#include #include #include #include "qt-wrappers.hpp" #include "audio-encoders.hpp" #include "window-basic-main.hpp" #include "window-basic-main-outputs.hpp" #include "window-basic-vcam-config.hpp" using namespace std; extern bool EncoderAvailable(const char *encoder); volatile bool streaming_active = false; volatile bool recording_active = false; volatile bool recording_paused = false; volatile bool replaybuf_active = false; volatile bool virtualcam_active = false; #define FTL_PROTOCOL "ftl" #define RTMP_PROTOCOL "rtmp" static void OBSStreamStarting(void *data, calldata_t *params) { BasicOutputHandler *output = static_cast(data); obs_output_t *obj = (obs_output_t *)calldata_ptr(params, "output"); int sec = (int)obs_output_get_active_delay(obj); if (sec == 0) return; output->delayActive = true; QMetaObject::invokeMethod(output->main, "StreamDelayStarting", Q_ARG(int, sec)); } static void OBSStreamStopping(void *data, calldata_t *params) { BasicOutputHandler *output = static_cast(data); obs_output_t *obj = (obs_output_t *)calldata_ptr(params, "output"); int sec = (int)obs_output_get_active_delay(obj); if (sec == 0) QMetaObject::invokeMethod(output->main, "StreamStopping"); else QMetaObject::invokeMethod(output->main, "StreamDelayStopping", Q_ARG(int, sec)); } static void OBSStartStreaming(void *data, calldata_t * /* params */) { BasicOutputHandler *output = static_cast(data); output->streamingActive = true; os_atomic_set_bool(&streaming_active, true); QMetaObject::invokeMethod(output->main, "StreamingStart"); } static void OBSStopStreaming(void *data, calldata_t *params) { BasicOutputHandler *output = static_cast(data); int code = (int)calldata_int(params, "code"); const char *last_error = calldata_string(params, "last_error"); QString arg_last_error = QString::fromUtf8(last_error); output->streamingActive = false; output->delayActive = false; os_atomic_set_bool(&streaming_active, false); QMetaObject::invokeMethod(output->main, "StreamingStop", Q_ARG(int, code), Q_ARG(QString, arg_last_error)); } static void OBSStartRecording(void *data, calldata_t * /* params */) { BasicOutputHandler *output = static_cast(data); output->recordingActive = true; os_atomic_set_bool(&recording_active, true); QMetaObject::invokeMethod(output->main, "RecordingStart"); } static void OBSStopRecording(void *data, calldata_t *params) { BasicOutputHandler *output = static_cast(data); int code = (int)calldata_int(params, "code"); const char *last_error = calldata_string(params, "last_error"); QString arg_last_error = QString::fromUtf8(last_error); output->recordingActive = false; os_atomic_set_bool(&recording_active, false); os_atomic_set_bool(&recording_paused, false); QMetaObject::invokeMethod(output->main, "RecordingStop", Q_ARG(int, code), Q_ARG(QString, arg_last_error)); } static void OBSRecordStopping(void *data, calldata_t * /* params */) { BasicOutputHandler *output = static_cast(data); QMetaObject::invokeMethod(output->main, "RecordStopping"); } static void OBSRecordFileChanged(void *data, calldata_t *params) { BasicOutputHandler *output = static_cast(data); const char *next_file = calldata_string(params, "next_file"); QString arg_last_file = QString::fromUtf8(output->lastRecordingPath.c_str()); QMetaObject::invokeMethod(output->main, "RecordingFileChanged", Q_ARG(QString, arg_last_file)); output->lastRecordingPath = next_file; } static void OBSStartReplayBuffer(void *data, calldata_t * /* params */) { BasicOutputHandler *output = static_cast(data); output->replayBufferActive = true; os_atomic_set_bool(&replaybuf_active, true); QMetaObject::invokeMethod(output->main, "ReplayBufferStart"); } static void OBSStopReplayBuffer(void *data, calldata_t *params) { BasicOutputHandler *output = static_cast(data); int code = (int)calldata_int(params, "code"); output->replayBufferActive = false; os_atomic_set_bool(&replaybuf_active, false); QMetaObject::invokeMethod(output->main, "ReplayBufferStop", Q_ARG(int, code)); } static void OBSReplayBufferStopping(void *data, calldata_t * /* params */) { BasicOutputHandler *output = static_cast(data); QMetaObject::invokeMethod(output->main, "ReplayBufferStopping"); } static void OBSReplayBufferSaved(void *data, calldata_t * /* params */) { BasicOutputHandler *output = static_cast(data); QMetaObject::invokeMethod(output->main, "ReplayBufferSaved", Qt::QueuedConnection); } static void OBSStartVirtualCam(void *data, calldata_t * /* params */) { BasicOutputHandler *output = static_cast(data); output->virtualCamActive = true; os_atomic_set_bool(&virtualcam_active, true); QMetaObject::invokeMethod(output->main, "OnVirtualCamStart"); } static void OBSStopVirtualCam(void *data, calldata_t *params) { BasicOutputHandler *output = static_cast(data); int code = (int)calldata_int(params, "code"); output->virtualCamActive = false; os_atomic_set_bool(&virtualcam_active, false); QMetaObject::invokeMethod(output->main, "OnVirtualCamStop", Q_ARG(int, code)); } static void OBSDeactivateVirtualCam(void *data, calldata_t * /* params */) { BasicOutputHandler *output = static_cast(data); output->DestroyVirtualCamView(); } /* ------------------------------------------------------------------------ */ static bool CreateSimpleAACEncoder(OBSEncoder &res, int bitrate, const char *name, size_t idx) { const char *id_ = GetSimpleAACEncoderForBitrate(bitrate); if (!id_) { res = nullptr; return false; } res = obs_audio_encoder_create(id_, name, nullptr, idx, nullptr); if (res) { obs_encoder_release(res); return true; } return false; } static bool CreateSimpleOpusEncoder(OBSEncoder &res, int bitrate, const char *name, size_t idx) { const char *id_ = GetSimpleOpusEncoderForBitrate(bitrate); if (!id_) { res = nullptr; return false; } res = obs_audio_encoder_create(id_, name, nullptr, idx, nullptr); if (res) { obs_encoder_release(res); return true; } return false; } static inline bool can_use_output(const char *prot, const char *output, const char *prot_test1, const char *prot_test2 = nullptr) { return (strcmp(prot, prot_test1) == 0 || (prot_test2 && strcmp(prot, prot_test2) == 0)) && (obs_get_output_flags(output) & OBS_OUTPUT_SERVICE) != 0; } static bool return_first_id(void *data, const char *id) { const char **output = (const char **)data; *output = id; return false; } static const char *GetStreamOutputType(const obs_service_t *service) { const char *protocol = obs_service_get_protocol(service); const char *output = nullptr; if (!protocol) { blog(LOG_WARNING, "The service '%s' has no protocol set", obs_service_get_id(service)); return nullptr; } if (!obs_is_output_protocol_registered(protocol)) { blog(LOG_WARNING, "The protocol '%s' is not registered", protocol); return nullptr; } /* Check if the service has a preferred output type */ output = obs_service_get_preferred_output_type(service); if (output) { if ((obs_get_output_flags(output) & OBS_OUTPUT_SERVICE) != 0) return output; blog(LOG_WARNING, "The output '%s' is not registered, fallback to another one", output); } /* Otherwise, prefer first-party output types */ if (can_use_output(protocol, "rtmp_output", "RTMP", "RTMPS")) { return "rtmp_output"; } else if (can_use_output(protocol, "ffmpeg_hls_muxer", "HLS")) { return "ffmpeg_hls_muxer"; } else if (can_use_output(protocol, "ffmpeg_mpegts_muxer", "SRT", "RIST")) { return "ffmpeg_mpegts_muxer"; } /* If third-party protocol, use the first enumerated type */ obs_enum_output_types_with_protocol(protocol, &output, return_first_id); if (output) return output; blog(LOG_WARNING, "No output compatible with the service '%s' is registered", obs_service_get_id(service)); return nullptr; } /* ------------------------------------------------------------------------ */ inline BasicOutputHandler::BasicOutputHandler(OBSBasic *main_) : main(main_) { if (main->vcamEnabled) { virtualCam = obs_output_create("virtualcam_output", "virtualcam_output", nullptr, nullptr); signal_handler_t *signal = obs_output_get_signal_handler(virtualCam); startVirtualCam.Connect(signal, "start", OBSStartVirtualCam, this); stopVirtualCam.Connect(signal, "stop", OBSStopVirtualCam, this); deactivateVirtualCam.Connect(signal, "deactivate", OBSDeactivateVirtualCam, this); } } bool BasicOutputHandler::StartVirtualCam() { if (!main->vcamEnabled) return false; bool typeIsProgram = main->vcamConfig.type == VCamOutputType::ProgramView; if (!virtualCamView && !typeIsProgram) virtualCamView = obs_view_create(); UpdateVirtualCamOutputSource(); if (!virtualCamVideo) { virtualCamVideo = typeIsProgram ? obs_get_video() : obs_view_add(virtualCamView); if (!virtualCamVideo) return false; } obs_output_set_media(virtualCam, virtualCamVideo, obs_get_audio()); if (!Active()) SetupOutputs(); bool success = obs_output_start(virtualCam); if (!success) { QString errorReason; const char *error = obs_output_get_last_error(virtualCam); if (error) { errorReason = QT_UTF8(error); } else { errorReason = QTStr("Output.StartFailedGeneric"); } QMessageBox::critical(main, QTStr("Output.StartVirtualCamFailed"), errorReason); DestroyVirtualCamView(); } return success; } void BasicOutputHandler::StopVirtualCam() { if (main->vcamEnabled) { obs_output_stop(virtualCam); } } bool BasicOutputHandler::VirtualCamActive() const { if (main->vcamEnabled) { return obs_output_active(virtualCam); } return false; } void BasicOutputHandler::UpdateVirtualCamOutputSource() { if (!main->vcamEnabled || !virtualCamView) return; OBSSourceAutoRelease source; switch (main->vcamConfig.type) { case VCamOutputType::Invalid: case VCamOutputType::ProgramView: DestroyVirtualCameraScene(); return; case VCamOutputType::PreviewOutput: { DestroyVirtualCameraScene(); OBSSource s = main->GetCurrentSceneSource(); obs_source_get_ref(s); source = s.Get(); break; } case VCamOutputType::SceneOutput: DestroyVirtualCameraScene(); source = obs_get_source_by_name(main->vcamConfig.scene.c_str()); break; case VCamOutputType::SourceOutput: OBSSourceAutoRelease s = obs_get_source_by_name(main->vcamConfig.source.c_str()); if (!vCamSourceScene) vCamSourceScene = obs_scene_create_private("vcam_source"); source = obs_source_get_ref( obs_scene_get_source(vCamSourceScene)); if (vCamSourceSceneItem && (obs_sceneitem_get_source(vCamSourceSceneItem) != s)) { obs_sceneitem_remove(vCamSourceSceneItem); vCamSourceSceneItem = nullptr; } if (!vCamSourceSceneItem) { vCamSourceSceneItem = obs_scene_add(vCamSourceScene, s); obs_sceneitem_set_bounds_type(vCamSourceSceneItem, OBS_BOUNDS_SCALE_INNER); obs_sceneitem_set_bounds_alignment(vCamSourceSceneItem, OBS_ALIGN_CENTER); const struct vec2 size = { (float)obs_source_get_width(source), (float)obs_source_get_height(source), }; obs_sceneitem_set_bounds(vCamSourceSceneItem, &size); } break; } OBSSourceAutoRelease current = obs_view_get_source(virtualCamView, 0); if (source != current) obs_view_set_source(virtualCamView, 0, source); } void BasicOutputHandler::DestroyVirtualCamView() { if (main->vcamConfig.type == VCamOutputType::ProgramView) { virtualCamVideo = nullptr; return; } obs_view_remove(virtualCamView); obs_view_set_source(virtualCamView, 0, nullptr); virtualCamVideo = nullptr; obs_view_destroy(virtualCamView); virtualCamView = nullptr; DestroyVirtualCameraScene(); } void BasicOutputHandler::DestroyVirtualCameraScene() { if (!vCamSourceScene) return; obs_scene_release(vCamSourceScene); vCamSourceScene = nullptr; vCamSourceSceneItem = nullptr; } /* ------------------------------------------------------------------------ */ struct SimpleOutput : BasicOutputHandler { OBSEncoder audioStreaming; OBSEncoder videoStreaming; OBSEncoder audioRecording; OBSEncoder audioArchive; OBSEncoder videoRecording; OBSEncoder audioTrack[MAX_AUDIO_MIXES]; string videoEncoder; string videoQuality; bool usingRecordingPreset = false; bool recordingConfigured = false; bool ffmpegOutput = false; bool lowCPUx264 = false; SimpleOutput(OBSBasic *main_); int CalcCRF(int crf); void UpdateRecordingSettings_x264_crf(int crf); void UpdateRecordingSettings_qsv11(int crf, bool av1); void UpdateRecordingSettings_nvenc(int cqp); void UpdateRecordingSettings_nvenc_hevc_av1(int cqp); void UpdateRecordingSettings_amd_cqp(int cqp); void UpdateRecordingSettings_apple(int quality); #ifdef ENABLE_HEVC void UpdateRecordingSettings_apple_hevc(int quality); #endif void UpdateRecordingSettings(); void UpdateRecordingAudioSettings(); virtual void Update() override; void SetupOutputs() override; int