/*
* stops the video timed capture
* args:
* data - pointer to user data (device)
*
* asserts:
* none
*
* returns: none
*/
static void stop_video_timer(void *data)
{
/*
* if we are saving video stop it
* this also calls reset_video_timer
*/
if(video_capture_get_save_video())
gui_click_video_capture_button(data);
/*make sure the timer is reset*/
reset_video_timer();
}
/*
* encoder loop (should run in a separate thread)
* args:
* data - pointer to user data
*
* asserts:
* none
*
* returns: pointer to return code
*/
static void *encoder_loop(void *data)
{
v4l2_dev_t *device = (v4l2_dev_t *) data;
my_encoder_status = 1;
if(debug_level > 1)
printf("GUVCVIEW: encoder thread (tid: %u)\n",
(unsigned int) syscall (SYS_gettid));
/*get the audio context*/
audio_context_t *audio_ctx = get_audio_context();
__THREAD_TYPE encoder_audio_thread;
int channels = 0;
int samprate = 0;
if(audio_ctx)
{
channels = audio_ctx->channels;
samprate = audio_ctx->samprate;
}
if(debug_level > 0)
printf("GUVCVIEW: audio [channels= %i; samprate= %i] \n",
channels, samprate);
/*create the encoder context*/
encoder_context_t *encoder_ctx = encoder_get_context(
device->requested_fmt,
get_video_codec_ind(),
get_audio_codec_ind(),
get_video_muxer(),
device->format.fmt.pix.width,
device->format.fmt.pix.height,
device->fps_num,
device->fps_denom,
channels,
samprate);
/*store external SPS and PPS data if needed*/
if(encoder_ctx->video_codec_ind == 0 && /*raw - direct input*/
device->requested_fmt == V4L2_PIX_FMT_H264)
{
/*request a IDR (key) frame*/
v4l2core_h264_request_idr(device);
if(debug_level > 0)
printf("GUVCVIEW: storing external pps and sps data in encoder context\n");
encoder_ctx->h264_pps_size = device->h264_PPS_size;
if(encoder_ctx->h264_pps_size > 0)
{
encoder_ctx->h264_pps = calloc(device->h264_PPS_size, sizeof(uint8_t));
if(encoder_ctx->h264_pps == NULL)
{
fprintf(stderr,"GUVCVIEW: FATAL memory allocation failure (encoder_loop): %s\n", strerror(errno));
exit(-1);
}
memcpy(encoder_ctx->h264_pps, device->h264_PPS, device->h264_PPS_size);
}
encoder_ctx->h264_sps_size = device->h264_SPS_size;
if(encoder_ctx->h264_sps_size > 0)
{
encoder_ctx->h264_sps = calloc(device->h264_SPS_size, sizeof(uint8_t));
if(encoder_ctx->h264_sps == NULL)
{
fprintf(stderr,"GUVCVIEW: FATAL memory allocation failure (encoder_loop): %s\n", strerror(errno));
exit(-1);
}
memcpy(encoder_ctx->h264_sps, device->h264_SPS, device->h264_SPS_size);
}
}
uint32_t current_framerate = 0;
if(device->requested_fmt == V4L2_PIX_FMT_H264)
{
/* store framerate since it may change due to scheduler*/
current_framerate = v4l2core_get_h264_frame_rate_config(device);
}
char *video_filename = NULL;
/*get_video_[name|path] always return a non NULL value*/
char *name = strdup(get_video_name());
char *path = strdup(get_video_path());
if(get_video_sufix_flag())
{
char *new_name = add_file_suffix(path, name);
free(name); /*free old name*/
name = new_name; /*replace with suffixed name*/
}
int pathsize = strlen(path);
if(path[pathsize] != '/')
video_filename = smart_cat(path, '/', name);
else
video_filename = smart_cat(path, 0, name);
snprintf(status_message, 79, _("saving video to %s"), video_filename);
gui_status_message(status_message);
/*muxer initialization*/
encoder_muxer_init(encoder_ctx, video_filename);
/*start video capture*/
video_capture_save_video(1);
int treshold = 102400; /*100 Mbytes*/
int64_t last_check_pts = 0; /*last pts when disk supervisor called*/
/*start audio processing thread*/
if(encoder_ctx->enc_audio_ctx != NULL && audio_ctx->channels > 0)
{
if(debug_level > 1)
printf("GUVCVIEW: starting encoder audio thread\n");
int ret = __THREAD_CREATE(&encoder_audio_thread, audio_processing_loop, (void *) encoder_ctx);
if(ret)
