/****************************************************************************** Copyright (C) 2013-2014 by Hugh Bailey 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 . ******************************************************************************/ #include #include "util/platform.h" #include "obs.h" #include "obs-internal.h" static inline void signal_stop(struct obs_output *output, int code); 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) { if (!obs_context_data_init(&output->context, settings, name, hotkey_data)) 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); if (pthread_mutex_init(&output->interleaved_mutex, NULL) != 0) goto fail; if (pthread_mutex_init(&output->delay_mutex, NULL) != 0) goto fail; if (!init_output_handlers(output, name, settings, hotkey_data)) goto fail; 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; if (info) output->context.data = info->create(output->context.settings, output); if (!output->context.data) blog(LOG_ERROR, "Failed to create output '%s'!", name); 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); blog(LOG_INFO, "output '%s' (%s) created", name, id); 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++) obs_free_encoder_packet(output->interleaved_packets.array+i); da_free(output->interleaved_packets); } void obs_output_destroy(obs_output_t *output) { if (output) { obs_context_data_remove(&output->context); blog(LOG_INFO, "output '%s' destroyed", output->context.name); if (output->valid && output->active) obs_output_actual_stop(output, true); if (output->service) output->service->output = NULL; free_packets(output); if (output->context.data) output->info.destroy(output->context.data); 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); } } 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; output->stopped = false; 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); } if (output->delay_restart_refs) os_atomic_dec_long(&output->delay_restart_refs); 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; } } static void log_frame_info(struct obs_output *output) { 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; int dropped = obs_output_get_frames_dropped(output); double percentage_skipped = (double)skipped / (double)total * 100.0; blog(LOG_INFO, "Output '%s': stopping", output->context.name); blog(LOG_INFO, "Output '%s': Total frames: %"PRIu32, output->context.name, total); if (total) blog(LOG_INFO, "Output '%s': Number of skipped frames: " "%"PRIu32" (%g%%)", output->context.name, skipped, percentage_skipped); if (dropped) { double percentage_dropped; percentage_dropped = (double)dropped / (double)total * 100.0; blog(LOG_INFO, "Output '%s': Number of dropped frames: " "%d (%g%%)", output->context.name, dropped, percentage_dropped); } } void obs_output_actual_stop(obs_output_t *output, bool force) { output->stopped = true; os_event_signal(output->reconnect_stop_event); if (output->reconnect_thread_active) pthread_join(output->reconnect_thread, NULL); if (output->context.data) output->info.stop(output->context.data); if (output->video) log_frame_info(output); if (output->delay_active && (force || !output->delay_restart_refs)) { output->delay_active = false; obs_output_end_data_capture(output); } if (force || !output->delay_active) signal_stop(output, OBS_OUTPUT_SUCCESS); } void obs_output_stop(obs_output_t *output) { bool encoded; if (!obs_output_valid(output, "obs_output_stop")) return; if (!output->context.data) return; encoded = (output->info.flags & OBS_OUTPUT_ENCODED) != 0; if (encoded && output->active_delay_ns) { obs_output_delay_stop(output); } else { obs_output_actual_stop(output, false); do_output_signal(output, "stopping"); } } void obs_output_force_stop(obs_output_t *output) { obs_output_actual_stop(output, true); } bool obs_output_active(const obs_output_t *output) { return (output != NULL) ? (output->active || output->reconnecting) : false; } 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_canpause(const obs_output_t *output) { return obs_output_valid(output, "obs_output_canpause") ? (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; if (!output->active) 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; if (output->active || !service || service->active) 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; if (output->delay_active && !output->delay_capturing) 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; if (output->active) { 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; } 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; if (out.type == OBS_ENCODER_VIDEO) output->total_frames++; da_erase(output->interleaved_packets, 0); if (!output->stopped) output->info.encoded_packet(output->context.data, &out); obs_free_encoder_packet(&out); } 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 bool can_prune_interleaved_packet(struct obs_output *output, size_t idx) { struct encoder_packet *packet; struct encoder_packet *next; if (idx >= (output->interleaved_packets.num - 1)) return false; packet = &output->interleaved_packets.array[idx]; /* audio packets will almost always come before video packets, * so it should only ever be necessary to prune audio packets */ if (packet->type != OBS_ENCODER_AUDIO) return false; next = &output->interleaved_packets.array[idx + 1]; if (next->type == OBS_ENCODER_VIDEO && next->dts_usec == packet->dts_usec) return false; return true; } static void prune_interleaved_packets(struct obs_output *output) { size_t start_idx = 0; while (can_prune_interleaved_packet(output, start_idx)) start_idx++; if (start_idx) { for (size_t i = 0; i < start_idx; i++) { struct encoder_packet *packet = &output->interleaved_packets.array[i]; obs_free_encoder_packet(packet); } da_erase_range(output->interleaved_packets, 0, start_idx); } } static struct encoder_packet *find_first_packet_type(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 packet; } } return NULL; } static bool initialize_interleaved_packets(struct obs_output *output) { struct encoder_packet *video; struct encoder_packet *audio[MAX_AUDIO_MIXES]; size_t audio_mixes = num_audio_mixes(output); video = find_first_packet_type(output, OBS_ENCODER_VIDEO, 