output *output)
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{
struct calldata params;
uint8_t stack[128];
calldata_init_fixed(&params, stack, sizeof(stack));
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calldata_set_int(&params, "code", output->stop_code);
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calldata_set_ptr(&params, "output", output);
signal_handler_signal(output->context.signals, "stop", &params);
}
static inline void convert_flags(const struct obs_output *output,
uint32_t flags, bool *encoded, bool *has_video, bool *has_audio,
bool *has_service)
{
*encoded = (output->info.flags & OBS_OUTPUT_ENCODED) != 0;
if (!flags)
flags = output->info.flags;
else
flags &= output->info.flags;
*has_video = (flags & OBS_OUTPUT_VIDEO) != 0;
*has_audio = (flags & OBS_OUTPUT_AUDIO) != 0;
*has_service = (flags & OBS_OUTPUT_SERVICE) != 0;
}
bool obs_output_can_begin_data_capture(const obs_output_t *output,
uint32_t flags)
{
bool encoded, has_video, has_audio, has_service;
if (!obs_output_valid(output, "obs_output_can_begin_data_capture"))
return false;
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if (delay_active(output)) return true;
if (active(output)) return false;
if (data_capture_ending(output))
pthread_join(output->end_data_capture_thread, NULL);
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convert_flags(output, flags, &encoded, &has_video, &has_audio,
&has_service);
return can_begin_data_capture(output, encoded, has_video, has_audio,
has_service);
}
static inline bool initialize_audio_encoders(obs_output_t *output,
size_t num_mixes)
{
for (size_t i = 0; i < num_mixes; i++) {
if (!obs_encoder_initialize(output->audio_encoders[i])) {
return false;
}
}
return true;
}
static inline obs_encoder_t *find_inactive_audio_encoder(obs_output_t *output,
size_t num_mixes)
{
for (size_t i = 0; i < num_mixes; i++) {
struct obs_encoder *audio = output->audio_encoders[i];
if (!audio->active && !audio->paired_encoder)
return audio;
}
return NULL;
}
static inline void pair_encoders(obs_output_t *output, size_t num_mixes)
{
struct obs_encoder *video = output->video_encoder;
struct obs_encoder *audio = find_inactive_audio_encoder(output,
num_mixes);
if (video && audio) {
pthread_mutex_lock(&audio->init_mutex);
pthread_mutex_lock(&video->init_mutex);
if (!audio->active &&
!video->active &&
!video->paired_encoder &&
!audio->paired_encoder) {
audio->wait_for_video = true;
audio->paired_encoder = video;
video->paired_encoder = audio;
}
pthread_mutex_unlock(&video->init_mutex);
pthread_mutex_unlock(&audio->init_mutex);
}
}
bool obs_output_initialize_encoders(obs_output_t *output, uint32_t flags)
{
bool encoded, has_video, has_audio, has_service;
size_t num_mixes = num_audio_mixes(output);
if (!obs_output_valid(output, "obs_output_initialize_encoders"))
return false;
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if (active(output)) return delay_active(output);
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convert_flags(output, flags, &encoded, &has_video, &has_audio,
&has_service);
if (!encoded)
return false;
if (has_service && !obs_service_initialize(output->service, output))
return false;
if (has_video && !obs_encoder_initialize(output->video_encoder))
return false;
if (has_audio && !initialize_audio_encoders(output, num_mixes))
return false;
if (has_video && has_audio)
pair_encoders(output, num_mixes);
return true;
}
static bool begin_delayed_capture(obs_output_t *output)
{
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if (delay_capturing(output))
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return false;
pthread_mutex_lock(&output->interleaved_mutex);
reset_packet_data(output);
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os_atomic_set_bool(&output->delay_capturing, true);
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pthread_mutex_unlock(&output->interleaved_mutex);
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if (reconnecting(output)) {
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signal_reconnect_success(output);
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os_atomic_set_bool(&output->reconnecting, false);
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} else {
signal_start(output);
}
return true;
}
bool obs_output_begin_data_capture(obs_output_t *output, uint32_t flags)
{
bool encoded, has_video, has_audio, has_service;
if (!obs_output_valid(output, "obs_output_begin_data_capture"))
return false;
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if (delay_active(output)) return begin_delayed_capture(output);
if (active(output)) return false;
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output->total_frames = 0;
convert_flags(output, flags, &encoded, &has_video, &has_audio,
&has_service);
if (!can_begin_data_capture(output, encoded, has_video, has_audio,
has_service))
return false;
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os_atomic_set_bool(&output->data_active, true);
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hook_data_capture(output, encoded, has_video, has_audio);
if (has_service)
obs_service_activate(output->service);
do_output_signal(output, "activate");
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os_atomic_set_bool(&output->active, true);
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if (reconnecting(output)) {
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signal_reconnect_success(output);
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os_atomic_set_bool(&output->reconnecting, false);
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} else if (delay_active(output)) {
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do_output_signal(output, "starting");
} else {
signal_start(output);
}
return true;
}
static inline void stop_audio_encoders(obs_output_t *output,
encoded_callback_t encoded_callback)
{
size_t num_mixes = num_audio_mixes(output);
for (size_t i = 0; i < num_mixes; i++) {
obs_encoder_stop(output->audio_encoders[i],
encoded_callback, output);
}
}
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static void *end_data_capture_thread(void *data)
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{
bool encoded, has_video, has_audio, has_service;
encoded_callback_t encoded_callback;
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obs_output_t *output = data;
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convert_flags(output, 0, &encoded, &has_video, &has_audio,
&has_service);
if (encoded) {
if (output->active_delay_ns)
encoded_callback = process_delay;
else
encoded_callback = (has_video && has_audio) ?