GetAudioBitrate() const; void LoadRecordingPreset_Lossy(const char *encoder); void LoadRecordingPreset_Lossless(); void LoadRecordingPreset(); void LoadStreamingPreset_Lossy(const char *encoder); void UpdateRecording(); bool ConfigureRecording(bool useReplayBuffer); void SetupVodTrack(obs_service_t *service); virtual bool SetupStreaming(obs_service_t *service) override; virtual bool StartStreaming(obs_service_t *service) override; virtual bool StartRecording() override; virtual bool StartReplayBuffer() override; virtual void StopStreaming(bool force) override; virtual void StopRecording(bool force) override; virtual void StopReplayBuffer(bool force) override; virtual bool StreamingActive() const override; virtual bool RecordingActive() const override; virtual bool ReplayBufferActive() const override; }; void SimpleOutput::LoadRecordingPreset_Lossless() { fileOutput = obs_output_create("ffmpeg_output", "simple_ffmpeg_output", nullptr, nullptr); if (!fileOutput) throw "Failed to create recording FFmpeg output " "(simple output)"; OBSDataAutoRelease settings = obs_data_create(); obs_data_set_string(settings, "format_name", "avi"); obs_data_set_string(settings, "video_encoder", "utvideo"); obs_data_set_string(settings, "audio_encoder", "pcm_s16le"); obs_output_update(fileOutput, settings); } void SimpleOutput::LoadRecordingPreset_Lossy(const char *encoderId) { videoRecording = obs_video_encoder_create( encoderId, "simple_video_recording", nullptr, nullptr); if (!videoRecording) throw "Failed to create video recording encoder (simple output)"; obs_encoder_release(videoRecording); } void SimpleOutput::LoadStreamingPreset_Lossy(const char *encoderId) { videoStreaming = obs_video_encoder_create( encoderId, "simple_video_stream", nullptr, nullptr); if (!videoStreaming) throw "Failed to create video streaming encoder (simple output)"; obs_encoder_release(videoStreaming); } /* mistakes have been made to lead us to this. */ const char *get_simple_output_encoder(const char *encoder) { if (strcmp(encoder, SIMPLE_ENCODER_X264) == 0) { return "obs_x264"; } else if (strcmp(encoder, SIMPLE_ENCODER_X264_LOWCPU) == 0) { return "obs_x264"; } else if (strcmp(encoder, SIMPLE_ENCODER_QSV) == 0) { return "obs_qsv11_v2"; } else if (strcmp(encoder, SIMPLE_ENCODER_QSV_AV1) == 0) { return "obs_qsv11_av1"; } else if (strcmp(encoder, SIMPLE_ENCODER_AMD) == 0) { return "h264_texture_amf"; #ifdef ENABLE_HEVC } else if (strcmp(encoder, SIMPLE_ENCODER_AMD_HEVC) == 0) { return "h265_texture_amf"; #endif } else if (strcmp(encoder, SIMPLE_ENCODER_AMD_AV1) == 0) { return "av1_texture_amf"; } else if (strcmp(encoder, SIMPLE_ENCODER_NVENC) == 0) { return EncoderAvailable("jim_nvenc") ? "jim_nvenc" : "ffmpeg_nvenc"; #ifdef ENABLE_HEVC } else if (strcmp(encoder, SIMPLE_ENCODER_NVENC_HEVC) == 0) { return EncoderAvailable("jim_hevc_nvenc") ? "jim_hevc_nvenc" : "ffmpeg_hevc_nvenc"; #endif } else if (strcmp(encoder, SIMPLE_ENCODER_NVENC_AV1) == 0) { return "jim_av1_nvenc"; } else if (strcmp(encoder, SIMPLE_ENCODER_APPLE_H264) == 0) { return "com.apple.videotoolbox.videoencoder.ave.avc"; #ifdef ENABLE_HEVC } else if (strcmp(encoder, SIMPLE_ENCODER_APPLE_HEVC) == 0) { return "com.apple.videotoolbox.videoencoder.ave.hevc"; #endif } return "obs_x264"; } void SimpleOutput::LoadRecordingPreset() { const char *quality = config_get_string(main->Config(), "SimpleOutput", "RecQuality"); const char *encoder = config_get_string(main->Config(), "SimpleOutput", "RecEncoder"); const char *audio_encoder = config_get_string( main->Config(), "SimpleOutput", "RecAudioEncoder"); videoEncoder = encoder; videoQuality = quality; ffmpegOutput = false; if (strcmp(quality, "Stream") == 0) { videoRecording = videoStreaming; audioRecording = audioStreaming; usingRecordingPreset = false; return; } else if (strcmp(quality, "Lossless") == 0) { LoadRecordingPreset_Lossless(); usingRecordingPreset = true; ffmpegOutput = true; return; } else { lowCPUx264 = false; if (strcmp(encoder, SIMPLE_ENCODER_X264_LOWCPU) == 0) lowCPUx264 = true; LoadRecordingPreset_Lossy(get_simple_output_encoder(encoder)); usingRecordingPreset = true; bool success = false; if (strcmp(audio_encoder, "opus") == 0) success = CreateSimpleOpusEncoder( audioRecording, 192, "simple_opus_recording", 0); else success = CreateSimpleAACEncoder( audioRecording, 192, "simple_aac_recording", 0); if (!success) throw "Failed to create audio recording encoder " "(simple output)"; for (int i = 0; i < MAX_AUDIO_MIXES; i++) { char name[23]; if (strcmp(audio_encoder, "opus") == 0) { snprintf(name, sizeof name, "simple_opus_recording%d", i); success = CreateSimpleOpusEncoder( audioTrack[i], GetAudioBitrate(), name, i); } else { snprintf(name, sizeof name, "simple_aac_recording%d", i); success = CreateSimpleAACEncoder( audioTrack[i], GetAudioBitrate(), name, i); } if (!success) throw "Failed to create multi-track audio recording encoder " "(simple output)"; } } } #define SIMPLE_ARCHIVE_NAME "simple_archive_audio" SimpleOutput::SimpleOutput(OBSBasic *main_) : BasicOutputHandler(main_) { const char *encoder = config_get_string(main->Config(), "SimpleOutput", "StreamEncoder"); const char *audio_encoder = config_get_string( main->Config(), "SimpleOutput", "StreamAudioEncoder"); LoadStreamingPreset_Lossy(get_simple_output_encoder(encoder)); bool success = false; if (strcmp(audio_encoder, "opus") == 0) success = CreateSimpleOpusEncoder( audioStreaming, GetAudioBitrate(), "simple_opus", 0); else success = CreateSimpleAACEncoder( audioStreaming, GetAudioBitrate(), "simple_aac", 0); if (!success) throw "Failed to create audio streaming encoder (simple output)"; if (strcmp(audio_encoder, "opus") == 0) success = CreateSimpleOpusEncoder(audioArchive, GetAudioBitrate(), SIMPLE_ARCHIVE_NAME, 1); else success = CreateSimpleAACEncoder(audioArchive, GetAudioBitrate(), SIMPLE_ARCHIVE_NAME, 1); if (!success) throw "Failed to create audio archive encoder (simple output)"; LoadRecordingPreset(); if (!ffmpegOutput) { bool useReplayBuffer = config_get_bool(main->Config(), "SimpleOutput", "RecRB"); if (useReplayBuffer) { OBSDataAutoRelease hotkey; const char *str = config_get_string( main->Config(), "Hotkeys", "ReplayBuffer"); if (str) hotkey = obs_data_create_from_json(str); else hotkey = nullptr; replayBuffer = obs_output_create("replay_buffer", Str("ReplayBuffer"), nullptr, hotkey); if (!replayBuffer) throw "Failed to create replay buffer output " "(simple output)"; signal_handler_t *signal = obs_output_get_signal_handler(replayBuffer); startReplayBuffer.Connect(signal, "start", OBSStartReplayBuffer, this); stopReplayBuffer.Connect(signal, "stop", OBSStopReplayBuffer, this); replayBufferStopping.Connect(signal, "stopping", OBSReplayBufferStopping, this); replayBufferSaved.Connect(signal, "saved", OBSReplayBufferSaved, this); } fileOutput = obs_output_create( "ffmpeg_muxer", "simple_file_output", nullptr, nullptr); if (!fileOutput) throw "Failed to create recording output " "(simple output)"; } startRecording.Connect(obs_output_get_signal_handler(fileOutput), "start", OBSStartRecording, this); stopRecording.Connect(obs_output_get_signal_handler(fileOutput), "stop", OBSStopRecording, this); recordStopping.Connect(obs_output_get_signal_handler(fileOutput), "stopping", OBSRecordStopping, this); } int SimpleOutput::GetAudioBitrate() const { const char *audio_encoder = config_get_string( main->Config(), "SimpleOutput", "StreamAudioEncoder"); int bitrate = (int)config_get_uint(main->Config(), "SimpleOutput", "ABitrate"); if (strcmp(audio_encoder, "opus") == 0) return FindClosestAvailableSimpleOpusBitrate(bitrate); return FindClosestAvailableSimpleAACBitrate(bitrate); } void SimpleOutput::Update() { OBSDataAutoRelease videoSettings = obs_data_create(); OBSDataAutoRelease audioSettings = obs_data_create(); int videoBitrate = config_get_uint(main->Config(), "SimpleOutput", "VBitrate"); int audioBitrate = GetAudioBitrate(); bool advanced = config_get_bool(main->Config(), "SimpleOutput", "UseAdvanced"); bool enforceBitrate = !config_get_bool(main->Config(), "Stream1", "IgnoreRecommended"); const char *custom = config_get_string(main->Config(), "SimpleOutput", "x264Settings"); const char *encoder = config_get_string(main->Config(), "SimpleOutput", "StreamEncoder"); const char *presetType; const char *preset; if (strcmp(encoder, SIMPLE_ENCODER_QSV) == 0) { presetType = "QSVPreset"; } else if (strcmp(encoder, SIMPLE_ENCODER_QSV_AV1) == 0) { presetType = "QSVPreset"; } else if (strcmp(encoder, SIMPLE_ENCODER_AMD) == 0) { presetType = "AMDPreset"; #ifdef ENABLE_HEVC } else if (strcmp(encoder, SIMPLE_ENCODER_AMD_HEVC) == 0) { presetType = "AMDPreset"; #endif } else if (strcmp(encoder, SIMPLE_ENCODER_NVENC) == 0) { presetType = "NVENCPreset2"; #ifdef ENABLE_HEVC } else if (strcmp(encoder, SIMPLE_ENCODER_NVENC_HEVC) == 0) { presetType = "NVENCPreset2"; #endif } else if (strcmp(encoder, SIMPLE_ENCODER_AMD_AV1) == 0) { presetType = "AMDAV1Preset"; } else if (strcmp(encoder, SIMPLE_ENCODER_NVENC_AV1) == 0) { presetType = "NVENCPreset2"; } else { presetType = "Preset"; } preset = config_get_string(main->Config(), "SimpleOutput", presetType); obs_data_set_string(videoSettings, (strcmp(presetType, "NVENCPreset2") == 0) ? "preset2" : "preset", preset); obs_data_set_string(videoSettings, "rate_control", "CBR"); obs_data_set_int(videoSettings, "bitrate", videoBitrate); if (advanced) obs_data_set_string(videoSettings, "x264opts", custom); obs_data_set_string(audioSettings, "rate_control", "CBR"); obs_data_set_int(audioSettings, "bitrate", audioBitrate); obs_service_apply_encoder_settings(main->GetService(), videoSettings, audioSettings); if (!enforceBitrate) { obs_data_set_int(videoSettings, "bitrate", videoBitrate); obs_data_set_int(audioSettings, "bitrate", audioBitrate); } video_t *video = obs_get_video(); enum video_format format = video_output_get_format(video); switch (format) { case VIDEO_FORMAT_I420: case VIDEO_FORMAT_NV12: case VIDEO_FORMAT_I010: case VIDEO_FORMAT_P010: break; default: obs_encoder_set_preferred_video_format(videoStreaming, VIDEO_FORMAT_NV12); } obs_encoder_update(videoStreaming, videoSettings); obs_encoder_update(audioStreaming, audioSettings); obs_encoder_update(audioArchive, audioSettings); } void SimpleOutput::UpdateRecordingAudioSettings() { OBSDataAutoRelease settings = obs_data_create(); obs_data_set_int(settings, "bitrate", 192); obs_data_set_string(settings, "rate_control", "CBR"); int tracks = config_get_int(main->Config(), "SimpleOutput", "RecTracks"); const char *recFormat = config_get_string(main->Config(), "SimpleOutput", "RecFormat2"); const char *quality = config_get_string(main->Config(), "SimpleOutput", "RecQuality"); bool flv = strcmp(recFormat, "flv") == 0; if (flv || strcmp(quality, "Stream") == 0) { obs_encoder_update(audioRecording, settings); } else { for (int i = 0; i < MAX_AUDIO_MIXES; i++) { if ((tracks & (1 << i)) != 0) { obs_encoder_update(audioTrack[i], settings); } } } } #define CROSS_DIST_CUTOFF 2000.0 int SimpleOutput::CalcCRF(int crf) { int cx = config_get_uint(main->Config(), "Video", "OutputCX"); int cy = config_get_uint(main->Config(), "Video", "OutputCY"); double fCX = double(cx); double fCY = double(cy); if (lowCPUx264) crf -= 2; double crossDist = sqrt(fCX * fCX + fCY * fCY); double crfResReduction = fmin(CROSS_DIST_CUTOFF, crossDist) / CROSS_DIST_CUTOFF; crfResReduction = (1.0 - crfResReduction) * 10.0; return crf - int(crfResReduction); } void SimpleOutput::UpdateRecordingSettings_x264_crf(int crf) { OBSDataAutoRelease settings = obs_data_create(); obs_data_set_int(settings, "crf", crf); obs_data_set_bool(settings, "use_bufsize", true); obs_data_set_string(settings, "rate_control", "CRF"); obs_data_set_string(settings, "profile", "high"); obs_data_set_string(settings, "preset", lowCPUx264 ? "ultrafast" : "veryfast"); obs_encoder_update(videoRecording, settings); } static bool icq_available(obs_encoder_t *encoder) { obs_properties_t *props = obs_encoder_properties(encoder); obs_property_t *p = obs_properties_get(props, "rate_control"); bool icq_found = false; size_t num = obs_property_list_item_count(p); for (size_t i = 0; i < num; i++) { const char *val = obs_property_list_item_string(p, i); if (strcmp(val, "ICQ") == 0) { icq_found = true; break; } } obs_properties_destroy(props); return icq_found; } void SimpleOutput::UpdateRecordingSettings_qsv11(int