#include "../../media-io/audio-resampler.h" #include "../../util/circlebuf.h" #include "../../util/platform.h" #include "../../util/darray.h" #include "../../obs-internal.h" #include "wasapi-output.h" #define ACTUALLY_DEFINE_GUID(name, l, w1, w2, b1, b2, b3, b4, b5, b6, b7, b8) \ EXTERN_C const GUID DECLSPEC_SELECTANY name = { \ l, w1, w2, {b1, b2, b3, b4, b5, b6, b7, b8}} ACTUALLY_DEFINE_GUID(CLSID_MMDeviceEnumerator, 0xBCDE0395, 0xE52F, 0x467C, 0x8E, 0x3D, 0xC4, 0x57, 0x92, 0x91, 0x69, 0x2E); ACTUALLY_DEFINE_GUID(IID_IMMDeviceEnumerator, 0xA95664D2, 0x9614, 0x4F35, 0xA7, 0x46, 0xDE, 0x8D, 0xB6, 0x36, 0x17, 0xE6); ACTUALLY_DEFINE_GUID(IID_IAudioClient, 0x1CB9AD4C, 0xDBFA, 0x4C32, 0xB1, 0x78, 0xC2, 0xF5, 0x68, 0xA7, 0x03, 0xB2); ACTUALLY_DEFINE_GUID(IID_IAudioRenderClient, 0xF294ACFC, 0x3146, 0x4483, 0xA7, 0xBF, 0xAD, 0xDC, 0xA7, 0xC2, 0x60, 0xE2); struct audio_monitor { obs_source_t *source; IMMDevice *device; IAudioClient *client; IAudioRenderClient *render; uint64_t last_recv_time; uint64_t prev_video_ts; uint64_t time_since_prev; audio_resampler_t *resampler; uint32_t sample_rate; uint32_t channels; bool source_has_video; bool ignore; int64_t lowest_audio_offset; struct circlebuf delay_buffer; uint32_t delay_size; DARRAY(float) buf; pthread_mutex_t playback_mutex; }; /* #define DEBUG_AUDIO */ static bool process_audio_delay(struct audio_monitor *monitor, float **data, uint32_t *frames, uint64_t ts, uint32_t pad) { obs_source_t *s = monitor->source; uint64_t last_frame_ts = s->last_frame_ts; uint64_t cur_time = os_gettime_ns(); uint64_t front_ts; uint64_t cur_ts; int64_t diff; uint32_t blocksize = monitor->channels * sizeof(float); /* cut off audio if long-since leftover audio in delay buffer */ if (cur_time - monitor->last_recv_time > 1000000000) circlebuf_free(&monitor->delay_buffer); monitor->last_recv_time = cur_time; ts += monitor->source->sync_offset; circlebuf_push_back(&monitor->delay_buffer, &ts, sizeof(ts)); circlebuf_push_back(&monitor->delay_buffer, frames, sizeof(*frames)); circlebuf_push_back(&monitor->delay_buffer, *data, *frames * blocksize); if (!monitor->prev_video_ts) { monitor->prev_video_ts = last_frame_ts; } else if (monitor->prev_video_ts == last_frame_ts) { monitor->time_since_prev += (uint64_t)*frames * 1000000000ULL / (uint64_t)monitor->sample_rate; } else { monitor->time_since_prev = 0; } while (monitor->delay_buffer.size != 0) { size_t size; bool bad_diff; circlebuf_peek_front(&monitor->delay_buffer, &cur_ts, sizeof(ts)); front_ts = cur_ts - ((uint64_t)pad * 1000000000ULL / (uint64_t)monitor->sample_rate); diff = (int64_t)front_ts - (int64_t)last_frame_ts; bad_diff = !last_frame_ts || llabs(diff) > 5000000000 || monitor->time_since_prev > 100000000ULL; /* delay audio if rushing */ if (!bad_diff && diff > 75000000) { #ifdef DEBUG_AUDIO blog(LOG_INFO, "audio rushing, cutting audio, " "diff: %lld, delay buffer size: %lu, " "v: %llu: a: %llu", diff, (int)monitor->delay_buffer.size, last_frame_ts, front_ts); #endif return false; } circlebuf_pop_front(&monitor->delay_buffer, NULL, sizeof(ts)); circlebuf_pop_front(&monitor->delay_buffer, frames, sizeof(*frames)); size = *frames * blocksize; da_resize(monitor->buf, size); circlebuf_pop_front(&monitor->delay_buffer, monitor->buf.array, size); /* cut audio if dragging */ if (!bad_diff && diff < -75000000 && monitor->delay_buffer.size > 0) { #ifdef DEBUG_AUDIO blog(LOG_INFO, "audio dragging, cutting audio, " "diff: %lld, delay buffer size: %lu, " "v: %llu: a: %llu", diff, (int)monitor->delay_buffer.size, last_frame_ts, front_ts); #endif continue; } *data = monitor->buf.array; return true; } return false; } static void on_audio_playback(void *param, obs_source_t *source, const struct audio_data *audio_data, bool muted) { struct audio_monitor *monitor = param; IAudioRenderClient *render = monitor->render; uint8_t *resample_data[MAX_AV_PLANES]; float vol = source->user_volume; uint32_t resample_frames; uint64_t ts_offset; bool success; BYTE *output; if (pthread_mutex_trylock(&monitor->playback_mutex) != 0) { return; } if (os_atomic_load_long(&source->activate_refs) == 0) { goto unlock; } success = audio_resampler_resample( monitor->resampler, resample_data, &resample_frames, &ts_offset, (const uint8_t *const *)audio_data->data, (uint32_t)audio_data->frames); if (!success) { goto unlock; } UINT32 pad = 0; monitor->client->lpVtbl->GetCurrentPadding(monitor->client, &pad); bool decouple_audio = source->async_unbuffered && source->async_decoupled; if (monitor->source_has_video && !decouple_audio) { uint64_t ts = audio_data->timestamp - ts_offset; if (!process_audio_delay(monitor, (float **)(&resample_data[0]), &resample_frames, ts, pad)) { goto unlock; } } HRESULT hr = render->lpVtbl->GetBuffer(render, resample_frames, &output); if (FAILED(hr)) { goto unlock; } if (!muted) { /* apply volume */ if (!close_float(vol, 1.0f, EPSILON)) { register float *cur = (float *)resample_data[0]; register float *end = cur + resample_frames * monitor->channels; while (cur < end) *(cur++) *= vol; } memcpy(output, resample_data[0], resample_frames * monitor->channels * sizeof(float)); } render->lpVtbl->ReleaseBuffer(render, resample_frames, muted ? AUDCLNT_BUFFERFLAGS_SILENT : 0); unlock: pthread_mutex_unlock(&monitor->playback_mutex); } static inline void audio_monitor_free(struct audio_monitor *monitor) { if (monitor->ignore) return; if (monitor->source) { obs_source_remove_audio_capture_callback( monitor->source, on_audio_playback, monitor); } if (monitor->client) monitor->client->lpVtbl->Stop(monitor->client); safe_release(monitor->device); safe_release(monitor->client); safe_release(monitor->render); audio_resampler_destroy(monitor->resampler); circlebuf_free(&monitor->delay_buffer); da_free(monitor->buf); } static enum speaker_layout convert_speaker_layout(DWORD layout, WORD channels) { switch (layout) { case KSAUDIO_SPEAKER_2POINT1: return SPEAKERS_2POINT1; case KSAUDIO_SPEAKER_SURROUND: return SPEAKERS_4POINT0; case KSAUDIO_SPEAKER_4POINT1: return SPEAKERS_4POINT1; case KSAUDIO_SPEAKER_5POINT1: return SPEAKERS_5POINT1; case KSAUDIO_SPEAKER_7POINT1: return SPEAKERS_7POINT1; } return (enum speaker_layout)channels; } extern bool devices_match(const char *id1, const char *id2); static bool audio_monitor_init(struct audio_monitor *monitor, obs_source_t *source) { IMMDeviceEnumerator *immde = NULL; WAVEFORMATEX *wfex = NULL; bool success = false; UINT32 frames; HRESULT hr; pthread_mutex_init_value(&monitor->playback_mutex); monitor->source = source; const char *id = obs->audio.monitoring_device_id; if (!id) { return false; } if (source->info.output_flags & OBS_SOURCE_DO_NOT_SELF_MONITOR) { obs_data_t *s = obs_source_get_settings(source); const char *s_dev_id = obs_data_get_string(s, "device_id"); bool match = devices_match(s_dev_id, id); obs_data_release(s); if (match) { monitor->ignore = true; return true; } } /* ------------------------------------------ * * Init device */ hr = CoCreateInstance(&CLSID_MMDeviceEnumerator, NULL, CLSCTX_ALL, &IID_IMMDeviceEnumerator, (void **)&immde); if (FAILED(hr)) { return false; } if (strcmp(id, "default") == 0) { hr = immde->lpVtbl->GetDefaultAudioEndpoint( immde, eRender, eConsole, &monitor->device); } else { wchar_t w_id[512]; os_utf8_to_wcs(id, 0, w_id, 512); hr = immde->lpVtbl->GetDevice(immde, w_id, &monitor->device); } if (FAILED(hr)) { goto fail; } /* ------------------------------------------ * * Init client */ hr = monitor->device->lpVtbl->Activate(monitor->device, &IID_IAudioClient, CLSCTX_ALL, NULL, (void **)&monitor->client); if (FAILED(hr)) { goto fail; } hr = monitor->client->lpVtbl->GetMixFormat(monitor->client, &wfex); if (FAILED(hr)) { goto fail; } hr = monitor->client->lpVtbl->Initialize(monitor->client, AUDCLNT_SHAREMODE_SHARED, 0, 10000000, 0, wfex, NULL); if (FAILED(hr)) { goto fail; } /* ------------------------------------------ * * Init resampler */ const struct audio_output_info *info = audio_output_get_info(obs->audio.audio); WAVEFORMATEXTENSIBLE *ext = (WAVEFORMATEXTENSIBLE *)wfex; struct resample_info from; struct resample_info to; from.samples_per_sec = info->samples_per_sec; from.speakers = info->speakers; from.format = AUDIO_FORMAT_FLOAT_PLANAR; to.samples_per_sec = (uint32_t)wfex->nSamplesPerSec; to.speakers = convert_speaker_layout(ext->dwChannelMask, wfex->nChannels); to.format = AUDIO_FORMAT_FLOAT; monitor->sample_rate = (uint32_t)wfex->nSamplesPerSec; monitor->channels = wfex->nChannels; monitor->resampler = audio_resampler_create(&to, &from); if (!monitor->resampler) { goto fail; } /* ------------------------------------------ * * Init client */ hr = monitor->client->lpVtbl->GetBufferSize(monitor->client, &frames); if (FAILED(hr)) { goto fail; } hr = monitor->client->lpVtbl->GetService(monitor->client, &IID_IAudioRenderClient, (void **)&monitor->render); if (FAILED(hr)) { goto fail; } if (pthread_mutex_init(&monitor->playback_mutex, NULL) != 0) { goto fail; } hr = monitor->client->lpVtbl->Start(monitor->client); if (FAILED(hr)) { goto fail; } success = true; fail: safe_release(immde); if (wfex) CoTaskMemFree(wfex); return success; } static void audio_monitor_init_final(struct audio_monitor *monitor) { if (monitor->ignore) return; monitor->source_has_video = (monitor->source->info.output_flags & OBS_SOURCE_VIDEO) != 0; obs_source_add_audio_capture_callback(monitor->source, on_audio_playback, monitor); } struct audio_monitor *audio_monitor_create(obs_source_t *source) { struct audio_monitor monitor = {0}; struct audio_monitor *out; if (!audio_monitor_init(&monitor, source)) { goto fail; } out = bmemdup(&monitor, sizeof(monitor)); pthread_mutex_lock(&obs->audio.monitoring_mutex); da_push_back(obs->audio.monitors, &out); pthread_mutex_unlock(&obs->audio.monitoring_mutex); audio_monitor_init_final(out); return out; fail: audio_monitor_free(&monitor); return NULL; } void audio_monitor_reset(struct audio_monitor *monitor) { struct audio_monitor new_monitor = {0}; bool success; pthread_mutex_lock(&monitor->playback_mutex); success = audio_monitor_init(&new_monitor, monitor->source); pthread_mutex_unlock(&monitor->playback_mutex); if (success) { obs_source_t *source = monitor->source; audio_monitor_free(monitor); *monitor = new_monitor; audio_monitor_init_final(monitor); } else { audio_monitor_free(&new_monitor); } } void audio_monitor_destroy(struct audio_monitor *monitor) { if (monitor) { audio_monitor_free(monitor); pthread_mutex_lock(&obs->audio.monitoring_mutex); da_erase_item(obs->audio.monitors, &monitor); pthread_mutex_unlock(&obs->audio.monitoring_mutex); bfree(monitor); } }