interleave_packets : default_encoded_callback;
if (has_video)
obs_encoder_stop(output->video_encoder,
encoded_callback, output);
if (has_audio)
stop_audio_encoders(output, encoded_callback);
} else {
if (has_video)
video_output_disconnect(output->video,
default_raw_video_callback, output);
if (has_audio)
audio_output_disconnect(output->audio,
output->mixer_idx,
default_raw_audio_callback, output);
}
if (has_service)
obs_service_deactivate(output->service, false);
if (output->active_delay_ns)
obs_output_cleanup_delay(output);
do_output_signal(output, "deactivate");
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os_atomic_set_bool(&output->active, false);
os_event_signal(output->stopping_event);
os_atomic_set_bool(&output->end_data_capture_thread_active, false);
return NULL;
}
static void obs_output_end_data_capture_internal(obs_output_t *output,
bool signal)
{
int ret;
if (!obs_output_valid(output, "obs_output_end_data_capture"))
return;
if (!active(output) || !data_active(output)) {
if (signal) {
signal_stop(output);
output->stop_code = OBS_OUTPUT_SUCCESS;
}
return;
}
if (delay_active(output)) {
os_atomic_set_bool(&output->delay_capturing, false);
if (!os_atomic_load_long(&output->delay_restart_refs)) {
os_atomic_set_bool(&output->delay_active, false);
} else {
os_event_signal(output->stopping_event);
return;
}
}
os_atomic_set_bool(&output->data_active, false);
if (output->video)
log_frame_info(output);
if (data_capture_ending(output))
pthread_join(output->end_data_capture_thread, NULL);
os_atomic_set_bool(&output->end_data_capture_thread_active, true);
ret = pthread_create(&output->end_data_capture_thread, NULL,
end_data_capture_thread, output);
if (ret != 0) {
blog(LOG_WARNING, "Failed to create end_data_capture_thread "
"for output '%s'!", output->context.name);
end_data_capture_thread(output);
}
if (signal) {
signal_stop(output);
output->stop_code = OBS_OUTPUT_SUCCESS;
}
}
void obs_output_end_data_capture(obs_output_t *output)
{
obs_output_end_data_capture_internal(output, true);
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}
static void *reconnect_thread(void *param)
{
struct obs_output *output = param;
unsigned long ms = output->reconnect_retry_cur_sec * 1000;
output->reconnect_thread_active = true;
if (os_event_timedwait(output->reconnect_stop_event, ms) == ETIMEDOUT)
obs_output_actual_start(output);
if (os_event_try(output->reconnect_stop_event) == EAGAIN)
pthread_detach(output->reconnect_thread);
else
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os_atomic_set_bool(&output->reconnecting, false);
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output->reconnect_thread_active = false;
return NULL;
}
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#define MAX_RETRY_SEC (15 * 60)
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static void output_reconnect(struct obs_output *output)
{
int ret;
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if (!reconnecting(output)) {
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output->reconnect_retry_cur_sec = output->reconnect_retry_sec;
output->reconnect_retries = 0;
}
if (output->reconnect_retries >= output->reconnect_retry_max) {
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output->stop_code = OBS_OUTPUT_DISCONNECTED;
os_atomic_set_bool(&output->reconnecting, false);
if (delay_active(output))
os_atomic_set_bool(&output->delay_active, false);
obs_output_end_data_capture(output);
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return;
}
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if (!reconnecting(output)) {
os_atomic_set_bool(&output->reconnecting, true);
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os_event_reset(output->reconnect_stop_event);
}
if (output->reconnect_retries) {
output->reconnect_retry_cur_sec *= 2;
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if (output->reconnect_retry_cur_sec > MAX_RETRY_SEC)
output->reconnect_retry_cur_sec = MAX_RETRY_SEC;
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}
output->reconnect_retries++;
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output->stop_code = OBS_OUTPUT_DISCONNECTED;
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ret = pthread_create(&output->reconnect_thread, NULL,
&reconnect_thread, output);
if (ret < 0) {
blog(LOG_WARNING, "Failed to create reconnect thread");
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os_atomic_set_bool(&output->reconnecting, false);
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} else {