fprintf(stderr, "GUVCVIEW: encoder audio thread creation failed (%i)\n", ret);
else if(debug_level > 2)
printf("GUVCVIEW: created audio encoder thread with tid: %u\n",
(unsigned int) encoder_audio_thread);
}
while(video_capture_get_save_video())
{
/*process the video buffer*/
encoder_process_next_video_buffer(encoder_ctx);
/*disk supervisor*/
if(encoder_ctx->enc_video_ctx->pts - last_check_pts > 2 * NSEC_PER_SEC)
{
last_check_pts = encoder_ctx->enc_video_ctx->pts;
if(!encoder_disk_supervisor(treshold, path))
{
/*stop capture*/
gui_set_video_capture_button_status(0);
}
}
}
/*flush the video buffer*/
encoder_flush_video_buffer(encoder_ctx);
/*make sure the audio processing thread has stopped*/
if(encoder_ctx->enc_audio_ctx != NULL && audio_ctx->channels > 0)
{
if(debug_level > 1)
printf("GUVCVIEW: join encoder audio thread\n");
__THREAD_JOIN(encoder_audio_thread);
}
/*close the muxer*/
encoder_muxer_close(encoder_ctx);
/*close the encoder context (clean up)*/
encoder_close(encoder_ctx);
if(device->requested_fmt == V4L2_PIX_FMT_H264)
{
/* restore framerate */
v4l2core_set_h264_frame_rate_config(device, current_framerate);
}
/*clean string*/
free(video_filename);
free(path);
free(name);
my_encoder_status = 0;
return ((void *) 0);
}
/*
* audio processing loop (should run in a separate thread)
* args:
* data - pointer to user data
*
* asserts:
* none
*
* returns: pointer to return code
*/
static void *audio_processing_loop(void *data)
{
encoder_context_t *encoder_ctx = (encoder_context_t *) data;
if(debug_level > 1)
printf("GUVCVIEW: audio thread (tid: %u)\n",
(unsigned int) syscall (SYS_gettid));
audio_context_t *audio_ctx = get_audio_context();
if(!audio_ctx)
{
fprintf(stderr, "GUVCVIEW: no audio context: skiping audio processing\n");
return ((void *) -1);
}
audio_buff_t *audio_buff = NULL;
/*start audio capture*/
int frame_size = encoder_get_audio_frame_size(encoder_ctx);
audio_ctx->capture_buff_size = frame_size * audio_ctx->channels;
audio_start(audio_ctx);
/*
* alloc the buffer after audio_start
* otherwise capture_buff_size may not
* be correct
* allocated data is big enough for float samples (32 bit)
* although it may contain int16 samples (16 bit)
*/
audio_buff = audio_get_buffer(audio_ctx);
int sample_type = encoder_get_audio_sample_fmt(encoder_ctx);
/*enable vu meter OSD display*/
if(audio_ctx->channels > 1)
render_set_osd_mask(REND_OSD_VUMETER_STEREO);
else
render_set_osd_mask(REND_OSD_VUMETER_MONO);
while(video_capture_get_save_video())
{
int ret = audio_get_next_buffer(audio_ctx, audio_buff,
sample_type, my_audio_mask);
if(ret == 0)
{
encoder_ctx->enc_audio_ctx->pts = audio_buff->timestamp;
/*OSD vu meter level*/
render_set_vu_level(audio_buff->level_meter);
encoder_process_audio_buffer(encoder_ctx, audio_buff->data);
}
}
/*flush any delayed audio frames*/
encoder_flush_audio_buffer(encoder_ctx);
/*reset vu meter*/
audio_buff->level_meter[0] = 0;
audio_buff->level_meter[1] = 0;
render_set_vu_level(audio_buff->level_meter);
/*disable OSD*/
render_set_osd_mask(REND_OSD_NONE);
audio_stop(audio_ctx);
audio_delete_buffer(audio_buff);
return ((void *) 0);
}
/*
* encoder loop (should run in a separate thread)
* args:
* data - pointer to user data
*
* asserts:
* none
*
* returns: pointer to return code
*/
static void *encoder_loop(void *data)
{
my_encoder_status = 1;
if(debug_level > 1)
printf("GUVCVIEW: encoder thread (tid: %u)\n",
(unsigned int) syscall (SYS_gettid));
/*get the audio context*/
audio_context_t *audio_ctx = get_audio_context();
__THREAD_TYPE encoder_audio_thread;
int channels = 0;
int samprate = 0;
if(audio_ctx)
{
channels = audio_ctx->channels;
samprate = audio_ctx->samprate;
}
if(debug_level > 0)
printf("GUVCVIEW: audio [channels= %i; samprate= %i] \n",
channels, samprate);
