yolobs-studio/libobs/media-io/video-io.c

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/******************************************************************************
Copyright (C) 2013 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 <assert.h>
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#include <inttypes.h>
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#include "../util/bmem.h"
#include "../util/platform.h"
#include "../util/profiler.h"
#include "../util/threading.h"
#include "../util/darray.h"
#include "format-conversion.h"
#include "video-io.h"
#include "video-frame.h"
#include "video-scaler.h"
extern profiler_name_store_t *obs_get_profiler_name_store(void);
#define MAX_CONVERT_BUFFERS 3
#define MAX_CACHE_SIZE 16
struct cached_frame_info {
struct video_data frame;
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int skipped;
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int count;
};
struct video_input {
struct video_scale_info conversion;
video_scaler_t *scaler;
struct video_frame frame[MAX_CONVERT_BUFFERS];
int cur_frame;
void (*callback)(void *param, struct video_data *frame);
void *param;
};
static inline void video_input_free(struct video_input *input)
{
for (size_t i = 0; i < MAX_CONVERT_BUFFERS; i++)
video_frame_free(&input->frame[i]);
video_scaler_destroy(input->scaler);
}
struct video_output {
struct video_output_info info;
pthread_t thread;
pthread_mutex_t data_mutex;
bool stop;
os_sem_t *update_semaphore;
uint64_t frame_time;
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volatile long skipped_frames;
volatile long total_frames;
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bool initialized;
pthread_mutex_t input_mutex;
DARRAY(struct video_input) inputs;
size_t available_frames;
size_t first_added;
size_t last_added;
struct cached_frame_info cache[MAX_CACHE_SIZE];
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volatile bool raw_active;
volatile long gpu_refs;
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};
/* ------------------------------------------------------------------------- */
static inline bool scale_video_output(struct video_input *input,
struct video_data *data)
{
bool success = true;
if (input->scaler) {
struct video_frame *frame;
if (++input->cur_frame == MAX_CONVERT_BUFFERS)
input->cur_frame = 0;
frame = &input->frame[input->cur_frame];
success = video_scaler_scale(input->scaler,
frame->data, frame->linesize,
(const uint8_t * const*)data->data,
data->linesize);
if (success) {
for (size_t i = 0; i < MAX_AV_PLANES; i++) {
data->data[i] = frame->data[i];
data->linesize[i] = frame->linesize[i];
}
} else {
blog(LOG_WARNING, "video-io: Could not scale frame!");
}
}
return success;
}
static inline bool video_output_cur_frame(struct video_output *video)
{
struct cached_frame_info *frame_info;
bool complete;
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bool skipped;
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/* -------------------------------- */
pthread_mutex_lock(&video->data_mutex);
frame_info = &video->cache[video->first_added];
pthread_mutex_unlock(&video->data_mutex);
/* -------------------------------- */
pthread_mutex_lock(&video->input_mutex);
for (size_t i = 0; i < video->inputs.num; i++) {
struct video_input *input = video->inputs.array+i;
struct video_data frame = frame_info->frame;
if (scale_video_output(input, &frame))
input->callback(input->param, &frame);
}
pthread_mutex_unlock(&video->input_mutex);
/* -------------------------------- */
pthread_mutex_lock(&video->data_mutex);
frame_info->frame.timestamp += video->frame_time;
complete = --frame_info->count == 0;
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skipped = frame_info->skipped > 0;
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if (complete) {
if (++video->first_added == video->info.cache_size)
video->first_added = 0;
if (++video->available_frames == video->info.cache_size)
video->last_added = video->first_added;
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} else if (skipped) {
--frame_info->skipped;
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os_atomic_inc_long(&video->skipped_frames);
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}
pthread_mutex_unlock(&video->data_mutex);
/* -------------------------------- */
return complete;
}
static void *video_thread(void *param)
{
struct video_output *video = param;
os_set_thread_name("video-io: video thread");
const char *video_thread_name =
profile_store_name(obs_get_profiler_name_store(),
"video_thread(%s)", video->info.name);
while (os_sem_wait(video->update_semaphore) == 0) {
if (video->stop)
break;
profile_start(video_thread_name);
while (!video->stop && !video_output_cur_frame(video)) {
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os_atomic_inc_long(&video->total_frames);
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}
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os_atomic_inc_long(&video->total_frames);
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profile_end(video_thread_name);