crf, bool av1) { bool icq = icq_available(videoRecording); OBSDataAutoRelease settings = obs_data_create(); obs_data_set_string(settings, "profile", "high"); if (icq && !av1) { obs_data_set_string(settings, "rate_control", "ICQ"); obs_data_set_int(settings, "icq_quality", crf); } else { obs_data_set_string(settings, "rate_control", "CQP"); obs_data_set_int(settings, "cqp", crf); } obs_encoder_update(videoRecording, settings); } void SimpleOutput::UpdateRecordingSettings_nvenc(int cqp) { OBSDataAutoRelease settings = obs_data_create(); obs_data_set_string(settings, "rate_control", "CQP"); obs_data_set_string(settings, "profile", "high"); obs_data_set_int(settings, "cqp", cqp); obs_encoder_update(videoRecording, settings); } void SimpleOutput::UpdateRecordingSettings_nvenc_hevc_av1(int cqp) { OBSDataAutoRelease settings = obs_data_create(); obs_data_set_string(settings, "rate_control", "CQP"); obs_data_set_string(settings, "profile", "main"); obs_data_set_int(settings, "cqp", cqp); obs_encoder_update(videoRecording, settings); } void SimpleOutput::UpdateRecordingSettings_apple(int quality) { OBSDataAutoRelease settings = obs_data_create(); obs_data_set_string(settings, "rate_control", "CRF"); obs_data_set_string(settings, "profile", "high"); obs_data_set_int(settings, "quality", quality); obs_encoder_update(videoRecording, settings); } #ifdef ENABLE_HEVC void SimpleOutput::UpdateRecordingSettings_apple_hevc(int quality) { OBSDataAutoRelease settings = obs_data_create(); obs_data_set_string(settings, "rate_control", "CRF"); obs_data_set_string(settings, "profile", "main"); obs_data_set_int(settings, "quality", quality); obs_encoder_update(videoRecording, settings); } #endif void SimpleOutput::UpdateRecordingSettings_amd_cqp(int cqp) { OBSDataAutoRelease settings = obs_data_create(); obs_data_set_string(settings, "rate_control", "CQP"); obs_data_set_string(settings, "profile", "high"); obs_data_set_string(settings, "preset", "quality"); obs_data_set_int(settings, "cqp", cqp); obs_encoder_update(videoRecording, settings); } void SimpleOutput::UpdateRecordingSettings() { bool ultra_hq = (videoQuality == "HQ"); int crf = CalcCRF(ultra_hq ? 16 : 23); if (astrcmp_n(videoEncoder.c_str(), "x264", 4) == 0) { UpdateRecordingSettings_x264_crf(crf); } else if (videoEncoder == SIMPLE_ENCODER_QSV) { UpdateRecordingSettings_qsv11(crf, false); } else if (videoEncoder == SIMPLE_ENCODER_QSV_AV1) { UpdateRecordingSettings_qsv11(crf, true); } else if (videoEncoder == SIMPLE_ENCODER_AMD) { UpdateRecordingSettings_amd_cqp(crf); #ifdef ENABLE_HEVC } else if (videoEncoder == SIMPLE_ENCODER_AMD_HEVC) { UpdateRecordingSettings_amd_cqp(crf); #endif } else if (videoEncoder == SIMPLE_ENCODER_NVENC) { UpdateRecordingSettings_nvenc(crf); #ifdef ENABLE_HEVC } else if (videoEncoder == SIMPLE_ENCODER_NVENC_HEVC) { UpdateRecordingSettings_nvenc_hevc_av1(crf); #endif } else if (videoEncoder == SIMPLE_ENCODER_NVENC_AV1) { UpdateRecordingSettings_nvenc_hevc_av1(crf); } else if (videoEncoder == SIMPLE_ENCODER_APPLE_H264) { /* These are magic numbers. 0 - 100, more is better. */ UpdateRecordingSettings_apple(ultra_hq ? 70 : 50); #ifdef ENABLE_HEVC } else if (videoEncoder == SIMPLE_ENCODER_APPLE_HEVC) { UpdateRecordingSettings_apple_hevc(ultra_hq ? 70 : 50); #endif } UpdateRecordingAudioSettings(); } inline void SimpleOutput::SetupOutputs() { SimpleOutput::Update(); obs_encoder_set_video(videoStreaming, obs_get_video()); obs_encoder_set_audio(audioStreaming, obs_get_audio()); obs_encoder_set_audio(audioArchive, obs_get_audio()); int tracks = config_get_int(main->Config(), "SimpleOutput", "RecTracks"); const char *recFormat = config_get_string(main->Config(), "SimpleOutput", "RecFormat2"); bool flv = strcmp(recFormat, "flv") == 0; if (usingRecordingPreset) { if (ffmpegOutput) { obs_output_set_media(fileOutput, obs_get_video(), obs_get_audio()); } else { obs_encoder_set_video(videoRecording, obs_get_video()); if (flv) { obs_encoder_set_audio(audioRecording, obs_get_audio()); } else { for (int i = 0; i < MAX_AUDIO_MIXES; i++) { if ((tracks & (1 << i)) != 0) { obs_encoder_set_audio( audioTrack[i], obs_get_audio()); } } } } } else { obs_encoder_set_audio(audioRecording, obs_get_audio()); } } const char *FindAudioEncoderFromCodec(const char *type) { const char *alt_enc_id = nullptr; size_t i = 0; while (obs_enum_encoder_types(i++, &alt_enc_id)) { const char *codec = obs_get_encoder_codec(alt_enc_id); if (strcmp(type, codec) == 0) { return alt_enc_id; } } return nullptr; } bool SimpleOutput::SetupStreaming(obs_service_t *service) { if (!Active()) SetupOutputs(); Auth *auth = main->GetAuth(); if (auth) auth->OnStreamConfig(); /* --------------------- */ const char *type = GetStreamOutputType(service); if (!type) return false; /* XXX: this is messy and disgusting and should be refactored */ if (outputType != type) { streamDelayStarting.Disconnect(); streamStopping.Disconnect(); startStreaming.Disconnect(); stopStreaming.Disconnect(); streamOutput = obs_output_create(type, "simple_stream", nullptr, nullptr); if (!streamOutput) { blog(LOG_WARNING, "Creation of stream output type '%s' " "failed!", type); return false; } streamDelayStarting.Connect( obs_output_get_signal_handler(streamOutput), "starting", OBSStreamStarting, this); streamStopping.Connect( obs_output_get_signal_handler(streamOutput), "stopping", OBSStreamStopping, this); startStreaming.Connect( obs_output_get_signal_handler(streamOutput), "start", OBSStartStreaming, this); stopStreaming.Connect( obs_output_get_signal_handler(streamOutput), "stop", OBSStopStreaming, this); outputType = type; } obs_output_set_video_encoder(streamOutput, videoStreaming); obs_output_set_audio_encoder(streamOutput, audioStreaming, 0); obs_output_set_service(streamOutput, service); return true; } static inline bool ServiceSupportsVodTrack(const char *service); static void clear_archive_encoder(obs_output_t *output, const char *expected_name) { obs_encoder_t *last = obs_output_get_audio_encoder(output, 1); bool clear = false; /* ensures that we don't remove twitch's soundtrack encoder */ if (last) { const char *name = obs_encoder_get_name(last); clear = name && strcmp(name, expected_name) == 0; obs_encoder_release(last); } if (clear) obs_output_set_audio_encoder(output, nullptr, 1); } void SimpleOutput::SetupVodTrack(obs_service_t *service) { bool advanced = config_get_bool(main->Config(), "SimpleOutput", "UseAdvanced"); bool enable = config_get_bool(main->Config(), "SimpleOutput", "VodTrackEnabled"); bool enableForCustomServer = config_get_bool( GetGlobalConfig(), "General", "EnableCustomServerVodTrack"); OBSDataAutoRelease settings = obs_service_get_settings(service); const char *name = obs_data_get_string(settings, "service"); const char *id = obs_service_get_id(service); if (strcmp(id, "rtmp_custom") == 0) enable = enableForCustomServer ? enable : false; else enable = advanced && enable && ServiceSupportsVodTrack(name); if (enable) obs_output_set_audio_encoder(streamOutput, audioArchive, 1); else clear_archive_encoder(streamOutput, SIMPLE_ARCHIVE_NAME); } bool SimpleOutput::StartStreaming(obs_service_t *service) { bool reconnect = config_get_bool(main->Config(), "Output", "Reconnect"); int retryDelay = config_get_uint(main->Config(), "Output", "RetryDelay"); int maxRetries = config_get_uint(main->Config(), "Output", "MaxRetries"); bool useDelay = config_get_bool(main->Config(), "Output", "DelayEnable"); int delaySec = config_get_int(main->Config(), "Output", "DelaySec"); bool preserveDelay = config_get_bool(main->Config(), "Output", "DelayPreserve"); const char *bindIP = config_get_string(main->Config(), "Output", "BindIP"); const char *ipFamily = config_get_string(main->Config(), "Output", "IPFamily"); #ifdef _WIN32 bool enableNewSocketLoop = config_get_bool(main->Config(), "Output", "NewSocketLoopEnable"); bool enableLowLatencyMode = config_get_bool(main->Config(), "Output", "LowLatencyEnable"); #endif bool enableDynBitrate = config_get_bool(main->Config(), "Output", "DynamicBitrate"); OBSDataAutoRelease settings = obs_data_create(); obs_data_set_string(settings, "bind_ip", bindIP); obs_data_set_string(settings, "ip_family", ipFamily); #ifdef _WIN32 obs_data_set_bool(settings, "new_socket_loop_enabled", enableNewSocketLoop); obs_data_set_bool(settings, "low_latency_mode_enabled", enableLowLatencyMode); #endif obs_data_set_bool(settings, "dyn_bitrate", enableDynBitrate); obs_output_update(streamOutput, settings); if (!reconnect) maxRetries = 0; obs_output_set_delay(streamOutput, useDelay ? delaySec : 0, preserveDelay ? OBS_OUTPUT_DELAY_PRESERVE : 0); obs_output_set_reconnect_settings(streamOutput, maxRetries, retryDelay); SetupVodTrack(service); if (obs_output_start(streamOutput)) { return true; } const char *error = obs_output_get_last_error(streamOutput); bool hasLastError = error && *error; if (hasLastError) lastError = error; else lastError = string(); const char *type = obs_output_get_id(streamOutput); blog(LOG_WARNING, "Stream output type '%s' failed to start!%s%s", type, hasLastError ? " Last Error: " : "", hasLastError ? error : ""); return false; } void SimpleOutput::UpdateRecording() { const char *recFormat = config_get_string(main->Config(), "SimpleOutput", "RecFormat2"); bool flv = strcmp(recFormat, "flv") == 0; int tracks = config_get_int(main->Config(), "SimpleOutput", "RecTracks"); int idx = 0; int idx2 = 0; const char *quality = config_get_string(main->Config(), "SimpleOutput", "RecQuality"); if (replayBufferActive || recordingActive) return; if (usingRecordingPreset) { if (!ffmpegOutput) UpdateRecordingSettings(); } else if (!obs_output_active(streamOutput)) { Update(); } if (!Active()) SetupOutputs(); if (!ffmpegOutput) { obs_output_set_video_encoder(fileOutput, videoRecording); if (flv || strcmp(quality, "Stream") == 0) { obs_output_set_audio_encoder(fileOutput, audioRecording, 0); } else { for (int i = 0; i < MAX_AUDIO_MIXES; i++) { if ((tracks & (1 << i)) != 0) { obs_output_set_audio_encoder( fileOutput, audioTrack[i], idx++); } } } } if (replayBuffer) { obs_output_set_video_encoder(replayBuffer, videoRecording); if (flv || strcmp(quality, "Stream") == 0) { obs_output_set_audio_encoder(replayBuffer, audioRecording, 0); } else { for (int i = 0; i < MAX_AUDIO_MIXES; i++) { if ((tracks & (1 << i)) != 0) { obs_output_set_audio_encoder( replayBuffer, audioTrack[i], idx2++); } } } } recordingConfigured = true; } bool SimpleOutput::ConfigureRecording(bool updateReplayBuffer) { const char *path = config_get_string(main->Config(), "SimpleOutput", "FilePath"); const char *format = config_get_string(main->Config(), "SimpleOutput", "RecFormat2"); const char *mux = config_get_string(main->Config(), "SimpleOutput", "MuxerCustom"); bool noSpace = config_get_bool(main->Config(), "SimpleOutput", "FileNameWithoutSpace"); const char *filenameFormat = config_get_string(main->Config(), "Output", "FilenameFormatting"); bool overwriteIfExists = config_get_bool(main->Config(), "Output", "OverwriteIfExists"); const char *rbPrefix = config_get_string(main->Config(), "SimpleOutput", "RecRBPrefix"); const char *rbSuffix = config_get_string(main->Config(), "SimpleOutput", "RecRBSuffix"); int rbTime = config_get_int(main->Config(), "SimpleOutput", "RecRBTime"); int rbSize = config_get_int(main->Config(), "SimpleOutput", "RecRBSize"); int tracks = config_get_int(main->Config(), "SimpleOutput", "RecTracks"); bool is_fragmented = strncmp(format, "fragmented", 10) == 0; bool is_lossless = videoQuality == "Lossless"; string f; OBSDataAutoRelease settings = obs_data_create(); if (updateReplayBuffer) { f = GetFormatString(filenameFormat, rbPrefix, rbSuffix); string ext = GetFormatExt(format); obs_data_set_string(settings, "directory", path); obs_data_set_string(settings, "format", f.c_str()); obs_data_set_string(settings, "extension", ext.c_str()); obs_data_set_bool(settings, "allow_spaces", !noSpace); obs_data_set_int(settings, "max_time_sec", rbTime); obs_data_set_int(settings, "max_size_mb", usingRecordingPreset ? rbSize : 0); } else { f = GetFormatString(filenameFormat, nullptr, nullptr); string strPath = GetRecordingFilename( path, ffmpegOutput ? "avi" : format, noSpace, overwriteIfExists, f.c_str(), ffmpegOutput); obs_data_set_string(settings, ffmpegOutput ? "url" : "path", strPath.c_str()); if (ffmpegOutput) obs_output_set_mixers(fileOutput, tracks); } // Use