/****************************************************************************** Copyright (C) 2015 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 "obs-internal.h" #include "util/util_uint64.h" struct ts_info { uint64_t start; uint64_t end; }; #define DEBUG_AUDIO 0 #define MAX_BUFFERING_TICKS 45 static void push_audio_tree(obs_source_t *parent, obs_source_t *source, void *p) { struct obs_core_audio *audio = p; if (da_find(audio->render_order, &source, 0) == DARRAY_INVALID) { obs_source_t *s = obs_source_get_ref(source); if (s) da_push_back(audio->render_order, &s); } UNUSED_PARAMETER(parent); } static inline size_t convert_time_to_frames(size_t sample_rate, uint64_t t) { return util_mul_div64(t, sample_rate, 1000000000ULL); } static inline void mix_audio(struct audio_output_data *mixes, obs_source_t *source, size_t channels, size_t sample_rate, struct ts_info *ts) { size_t total_floats = AUDIO_OUTPUT_FRAMES; size_t start_point = 0; if (source->audio_ts < ts->start || ts->end <= source->audio_ts) return; if (source->audio_ts != ts->start) { start_point = convert_time_to_frames( sample_rate, source->audio_ts - ts->start); if (start_point == AUDIO_OUTPUT_FRAMES) return; total_floats -= start_point; } for (size_t mix_idx = 0; mix_idx < MAX_AUDIO_MIXES; mix_idx++) { for (size_t ch = 0; ch < channels; ch++) { register float *mix = mixes[mix_idx].data[ch]; register float *aud = source->audio_output_buf[mix_idx][ch]; register float *end; mix += start_point; end = aud + total_floats; while (aud < end) *(mix++) += *(aud++); } } } static void ignore_audio(obs_source_t *source, size_t channels, size_t sample_rate) { size_t num_floats = source->audio_input_buf[0].size / sizeof(float); if (num_floats) { for (size_t ch = 0; ch < channels; ch++) circlebuf_pop_front(&source->audio_input_buf[ch], NULL, source->audio_input_buf[ch].size); source->last_audio_input_buf_size = 0; source->audio_ts += util_mul_div64(num_floats, 1000000000ULL, sample_rate); } } static bool discard_if_stopped(obs_source_t *source, size_t channels) { size_t last_size; size_t size; last_size = source->last_audio_input_buf_size; size = source->audio_input_buf[0].size; if (!size) return false; /* if perpetually pending data, it means the audio has stopped, * so clear the audio data */ if (last_size == size) { if (!source->pending_stop) { source->pending_stop = true; #if DEBUG_AUDIO == 1 blog(LOG_DEBUG, "doing pending stop trick: '%s'", source->context.name); #endif return false; } for (size_t ch = 0; ch < channels; ch++) circlebuf_pop_front(&source->audio_input_buf[ch], NULL, source->audio_input_buf[ch].size); source->pending_stop = false; source->audio_ts = 0; source->last_audio_input_buf_size = 0; #if DEBUG_AUDIO == 1 blog(LOG_DEBUG, "source audio data appears to have " "stopped, clearing"); #endif return true; } else { source->last_audio_input_buf_size = size; return false; } } #define MAX_AUDIO_SIZE (AUDIO_OUTPUT_FRAMES * sizeof(float)) static inline void discard_audio(struct obs_core_audio *audio, obs_source_t *source, size_t channels, size_t sample_rate, struct ts_info *ts) { size_t total_floats = AUDIO_OUTPUT_FRAMES; size_t size; #if DEBUG_AUDIO == 1 bool is_audio_source = source->info.output_flags & OBS_SOURCE_AUDIO; #endif if (source->info.audio_render) { source->audio_ts = 0; return; } if (ts->end <= source->audio_ts) { #if DEBUG_AUDIO == 1 blog(LOG_DEBUG, "can't discard, source " "timestamp (%" PRIu64 ") >= " "end timestamp (%" PRIu64 ")", source->audio_ts, ts->end); #endif return; } if (source->audio_ts < (ts->start - 1)) { if (source->audio_pending && source->audio_input_buf[0].size < MAX_AUDIO_SIZE && discard_if_stopped(source, channels)) return; #if DEBUG_AUDIO == 1 if (is_audio_source) { blog(LOG_DEBUG, "can't discard, source " "timestamp (%" PRIu64 ") < " "start timestamp (%" PRIu64 ")", source->audio_ts, ts->start); } #endif if (audio->total_buffering_ticks == MAX_BUFFERING_TICKS) ignore_audio(source, channels, sample_rate); return; } if (source->audio_ts != ts->start && source->audio_ts != (ts->start - 1)) { size_t start_point = convert_time_to_frames( sample_rate, source->audio_ts - ts->start); if (start_point == AUDIO_OUTPUT_FRAMES) { #if DEBUG_AUDIO == 1 if (is_audio_source) blog(LOG_DEBUG, "can't discard, start point is " "at audio frame count"); #endif return; } total_floats -= start_point; } size = total_floats * sizeof(float); if (source->audio_input_buf[0].size < size) { if (discard_if_stopped(source, channels)) return; #if DEBUG_AUDIO == 1 if (is_audio_source) blog(LOG_DEBUG, "can't discard, data still pending"); #endif source->audio_ts = ts->end; return; } for (size_t ch = 0; ch < channels; ch++) circlebuf_pop_front(&source->audio_input_buf[ch], NULL, size); source->last_audio_input_buf_size = 0; #if DEBUG_AUDIO == 1 if (is_audio_source) blog(LOG_DEBUG, "audio discarded, new ts: %" PRIu64, ts->end); #endif source->pending_stop = false; source->audio_ts = ts->end; } static void add_audio_buffering(struct obs_core_audio *audio, size_t sample_rate, struct ts_info *ts, uint64_t min_ts, const char *buffering_name) { struct ts_info new_ts; uint64_t offset; uint64_t frames; size_t total_ms; size_t ms; int ticks; if (audio->total_buffering_ticks == MAX_BUFFERING_TICKS) return; if (!audio->buffering_wait_ticks) audio->buffered_ts = ts->start; offset = ts->start - min_ts; frames = ns_to_audio_frames(sample_rate, offset); ticks = (int)((frames + AUDIO_OUTPUT_FRAMES - 1) / AUDIO_OUTPUT_FRAMES); audio->total_buffering_ticks += ticks; if (audio->total_buffering_ticks >= MAX_BUFFERING_TICKS) { ticks -= audio->total_buffering_ticks - MAX_BUFFERING_TICKS; audio->total_buffering_ticks = MAX_BUFFERING_TICKS; blog(LOG_WARNING, "Max audio buffering reached!"); } ms = ticks * AUDIO_OUTPUT_FRAMES * 1000 / sample_rate; total_ms = audio->total_buffering_ticks * AUDIO_OUTPUT_FRAMES * 1000 / sample_rate; blog(LOG_INFO, "adding %d milliseconds of audio buffering, total " "audio buffering is now %d milliseconds" " (source: %s)\n", (int)ms, (int)total_ms, buffering_name); #if DEBUG_AUDIO == 1 blog(LOG_DEBUG, "min_ts (%" PRIu64 ") < start timestamp " "(%" PRIu64 ")", min_ts, ts->start); blog(LOG_DEBUG, "old buffered ts: %" PRIu64 "-%" PRIu64, ts->start, ts->end); #endif new_ts.start = audio->buffered_ts - audio_frames_to_ns(sample_rate, audio->buffering_wait_ticks * AUDIO_OUTPUT_FRAMES); while (ticks--) { int cur_ticks = ++audio->buffering_wait_ticks; new_ts.end = new_ts.start; new_ts.start = audio->buffered_ts - audio_frames_to_ns(sample_rate, cur_ticks * AUDIO_OUTPUT_FRAMES); #if DEBUG_AUDIO == 1 blog(LOG_DEBUG, "add buffered ts: %" PRIu64 "-%" PRIu64, new_ts.start, new_ts.end); #endif circlebuf_push_front(&audio->buffered_timestamps, &new_ts, sizeof(new_ts)); } *ts = new_ts; } static bool audio_buffer_insuffient(struct obs_source *source, size_t sample_rate, uint64_t min_ts) { size_t total_floats = AUDIO_OUTPUT_FRAMES; size_t size; if (source->info.audio_render || source->audio_pending || !source->audio_ts) { return false; } if (source->audio_ts != min_ts && source->audio_ts != (min_ts - 1)) { size_t start_point = convert_time_to_frames( sample_rate, source->audio_ts - min_ts); if (start_point >= AUDIO_OUTPUT_FRAMES) return false; total_floats -= start_point; } size = total_floats * sizeof(float); if (source->audio_input_buf[0].size < size) { source->audio_pending = true; return true; } return false; } static inline const char *find_min_ts(struct obs_core_data *data, uint64_t *min_ts) { obs_source_t *buffering_source = NULL; struct obs_source *source = data->first_audio_source; while (source) { if (!source->audio_pending && source->audio_ts && source->audio_ts < *min_ts) { *min_ts = source->audio_ts; buffering_source = source; } source = (struct obs_source *)source->next_audio_source; } return buffering_source ? obs_source_get_name(buffering_source) : NULL; } static inline bool mark_invalid_sources(struct obs_core_data *data, size_t sample_rate, uint64_t min_ts) { bool recalculate = false; struct obs_source *source = data->first_audio_source; while (source) { recalculate |= audio_buffer_insuffient(source, sample_rate, min_ts); source = (struct obs_source *)source->next_audio_source; } return recalculate; } static inline const char *calc_min_ts(struct obs_core_data *data, size_t sample_rate, uint64_t *min_ts) { const char *buffering_name = find_min_ts(data, min_ts); if (mark_invalid_sources(data, sample_rate, *min_ts)) buffering_name = find_min_ts(data, min_ts); return buffering_name; } static inline void release_audio_sources(struct obs_core_audio *audio) { for (size_t i = 0; i < audio->render_order.num; i++) obs_source_release(audio->render_order.array[i]); } bool audio_callback(void *param, uint64_t start_ts_in, uint64_t end_ts_in, uint64_t *out_ts, uint32_t mixers, struct audio_output_data *mixes) { struct obs_core_data *data = &obs->data; struct obs_core_audio *audio = &obs->audio; struct obs_source *source; size_t sample_rate = audio_output_get_sample_rate(audio->audio); size_t channels = audio_output_get_channels(audio->audio); struct ts_info ts = {start_ts_in, end_ts_in}; size_t audio_size; uint64_t min_ts; da_resize(audio->render_order, 0); da_resize(audio->root_nodes, 0); circlebuf_push_back(&audio->buffered_timestamps, &ts, sizeof(ts)); circlebuf_peek_front(&audio->buffered_timestamps, &ts, sizeof(ts)); min_ts = ts.start; audio_size = AUDIO_OUTPUT_FRAMES * sizeof(float); #if DEBUG_AUDIO == 1 blog(LOG_DEBUG, "ts %llu-%llu", ts.start, ts.end); #endif /* ------------------------------------------------ */ /* build audio render order * NOTE: these are source channels, not audio channels */ for (uint32_t i = 0; i < MAX_CHANNELS; i++) { obs_source_t *source = obs_get_output_source(i); if (source) { obs_source_enum_active_tree(source, push_audio_tree, audio); push_audio_tree(NULL, source, audio); da_push_back(audio->root_nodes, &source); obs_source_release(source); } } pthread_mutex_lock(&data->audio_sources_mutex); source = data->first_audio_source; while (source) { push_audio_tree(NULL, source, audio); source = (struct obs_source *)source->next_audio_source; } pthread_mutex_unlock(&data->audio_sources_mutex); /* ------------------------------------------------ */ /* render audio data */ for (size_t i = 0; i < audio->render_order.num; i++) { obs_source_t *source = audio->render_order.array[i]; obs_source_audio_render(source, mixers, channels, sample_rate, audio_size); } /* ------------------------------------------------ */ /* get minimum audio timestamp */ pthread_mutex_lock(&data->audio_sources_mutex); const char *buffering_name = calc_min_ts(data, sample_rate, &min_ts); pthread_mutex_unlock(&data->audio_sources_mutex); /* ------------------------------------------------ */ /* if a source has gone backward in time, buffer */ if (min_ts < ts.start) add_audio_buffering(audio, sample_rate, &ts, min_ts, buffering_name); /* ------------------------------------------------ */ /* mix audio */ if (!audio->buffering_wait_ticks) { for (size_t i = 0; i < audio->root_nodes.num; i++) { obs_source_t *source = audio->root_nodes.array[i]; if (source->audio_pending) continue; pthread_mutex_lock(&source->audio_buf_mutex); if (source->audio_output_buf[0][0] && source->audio_ts) mix_audio(mixes, source, channels, sample_rate, &ts); pthread_mutex_unlock(&source->audio_buf_mutex); } } /* ------------------------------------------------ */ /* discard audio */ pthread_mutex_lock(&data->audio_sources_mutex); source = data->first_audio_source; while (source) { pthread_mutex_lock(&source->audio_buf_mutex); discard_audio(audio, source, channels, sample_rate, &ts); pthread_mutex_unlock(&source->audio_buf_mutex); source = (struct obs_source *)source->next_audio_source; } pthread_mutex_unlock(&data->audio_sources_mutex); /* ------------------------------------------------ */ /* release audio sources */ release_audio_sources(audio); circlebuf_pop_front(&audio->buffered_timestamps, NULL, sizeof(ts)); *out_ts = ts.start; if (audio->buffering_wait_ticks) { audio->buffering_wait_ticks--; return false; } UNUSED_PARAMETER(param); return true; }