profile_reenable_thread();
}
return NULL;
}
/* ------------------------------------------------------------------------- */
static inline bool valid_video_params(const struct video_output_info *info)
{
return info->height != 0 && info->width != 0 && info->fps_den != 0 &&
info->fps_num != 0;
}
static inline void init_cache(struct video_output *video)
{
if (video->info.cache_size > MAX_CACHE_SIZE)
video->info.cache_size = MAX_CACHE_SIZE;
for (size_t i = 0; i < video->info.cache_size; i++) {
struct video_frame *frame;
frame = (struct video_frame*)&video->cache[i];
video_frame_init(frame, video->info.format,
video->info.width, video->info.height);
}
video->available_frames = video->info.cache_size;
}
int video_output_open(video_t **video, struct video_output_info *info)
{
struct video_output *out;
pthread_mutexattr_t attr;
if (!valid_video_params(info))
return VIDEO_OUTPUT_INVALIDPARAM;
out = bzalloc(sizeof(struct video_output));
if (!out)
goto fail;
memcpy(&out->info, info, sizeof(struct video_output_info));
out->frame_time = (uint64_t)(1000000000.0 * (double)info->fps_den /
(double)info->fps_num);
out->initialized = false;
if (pthread_mutexattr_init(&attr) != 0)
goto fail;
if (pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_RECURSIVE) != 0)
goto fail;
if (pthread_mutex_init(&out->data_mutex, &attr) != 0)
goto fail;
if (pthread_mutex_init(&out->input_mutex, &attr) != 0)
goto fail;
if (os_sem_init(&out->update_semaphore, 0) != 0)
goto fail;
if (pthread_create(&out->thread, NULL, video_thread, out) != 0)
goto fail;
init_cache(out);
out->initialized = true;
*video = out;
return VIDEO_OUTPUT_SUCCESS;
fail:
video_output_close(out);
return VIDEO_OUTPUT_FAIL;
}
void video_output_close(video_t *video)
{
if (!video)
return;
video_output_stop(video);
for (size_t i = 0; i < video->inputs.num; i++)
video_input_free(&video->inputs.array[i]);
da_free(video->inputs);
for (size_t i = 0; i < video->info.cache_size; i++)
video_frame_free((struct video_frame*)&video->cache[i]);
os_sem_destroy(video->update_semaphore);
pthread_mutex_destroy(&video->data_mutex);
pthread_mutex_destroy(&video->input_mutex);
bfree(video);
}
static size_t video_get_input_idx(const video_t *video,
void (*callback)(void *param, struct video_data *frame),
void *param)
{
for (size_t i = 0; i < video->inputs.num; i++) {
struct video_input *input = video->inputs.array+i;
if (input->callback == callback && input->param == param)
return i;
}
return DARRAY_INVALID;
}
static inline bool video_input_init(struct video_input *input,
struct video_output *video)
{
if (input->conversion.width != video->info.width ||
input->conversion.height != video->info.height ||
input->conversion.format != video->info.format) {
struct video_scale_info from = {
.format = video->info.format,
.width = video->info.width,
.height = video->info.height,
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.range = video->info.range,
.colorspace = video->info.colorspace
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};
int ret = video_scaler_create(&input->scaler,
&input->conversion, &from,
VIDEO_SCALE_FAST_BILINEAR);
if (ret != VIDEO_SCALER_SUCCESS) {
if (ret == VIDEO_SCALER_BAD_CONVERSION)
blog(LOG_ERROR, "video_input_init: Bad "
"scale conversion type");
else
blog(LOG_ERROR, "video_input_init: Failed to "
"create scaler");
return false;
}
for (size_t i = 0; i < MAX_CONVERT_BUFFERS; i++)
video_frame_init(&input->frame[i],
input->conversion.format,
input->conversion.width,
input->conversion.height);
}
return true;
}
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static inline void reset_frames(video_t *video)
{
os_atomic_set_long(&video->skipped_frames, 0);
os_atomic_set_long(&video->total_frames, 0);
}
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bool video_output_connect(video_t *video,
const struct video_scale_info *conversion,
void (*callback)(void *param, struct video_data *frame),
void *param)
{
bool success = false;
if (!video || !callback)
return false;
pthread_mutex_lock(&video->input_mutex);
if (video_get_input_idx(video, callback, param) == DARRAY_INVALID) {
struct video_input input;
memset(&input, 0, sizeof(input));
input.callback = callback;
input.param = param;
if (conversion) {
input.conversion = *conversion;
} else {
input.conversion.format = video->info.format;
input.conversion.width = video->info.width;
input.conversion.height = video->info.height;
}
if (input.conversion.width == 0)
input.conversion.width = video->info.width;
if (input.conversion.height == 0)
input.conversion.height = video->info.height;
success = video_input_init(&input, video);
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if (success) {
if (video->inputs.num == 0) {
if (!os_atomic_load_long(&video->gpu_refs)) {
reset_frames(video);
}
os_atomic_set_bool(&video->raw_active, true);
}
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da_push_back(video->inputs, &input);
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}
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}