0); if (!video) 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; } } if (!video) { return false; } /* get new offsets */ output->video_offset = video->dts; for (size_t i = 0; i < audio_mixes; i++) output->audio_offsets[i] = audio[i]->dts; /* 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 interleave_packets(void *data, struct encoder_packet *packet) { struct obs_output *output = data; struct encoder_packet out; bool was_started; if (packet->type == OBS_ENCODER_AUDIO) packet->track_idx = get_track_index(output, packet); pthread_mutex_lock(&output->interleaved_mutex); was_started = output->received_audio && output->received_video; if (output->active_delay_ns) out = *packet; else obs_duplicate_encoder_packet(&out, packet); 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) { 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; if (packet->type == OBS_ENCODER_AUDIO) packet->track_idx = get_track_index(output, packet); if (!output->stopped) output->info.encoded_packet(output->context.data, packet); if (output->active_delay_ns) obs_free_encoder_packet(packet); if (packet->type == OBS_ENCODER_VIDEO) output->total_frames++; } static void default_raw_video_callback(void *param, struct video_data *frame) { struct obs_output *output = param; if (!output->stopped) 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; if (!output->stopped) output->info.raw_audio(output->context.data, frames); 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; output->delay_active = true; 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_video) obs_encoder_start(output->video_encoder, encoded_callback, output); if (has_audio) start_audio_encoders(output, encoded_callback); } 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 = {0}; calldata_set_int(¶ms, "timeout_sec", output->reconnect_retry_cur_sec); calldata_set_ptr(¶ms, "output", output); signal_handler_signal(output->context.signals, "reconnect", ¶ms); calldata_free(¶ms); } static inline void signal_reconnect_success(struct obs_output *output) { do_output_signal(output, "reconnect_success"); } static inline void signal_stop(struct obs_output *output, int code) { struct calldata params = {0}; calldata_set_int(¶ms, "code", code); calldata_set_ptr(¶ms, "output", output); signal_handler_signal(output->context.signals, "stop", ¶ms); calldata_free(¶ms); } 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; if (output->delay_active) return true; if (output->active) return false; 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 bool pair_encoders(obs_output_t *output, size_t num_mixes) { if (num_mixes == 1 && !output->audio_encoders[0]->active && !output->video_encoder->active && !output->video_encoder->paired_encoder && !output->audio_encoders[0]->paired_encoder) { output->audio_encoders[0]->wait_for_video = true; output->audio_encoders[0]->paired_encoder = output->video_encoder; output->video_encoder->paired_encoder = output->audio_encoders[0]; } return true; } 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; if (output->active) return output->delay_active; 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) { if (!pair_encoders(output, num_mixes)) { return false; } } return true; } static bool begin_delayed_capture(obs_output_t *output) { if (output->delay_capturing) return false; pthread_mutex_lock(&output->interleaved_mutex); reset_packet_data(output); output->delay_capturing = true; pthread_mutex_unlock(&output->interleaved_mutex); if (output->reconnecting) { signal_reconnect_success(output); output->reconnecting = false; } 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; if (output->delay_active) return begin_delayed_capture(output); if (output->active) return false; 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; hook_data_capture(output, encoded, has_video, has_audio); if (has_service) obs_service_activate(output->service); do_output_signal(output, "activate"); output->active = true; if (output->reconnecting) { signal_reconnect_success(output); output->reconnecting = false; } else if (output->delay_active) { 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); } } void obs_output_end_data_capture(obs_output_t *output) { bool encoded, has_video, has_audio, has_service; encoded_callback_t encoded_callback; if (!obs_output_valid(output, "obs_output_end_data_capture")) return; if (output->delay_active) { output->delay_capturing = false; return; } if (!output->active) return; 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"); output->active = false; } 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 output->reconnecting = false; output->reconnect_thread_active = false; return NULL; } static void output_reconnect(struct obs_output *output) { int ret; if (!output->reconnecting) { output->reconnect_retry_cur_sec = output->reconnect_retry_sec; output->reconnect_retries = 0; } if (output->reconnect_retries >= output->reconnect_retry_max) { output->reconnecting = false; if (output->delay_active) { output->delay_active = false; obs_output_end_data_capture(output); } signal_stop(output, OBS_OUTPUT_DISCONNECTED); return; } if (!output->reconnecting) { output->reconnecting = true; os_event_reset(output->reconnect_stop_event); } if (output->reconnect_retries) { output->reconnect_retry_cur_sec *= 2; } output->reconnect_retries++; ret = pthread_create(&output->reconnect_thread, NULL, &reconnect_thread, output); if (ret < 0) { blog(LOG_WARNING, "Failed to create reconnect thread"); output->reconnecting = false; signal_stop(output, OBS_OUTPUT_DISCONNECTED); } else { blog(LOG_INFO, "Output '%s': Reconnecting in %d seconds..", output->context.name, output->reconnect_retry_sec); signal_reconnect(output); } } void obs_output_signal_stop(obs_output_t *output, int code) { if (!obs_output_valid(output, "obs_output_signal_stop")) return; obs_output_end_data_capture(output); if ((output->reconnecting && code != OBS_OUTPUT_SUCCESS) || code == OBS_OUTPUT_DISCONNECTED) { output_reconnect(output); } else { if (output->delay_active) { output->delay_active = false; obs_output_end_data_capture(output); } signal_stop(output, code); } } 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; }