/*create the encoder context*/
encoder_context_t *encoder_ctx = encoder_get_context(
v4l2core_get_requested_frame_format(),
get_video_codec_ind(),
get_audio_codec_ind(),
get_video_muxer(),
v4l2core_get_frame_width(),
v4l2core_get_frame_height(),
v4l2core_get_fps_num(),
v4l2core_get_fps_denom(),
channels,
samprate);
/*store external SPS and PPS data if needed*/
if(encoder_ctx->video_codec_ind == 0 && /*raw - direct input*/
v4l2core_get_requested_frame_format() == V4L2_PIX_FMT_H264)
{
/*request a IDR (key) frame*/
v4l2core_h264_request_idr();
if(debug_level > 0)
printf("GUVCVIEW: storing external pps and sps data in encoder context\n");
encoder_ctx->h264_pps_size = v4l2core_get_h264_pps_size();
if(encoder_ctx->h264_pps_size > 0)
{
encoder_ctx->h264_pps = calloc(encoder_ctx->h264_pps_size, sizeof(uint8_t));
if(encoder_ctx->h264_pps == NULL)
{
fprintf(stderr,"GUVCVIEW: FATAL memory allocation failure (encoder_loop): %s\n", strerror(errno));
exit(-1);
}
memcpy(encoder_ctx->h264_pps, v4l2core_get_h264_pps(), encoder_ctx->h264_pps_size);
}
encoder_ctx->h264_sps_size = v4l2core_get_h264_sps_size();
if(encoder_ctx->h264_sps_size > 0)
{
encoder_ctx->h264_sps = calloc(encoder_ctx->h264_sps_size, sizeof(uint8_t));
if(encoder_ctx->h264_sps == NULL)
{
fprintf(stderr,"GUVCVIEW: FATAL memory allocation failure (encoder_loop): %s\n", strerror(errno));
exit(-1);
}
memcpy(encoder_ctx->h264_sps, v4l2core_get_h264_sps(), encoder_ctx->h264_sps_size);
}
}
uint32_t current_framerate = 0;
if(v4l2core_get_requested_frame_format() == V4L2_PIX_FMT_H264)
{
/* store framerate since it may change due to scheduler*/
current_framerate = v4l2core_get_h264_frame_rate_config();
}
char *video_filename = NULL;
/*get_video_[name|path] always return a non NULL value*/
char *name = strdup(get_video_name());
char *path = strdup(get_video_path());
if(get_video_sufix_flag())
{
char *new_name = add_file_suffix(path, name);
free(name); /*free old name*/
name = new_name; /*replace with suffixed name*/
}
int pathsize = strlen(path);
if(path[pathsize] != '/')
video_filename = smart_cat(path, '/', name);
else
video_filename = smart_cat(path, 0, name);
snprintf(status_message, 79, _("saving video to %s"), video_filename);
gui_status_message(status_message);
/*muxer initialization*/
encoder_muxer_init(encoder_ctx, video_filename);
/*start video capture*/
video_capture_save_video(1);
int treshold = 102400; /*100 Mbytes*/
int64_t last_check_pts = 0; /*last pts when disk supervisor called*/
/*start audio processing thread*/
if(encoder_ctx->enc_audio_ctx != NULL && audio_ctx->channels > 0)
{
if(debug_level > 1)
printf("GUVCVIEW: starting encoder audio thread\n");
int ret = __THREAD_CREATE(&encoder_audio_thread, audio_processing_loop, (void *) encoder_ctx);
if(ret)
fprintf(stderr, "GUVCVIEW: encoder audio thread creation failed (%i)\n", ret);
else if(debug_level > 2)
printf("GUVCVIEW: created audio encoder thread with tid: %u\n",
(unsigned int) encoder_audio_thread);
}
while(video_capture_get_save_video())
{
/*process the video buffer*/
if(encoder_process_next_video_buffer(encoder_ctx) > 0)
{
/*
* no buffers to process
* sleep a couple of milisec
*/
struct timespec req = {
.tv_sec = 0,
.tv_nsec = 1000000};/*nanosec*/
nanosleep(&req, NULL);
}
/*disk supervisor*/
if(encoder_ctx->enc_video_ctx->pts - last_check_pts > 2 * NSEC_PER_SEC)
{
last_check_pts = encoder_ctx->enc_video_ctx->pts;
if(!encoder_disk_supervisor(treshold, path))
{
/*stop capture*/
gui_set_video_capture_button_status(0);
}
}
}
/*flush the video buffer*/
encoder_flush_video_buffer(encoder_ctx);
/*make sure the audio processing thread has stopped*/
if(encoder_ctx->enc_audio_ctx != NULL && audio_ctx->channels > 0)
{
if(debug_level > 1)
printf("GUVCVIEW: join encoder audio thread\n");