pthread_mutex_unlock(&video->input_mutex);
return success;
}
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static void log_skipped(video_t *video)
{
long skipped = os_atomic_load_long(&video->skipped_frames);
double percentage_skipped =
(double)skipped /
(double)os_atomic_load_long(&video->total_frames) *
100.0;
if (skipped)
blog(LOG_INFO, "Video stopped, number of "
"skipped frames due "
"to encoding lag: "
"%ld/%ld (%0.1f%%)",
video->skipped_frames,
video->total_frames,
percentage_skipped);
}
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void video_output_disconnect(video_t *video,
void (*callback)(void *param, struct video_data *frame),
void *param)
{
if (!video || !callback)
return;
pthread_mutex_lock(&video->input_mutex);
size_t idx = video_get_input_idx(video, callback, param);
if (idx != DARRAY_INVALID) {
video_input_free(video->inputs.array+idx);
da_erase(video->inputs, idx);
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if (video->inputs.num == 0) {
os_atomic_set_bool(&video->raw_active, false);
if (!os_atomic_load_long(&video->gpu_refs)) {
log_skipped(video);
}
}
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}
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pthread_mutex_unlock(&video->input_mutex);
}
bool video_output_active(const video_t *video)
{
if (!video) return false;
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return os_atomic_load_bool(&video->raw_active);
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}
const struct video_output_info *video_output_get_info(const video_t *video)
{
return video ? &video->info : NULL;
}
bool video_output_lock_frame(video_t *video, struct video_frame *frame,
int count, uint64_t timestamp)
{
struct cached_frame_info *cfi;
bool locked;
if (!video) return false;
pthread_mutex_lock(&video->data_mutex);
if (video->available_frames == 0) {
video->cache[video->last_added].count += count;
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video->cache[video->last_added].skipped += count;
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locked = false;
} else {
if (video->available_frames != video->info.cache_size) {
if (++video->last_added == video->info.cache_size)
video->last_added = 0;
}
cfi = &video->cache[video->last_added];
cfi->frame.timestamp = timestamp;
cfi->count = count;
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cfi->skipped = 0;
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memcpy(frame, &cfi->frame, sizeof(*frame));
locked = true;
}
pthread_mutex_unlock(&video->data_mutex);
return locked;
}
void video_output_unlock_frame(video_t *video)
{
if (!video) return;
pthread_mutex_lock(&video->data_mutex);
video->available_frames--;
os_sem_post(video->update_semaphore);
pthread_mutex_unlock(&video->data_mutex);
}
uint64_t video_output_get_frame_time(const video_t *video)
{
return video ? video->frame_time : 0;
}
void video_output_stop(video_t *video)
{
void *thread_ret;
if (!video)
return;
if (video->initialized) {
video->initialized = false;
video->stop = true;
os_sem_post(video->update_semaphore);
pthread_join(video->thread, &thread_ret);
}
}
bool video_output_stopped(video_t *video)
{
if (!video)
return true;
return video->stop;
}
enum video_format video_output_get_format(const video_t *video)
{
return video ? video->info.format : VIDEO_FORMAT_NONE;
}
uint32_t video_output_get_width(const video_t *video)
{
return video ? video->info.width : 0;
}
uint32_t video_output_get_height(const video_t *video)
{
return video ? video->info.height : 0;
}
double video_output_get_frame_rate(const video_t *video)
{
if (!video)
return 0.0;
return (double)video->info.fps_num / (double)video->info.fps_den;
}
uint32_t video_output_get_skipped_frames(const video_t *video)
{
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return (uint32_t)os_atomic_load_long(&video->skipped_frames);
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}
uint32_t video_output_get_total_frames(const video_t *video)
{
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return (uint32_t)os_atomic_load_long(&video->total_frames);
}
/* Note: These four functions below are a very slight bit of a hack. If the
* texture encoder thread is active while the raw encoder thread is active, the
* total frame count will just be doubled while they're both active. Which is
* fine. What's more important is having a relatively accurate skipped frame
* count. */
void video_output_inc_texture_encoders(video_t *video)
{
if (os_atomic_inc_long(&video->gpu_refs) == 1 &&
!os_atomic_load_bool(&video->raw_active)) {
reset_frames(video);
}
}
void video_output_dec_texture_encoders(video_t *video)
{
if (os_atomic_dec_long(&video->gpu_refs) == 0 &&
!os_atomic_load_bool(&video->raw_active)) {
log_skipped(video);
}
}
void video_output_inc_texture_frames(video_t *video)
{
os_atomic_inc_long(&video->total_frames);
}
void video_output_inc_texture_skipped_frames(video_t *video)
{
os_atomic_inc_long(&video->skipped_frames);
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}