blog(LOG_INFO, "Output '%s': Reconnecting in %d seconds..",
output->context.name,
output->reconnect_retry_sec);
signal_reconnect(output);
}
}
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static inline bool can_reconnect(const obs_output_t *output, int code)
{
bool reconnect_active = output->reconnect_retry_max != 0;
return (reconnecting(output) && code != OBS_OUTPUT_SUCCESS) ||
(reconnect_active && code == OBS_OUTPUT_DISCONNECTED);
}
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void obs_output_signal_stop(obs_output_t *output, int code)
{
if (!obs_output_valid(output, "obs_output_signal_stop"))
return;
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output->stop_code = code;
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if (can_reconnect(output, code)) {
if (delay_active(output))
os_atomic_inc_long(&output->delay_restart_refs);
obs_output_end_data_capture_internal(output, false);
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output_reconnect(output);
} else {
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if (delay_active(output))
os_atomic_set_bool(&output->delay_active, false);
obs_output_end_data_capture(output);
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}
}
void obs_output_addref(obs_output_t *output)
{
if (!output)
return;
obs_ref_addref(&output->control->ref);
}
void obs_output_release(obs_output_t *output)
{
if (!output)
return;
obs_weak_output_t *control = output->control;
if (obs_ref_release(&control->ref)) {
// The order of operations is important here since
// get_context_by_name in obs.c relies on weak refs
// being alive while the context is listed
obs_output_destroy(output);
obs_weak_output_release(control);
}
}
void obs_weak_output_addref(obs_weak_output_t *weak)
{
if (!weak)
return;
obs_weak_ref_addref(&weak->ref);
}
void obs_weak_output_release(obs_weak_output_t *weak)
{
if (!weak)
return;
if (obs_weak_ref_release(&weak->ref))
bfree(weak);
}
obs_output_t *obs_output_get_ref(obs_output_t *output)
{
if (!output)
return NULL;
return obs_weak_output_get_output(output->control);
}
obs_weak_output_t *obs_output_get_weak_output(obs_output_t *output)
{
if (!output)
return NULL;
obs_weak_output_t *weak = output->control;
obs_weak_output_addref(weak);
return weak;
}
obs_output_t *obs_weak_output_get_output(obs_weak_output_t *weak)
{
if (!weak)
return NULL;
if (obs_weak_ref_get_ref(&weak->ref))
return weak->output;
return NULL;
}
bool obs_weak_output_references_output(obs_weak_output_t *weak,
obs_output_t *output)
{
return weak && output && weak->output == output;
}
void *obs_output_get_type_data(obs_output_t *output)
{
return obs_output_valid(output, "obs_output_get_type_data")
? output->info.type_data : NULL;
}
const char *obs_output_get_id(const obs_output_t *output)
{
return obs_output_valid(output, "obs_output_get_id")
? output->info.id : NULL;
}
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#if BUILD_CAPTIONS
static struct caption_text *caption_text_new(const char *text, size_t bytes,
struct caption_text *tail, struct caption_text **head)
{
struct caption_text *next = bzalloc(sizeof(struct caption_text));
snprintf(&next->text[0], CAPTION_LINE_BYTES + 1, "%.*s", bytes, text);
if (!*head) {
*head = next;
} else {
tail->next = next;
}
return next;
}
void obs_output_output_caption_text1(obs_output_t *output, const char *text)
{
if (!obs_output_valid(output, "obs_output_output_caption_text1"))
return;
if (!active(output))
return;
// split text into 32 charcter strings
int size = (int)strlen(text);
int r;
size_t char_count;
size_t line_length = 0;
size_t trimmed_length = 0;
blog(LOG_DEBUG, "Caption text: %s", text);
pthread_mutex_lock(&output->caption_mutex);
for (r = 0 ; 0 < size && CAPTION_LINE_CHARS > r; ++r) {
line_length = utf8_line_length(text);
trimmed_length = utf8_trimmed_length(text, line_length);
char_count = utf8_char_count(text, trimmed_length);
if (SCREEN_COLS < char_count) {
char_count = utf8_wrap_length(text, CAPTION_LINE_CHARS);
line_length = utf8_string_length(text, char_count + 1);
}
output->caption_tail = caption_text_new(
text,
line_length,
output->caption_tail,
&output->caption_head);
text += line_length;
size -= (int)line_length;
}
pthread_mutex_unlock(&output->caption_mutex);
}
#endif
float obs_output_get_congestion(obs_output_t *output)
{
if (!obs_output_valid(output, "obs_output_get_congestion"))
return 0;
if (output->info.get_congestion) {
float val = output->info.get_congestion(output->context.data);
if (val < 0.0f) val = 0.0f;
else if (val > 1.0f) val = 1.0f;
return val;
}
return 0;
}