__THREAD_JOIN(encoder_audio_thread);
}
/*close the muxer*/
encoder_muxer_close(encoder_ctx);
/*close the encoder context (clean up)*/
encoder_close(encoder_ctx);
if(v4l2core_get_requested_frame_format() == V4L2_PIX_FMT_H264)
{
/* restore framerate */
v4l2core_set_h264_frame_rate_config(current_framerate);
}
/*clean string*/
free(video_filename);
free(path);
free(name);
my_encoder_status = 0;
return ((void *) 0);
}
/*
* capture loop (should run in a separate thread)
* args:
* data - pointer to user data (options data)
*
* asserts:
* none
*
* returns: pointer to return code
*/
void *capture_loop(void *data)
{
capture_loop_data_t *cl_data = (capture_loop_data_t *) data;
options_t *my_options = (options_t *) cl_data->options;
//config_t *my_config = (config_t *) cl_data->config;
uint64_t my_last_photo_time = 0; /*timer count*/
int my_photo_npics = 0;/*no npics*/
/*reset quit flag*/
quit = 0;
if(debug_level > 1)
printf("GUVCVIEW: capture thread (tid: %u)\n",
(unsigned int) syscall (SYS_gettid));
int ret = 0;
int render_flags = 0;
if (strcasecmp(my_options->render_flag, "full") == 0)
render_flags = 1;
else if (strcasecmp(my_options->render_flag, "max") == 0)
render_flags = 2;
render_set_verbosity(debug_level);
if(render_init(render, v4l2core_get_frame_width(), v4l2core_get_frame_height(), render_flags) < 0)
render = RENDER_NONE;
else
{
render_set_event_callback(EV_QUIT, &quit_callback, NULL);
render_set_event_callback(EV_KEY_V, &key_V_callback, NULL);
render_set_event_callback(EV_KEY_I, &key_I_callback, NULL);
render_set_event_callback(EV_KEY_UP, &key_UP_callback, NULL);
render_set_event_callback(EV_KEY_DOWN, &key_DOWN_callback, NULL);
render_set_event_callback(EV_KEY_LEFT, &key_LEFT_callback, NULL);
render_set_event_callback(EV_KEY_RIGHT, &key_RIGHT_callback, NULL);
}
/*add a video capture timer*/
if(my_options->video_timer > 0)
{
my_video_timer = NSEC_PER_SEC * my_options->video_timer;
my_video_begin_time = v4l2core_time_get_timestamp(); /*timer count*/
/*if are not saving video start it*/
if(!get_encoder_status())
start_encoder_thread();
}
/*add a photo capture timer*/
if(my_options->photo_timer > 0)
{
my_photo_timer = NSEC_PER_SEC * my_options->photo_timer;
my_last_photo_time = v4l2core_time_get_timestamp(); /*timer count*/
}
if(my_options->photo_npics > 0)
my_photo_npics = my_options->photo_npics;
v4l2core_start_stream();
v4l2_frame_buff_t *frame = NULL; //pointer to frame buffer
while(!quit)
{
if(restart)
{
restart = 0; /*reset*/
v4l2core_stop_stream();
/*close render*/
render_close();
v4l2core_clean_buffers();
/*try new format (values prepared by the request callback)*/
ret = v4l2core_update_current_format();
/*try to set the video stream format on the device*/
if(ret != E_OK)
{
fprintf(stderr, "GUCVIEW: could not set the defined stream format\n");
fprintf(stderr, "GUCVIEW: trying first listed stream format\n");
v4l2core_prepare_valid_format();
v4l2core_prepare_valid_resolution();
ret = v4l2core_update_current_format();
if(ret != E_OK)
{
fprintf(stderr, "GUCVIEW: also could not set the first listed stream format\n");
gui_error("Guvcview error", "could not start a video stream in the device", 1);
return ((void *) -1);
}
}
/*restart the render with new format*/
if(render_init(render, v4l2core_get_frame_width(), v4l2core_get_frame_height(), render_flags) < 0)
render = RENDER_NONE;
else
{
render_set_event_callback(EV_QUIT, &quit_callback, NULL);
render_set_event_callback(EV_KEY_V, &key_V_callback, NULL);
render_set_event_callback(EV_KEY_I, &key_I_callback, NULL);
render_set_event_callback(EV_KEY_UP, &key_UP_callback, NULL);
render_set_event_callback(EV_KEY_DOWN, &key_DOWN_callback, NULL);
render_set_event_callback(EV_KEY_LEFT, &key_LEFT_callback, NULL);
render_set_event_callback(EV_KEY_RIGHT, &key_RIGHT_callback, NULL);
}
if(debug_level > 0)
printf("GUVCVIEW: reset to pixelformat=%x width=%i and height=%i\n", v4l2core_get_requested_frame_format(), v4l2core_get_frame_width(), v4l2core_get_frame_height());
v4l2core_start_stream();
}
frame = v4l2core_get_decoded_frame();
if( frame != NULL)
{
/*run software autofocus (must be called after frame was grabbed and decoded)*/
if(do_soft_autofocus || do_soft_focus)
do_soft_focus = v4l2core_soft_autofocus_run(frame);
/*render the decoded frame*/
snprintf(render_caption, 29, "Guvcview (%2.2f fps)", v4l2core_get_realfps());
render_set_caption(render_caption);
render_frame(frame->yuv_frame, my_render_mask);
if(check_photo_timer())
{
if((frame->timestamp - my_last_photo_time) > my_photo_timer)
{
save_image = 1;
my_last_photo_time = frame->timestamp;
if(my_options->photo_npics > 0)
{
if(my_photo_npics > 0)
my_photo_npics--;
else
stop_photo_timer(); /*close timer*/
}
}
}
if(check_video_timer())
{
if((frame->timestamp - my_video_begin_time) > my_video_timer)
stop_video_timer();
}
if(save_image)
{
char *img_filename = NULL;
/*get_photo_[name|path] always return a non NULL value*/
char *name = strdup(get_photo_name());
char *path = strdup(get_photo_path());
if(get_photo_sufix_flag())
{
char *new_name = add_file_suffix(path, name);
free(name); /*free old name*/
name = new_name; /*replace with suffixed name*/
}
int pathsize = strlen(path);
if(path[pathsize] != '/')
img_filename = smart_cat(path, '/', name);
else
img_filename = smart_cat(path, 0, name);
//if(debug_level > 1)
// printf("GUVCVIEW: saving image to %s\n", img_filename);
snprintf(status_message, 79, _("saving image to %s"), img_filename);
gui_status_message(status_message);
v4l2core_save_image(frame, img_filename, get_photo_format());
free(path);
free(name);
free(img_filename);
save_image = 0; /*reset*/
}
if(video_capture_get_save_video())
{
#ifdef USE_PLANAR_YUV
int size = (v4l2core_get_frame_width() * v4l2core_get_frame_height() * 3) / 2;
#else
int size = v4l2core_get_frame_width() * v4l2core_get_frame_height() * 2;
#endif
uint8_t *input_frame = frame->yuv_frame;
/*
* TODO: check codec_id, format and frame flags
* (we may want to store a compressed format
*/
if(get_video_codec_ind() == 0) //raw frame
{
switch(v4l2core_get_requested_frame_format())
{
case V4L2_PIX_FMT_H264:
input_frame = frame->h264_frame;
size = (int) frame->h264_frame_size;
break;
default:
input_frame = frame->raw_frame;
size = (int) frame->raw_frame_size;
break;
}
}
encoder_add_video_frame(input_frame, size, frame->timestamp, frame->isKeyframe);
/*
* exponencial scheduler
* with 50% threshold (nanosec)
* and max value of 250 ms (4 fps)
*/
int time_sched = encoder_buff_scheduler(ENCODER_SCHED_EXP, 0.5, 250);
if(time_sched > 0)
{
switch(v4l2core_get_requested_frame_format())
{
case V4L2_PIX_FMT_H264:
{
uint32_t framerate = time_sched; /*nanosec*/
v4l2core_set_h264_frame_rate_config(framerate);
break;
}
default:
{
struct timespec req = {
.tv_sec = 0,
.tv_nsec = time_sched};/*nanosec*/
nanosleep(&req, NULL);
break;
}
}
}
}
/*we are done with the frame buffer release it*/
v4l2core_release_frame(frame);
}
}
v4l2core_stop_stream();
/*if we are still saving video then stop it*/
if(video_capture_get_save_video())
stop_encoder_thread();
render_close();
return ((void *) 0);
}
/*
* start the encoder thread
* args:
* data - pointer to user data
*
* asserts:
* none
*
* returns: error code
*/
int start_encoder_thread(void *data)
{
int ret = __THREAD_CREATE(&encoder_thread, encoder_loop, data);
if(ret)
fprintf(stderr, "GUVCVIEW: encoder thread creation failed (%i)\n", ret);
else if(debug_level > 2)
printf("GUVCVIEW: created encoder thread with tid: %u\n",
(unsigned int) encoder_thread);
return ret;
}