fragmented MOV/MP4 if user has not already specified custom movflags if (is_fragmented && !is_lossless && (!mux || strstr(mux, "movflags") == NULL)) { string mux_frag = "movflags=frag_keyframe+empty_moov+delay_moov"; if (mux) { mux_frag += " "; mux_frag += mux; } obs_data_set_string(settings, "muxer_settings", mux_frag.c_str()); } else { if (is_fragmented && !is_lossless) blog(LOG_WARNING, "User enabled fragmented recording, " "but custom muxer settings contained movflags."); obs_data_set_string(settings, "muxer_settings", mux); } if (updateReplayBuffer) obs_output_update(replayBuffer, settings); else obs_output_update(fileOutput, settings); return true; } bool SimpleOutput::StartRecording() { UpdateRecording(); if (!ConfigureRecording(false)) return false; if (!obs_output_start(fileOutput)) { QString error_reason; const char *error = obs_output_get_last_error(fileOutput); if (error) error_reason = QT_UTF8(error); else error_reason = QTStr("Output.StartFailedGeneric"); QMessageBox::critical(main, QTStr("Output.StartRecordingFailed"), error_reason); return false; } return true; } bool SimpleOutput::StartReplayBuffer() { UpdateRecording(); if (!ConfigureRecording(true)) return false; if (!obs_output_start(replayBuffer)) { QMessageBox::critical(main, QTStr("Output.StartReplayFailed"), QTStr("Output.StartFailedGeneric")); return false; } return true; } void SimpleOutput::StopStreaming(bool force) { if (force) obs_output_force_stop(streamOutput); else obs_output_stop(streamOutput); } void SimpleOutput::StopRecording(bool force) { if (force) obs_output_force_stop(fileOutput); else obs_output_stop(fileOutput); } void SimpleOutput::StopReplayBuffer(bool force) { if (force) obs_output_force_stop(replayBuffer); else obs_output_stop(replayBuffer); } bool SimpleOutput::StreamingActive() const { return obs_output_active(streamOutput); } bool SimpleOutput::RecordingActive() const { return obs_output_active(fileOutput); } bool SimpleOutput::ReplayBufferActive() const { return obs_output_active(replayBuffer); } /* ------------------------------------------------------------------------ */ struct AdvancedOutput : BasicOutputHandler { OBSEncoder streamAudioEnc; OBSEncoder streamArchiveEnc; OBSEncoder recordTrack[MAX_AUDIO_MIXES]; OBSEncoder videoStreaming; OBSEncoder videoRecording; bool ffmpegOutput; bool ffmpegRecording; bool useStreamEncoder; bool useStreamAudioEncoder; bool usesBitrate = false; AdvancedOutput(OBSBasic *main_); inline void UpdateStreamSettings(); inline void UpdateRecordingSettings(); inline void UpdateAudioSettings(); virtual void Update() override; inline void SetupVodTrack(obs_service_t *service); inline void SetupStreaming(); inline void SetupRecording(); inline void SetupFFmpeg(); void SetupOutputs() override; int GetAudioBitrate(size_t i, const char *id) const; virtual bool SetupStreaming(obs_service_t *service) override; virtual bool StartStreaming(obs_service_t *service) override; virtual bool StartRecording() override; virtual bool StartReplayBuffer() override; virtual void StopStreaming(bool force) override; virtual void StopRecording(bool force) override; virtual void StopReplayBuffer(bool force) override; virtual bool StreamingActive() const override; virtual bool RecordingActive() const override; virtual bool ReplayBufferActive() const override; }; static OBSData GetDataFromJsonFile(const char *jsonFile) { char fullPath[512]; OBSDataAutoRelease data = nullptr; int ret = GetProfilePath(fullPath, sizeof(fullPath), jsonFile); if (ret > 0) { BPtr jsonData = os_quick_read_utf8_file(fullPath); if (!!jsonData) { data = obs_data_create_from_json(jsonData); } } if (!data) data = obs_data_create(); return data.Get(); } static void ApplyEncoderDefaults(OBSData &settings, const obs_encoder_t *encoder) { OBSData dataRet = obs_encoder_get_defaults(encoder); obs_data_release(dataRet); if (!!settings) obs_data_apply(dataRet, settings); settings = std::move(dataRet); } #define ADV_ARCHIVE_NAME "adv_archive_audio" #ifdef __APPLE__ static void translate_macvth264_encoder(const char *&encoder) { if (strcmp(encoder, "vt_h264_hw") == 0) { encoder = "com.apple.videotoolbox.videoencoder.h264.gva"; } else if (strcmp(encoder, "vt_h264_sw") == 0) { encoder = "com.apple.videotoolbox.videoencoder.h264"; } } #endif AdvancedOutput::AdvancedOutput(OBSBasic *main_) : BasicOutputHandler(main_) { const char *recType = config_get_string(main->Config(), "AdvOut", "RecType"); const char *streamEncoder = config_get_string(main->Config(), "AdvOut", "Encoder"); const char *streamAudioEncoder = config_get_string(main->Config(), "AdvOut", "AudioEncoder"); const char *recordEncoder = config_get_string(main->Config(), "AdvOut", "RecEncoder"); const char *recAudioEncoder = config_get_string(main->Config(), "AdvOut", "RecAudioEncoder"); #ifdef __APPLE__ translate_macvth264_encoder(streamEncoder); translate_macvth264_encoder(recordEncoder); #endif ffmpegOutput = astrcmpi(recType, "FFmpeg") == 0; ffmpegRecording = ffmpegOutput && config_get_bool(main->Config(), "AdvOut", "FFOutputToFile"); useStreamEncoder = astrcmpi(recordEncoder, "none") == 0; useStreamAudioEncoder = astrcmpi(recAudioEncoder, "none") == 0; OBSData streamEncSettings = GetDataFromJsonFile("streamEncoder.json"); OBSData recordEncSettings = GetDataFromJsonFile("recordEncoder.json"); if (ffmpegOutput) { fileOutput = obs_output_create( "ffmpeg_output", "adv_ffmpeg_output", nullptr, nullptr); if (!fileOutput) throw "Failed to create recording FFmpeg output " "(advanced output)"; } else { bool useReplayBuffer = config_get_bool(main->Config(), "AdvOut", "RecRB"); if (useReplayBuffer) { OBSDataAutoRelease hotkey; const char *str = config_get_string( main->Config(), "Hotkeys", "ReplayBuffer"); if (str) hotkey = obs_data_create_from_json(str); else hotkey = nullptr; replayBuffer = obs_output_create("replay_buffer", Str("ReplayBuffer"), nullptr, hotkey); if (!replayBuffer) throw "Failed to create replay buffer output " "(simple output)"; signal_handler_t *signal = obs_output_get_signal_handler(replayBuffer); startReplayBuffer.Connect(signal, "start", OBSStartReplayBuffer, this); stopReplayBuffer.Connect(signal, "stop", OBSStopReplayBuffer, this); replayBufferStopping.Connect(signal, "stopping", OBSReplayBufferStopping, this); replayBufferSaved.Connect(signal, "saved", OBSReplayBufferSaved, this); } fileOutput = obs_output_create( "ffmpeg_muxer", "adv_file_output", nullptr, nullptr); if (!fileOutput) throw "Failed to create recording output " "(advanced output)"; if (!useStreamEncoder) { videoRecording = obs_video_encoder_create( recordEncoder, "advanced_video_recording", recordEncSettings, nullptr); if (!videoRecording) throw "Failed to create recording video " "encoder (advanced output)"; obs_encoder_release(videoRecording); } } videoStreaming = obs_video_encoder_create(streamEncoder, "advanced_video_stream", streamEncSettings, nullptr); if (!videoStreaming) throw "Failed to create streaming video encoder " "(advanced output)"; obs_encoder_release(videoStreaming); const char *rate_control = obs_data_get_string( useStreamEncoder ? streamEncSettings : recordEncSettings, "rate_control"); if (!rate_control) rate_control = ""; usesBitrate = astrcmpi(rate_control, "CBR") == 0 || astrcmpi(rate_control, "VBR") == 0 || astrcmpi(rate_control, "ABR") == 0; for (int i = 0; i < MAX_AUDIO_MIXES; i++) { char name[19]; snprintf(name, sizeof(name), "adv_record_audio_%d", i); recordTrack[i] = obs_audio_encoder_create( useStreamAudioEncoder ? streamAudioEncoder : recAudioEncoder, name, nullptr, i, nullptr); if (!recordTrack[i]) { throw "Failed to create audio encoder " "(advanced output)"; } obs_encoder_release(recordTrack[i]); } std::string id; int streamTrack = config_get_int(main->Config(), "AdvOut", "TrackIndex") - 1; streamAudioEnc = obs_audio_encoder_create(streamAudioEncoder, "adv_stream_audio", nullptr, streamTrack, nullptr); if (!streamAudioEnc) throw "Failed to create streaming audio encoder " "(advanced output)"; obs_encoder_release(streamAudioEnc); id = ""; int vodTrack = config_get_int(main->Config(), "AdvOut", "VodTrackIndex") - 1; streamArchiveEnc = obs_audio_encoder_create(streamAudioEncoder, ADV_ARCHIVE_NAME, nullptr, vodTrack, nullptr); if (!streamArchiveEnc) throw "Failed to create archive audio encoder " "(advanced output)"; obs_encoder_release(streamArchiveEnc); startRecording.Connect(obs_output_get_signal_handler(fileOutput), "start", OBSStartRecording, this); stopRecording.Connect(obs_output_get_signal_handler(fileOutput), "stop", OBSStopRecording, this); recordStopping.Connect(obs_output_get_signal_handler(fileOutput), "stopping", OBSRecordStopping, this); recordFileChanged.Connect(obs_output_get_signal_handler(fileOutput), "file_changed", OBSRecordFileChanged, this); } void AdvancedOutput::UpdateStreamSettings() { bool applyServiceSettings = config_get_bool(main->Config(), "AdvOut", "ApplyServiceSettings"); bool enforceBitrate = !config_get_bool(main->Config(), "Stream1", "IgnoreRecommended"); bool dynBitrate = config_get_bool(main->Config(), "Output", "DynamicBitrate"); const char *streamEncoder = config_get_string(main->Config(), "AdvOut", "Encoder"); OBSData settings = GetDataFromJsonFile("streamEncoder.json"); ApplyEncoderDefaults(settings, videoStreaming); if (applyServiceSettings) { int bitrate = (int)obs_data_get_int(settings, "bitrate"); int keyint_sec = (int)obs_data_get_int(settings, "keyint_sec"); obs_service_apply_encoder_settings(main->GetService(), settings, nullptr); if (!enforceBitrate) obs_data_set_int(settings, "bitrate", bitrate); int enforced_keyint_sec = (int)obs_data_get_int(settings, "keyint_sec"); if (keyint_sec != 0 && keyint_sec < enforced_keyint_sec) obs_data_set_int(settings, "keyint_sec", keyint_sec); } if (dynBitrate && astrcmpi(streamEncoder, "jim_nvenc") == 0) obs_data_set_bool(settings, "lookahead", false); video_t *video = obs_get_video(); enum video_format format = video_output_get_format(video); switch (format) { case VIDEO_FORMAT_I420: case VIDEO_FORMAT_NV12: case VIDEO_FORMAT_I010: case VIDEO_FORMAT_P010: break; default: obs_encoder_set_preferred_video_format(videoStreaming, VIDEO_FORMAT_NV12); } obs_encoder_update(videoStreaming, settings); } inline void AdvancedOutput::UpdateRecordingSettings() { OBSData settings = GetDataFromJsonFile("recordEncoder.json"); obs_encoder_update(videoRecording, settings); } void AdvancedOutput::Update() { UpdateStreamSettings(); if (!useStreamEncoder && !ffmpegOutput) UpdateRecordingSettings(); UpdateAudioSettings(); } static inline bool ServiceSupportsVodTrack(const char *service) { static const char *vodTrackServices[] = {"Twitch"}; for (const char *vodTrackService : vodTrackServices) { if (astrcmpi(vodTrackService, service) == 0) return true; } return false; } inline void AdvancedOutput::SetupStreaming() { bool rescale = config_get_bool(main->Config(), "AdvOut", "Rescale"); const char *rescaleRes = config_get_string(main->Config(), "AdvOut", "RescaleRes"); unsigned int cx = 0; unsigned int cy = 0; if (rescale && rescaleRes && *rescaleRes) { if (sscanf(rescaleRes, "%ux%u", &cx, &cy) != 2) { cx = 0; cy = 0; } } obs_output_set_audio_encoder(streamOutput, streamAudioEnc, 0); obs_encoder_set_scaled_size(videoStreaming, cx, cy); const char *id = obs_service_get_id(main->GetService()); if (strcmp(id, "rtmp_custom") == 0) { OBSDataAutoRelease settings = obs_data_create(); obs_service_apply_encoder_settings(main->GetService(), settings, nullptr); obs_encoder_update(videoStreaming, settings); } } inline void AdvancedOutput::SetupRecording() { const char *path = config_get_string(main->Config(), "AdvOut", "RecFilePath"); const char *mux = config_get_string(main->Config(), "AdvOut", "RecMuxerCustom"); bool rescale = config_get_bool(main->Config(), "AdvOut", "RecRescale"); const char *rescaleRes = config_get_string(main->Config(), "AdvOut", "RecRescaleRes"); int tracks; const char *recFormat = config_get_string(main->Config(), "AdvOut", "RecFormat2"); bool is_fragmented = strncmp(recFormat, "fragmented", 10) == 0; bool flv = strcmp(recFormat, "flv") == 0; if (flv) tracks = config_get_int(main->Config(), "AdvOut", "FLVTrack"); else tracks = config_get_int(main->Config(), "AdvOut", "RecTracks"); OBSDataAutoRelease settings = obs_data_create(); unsigned int cx = 0; unsigned int cy = 0; int idx = 0; /* Hack to allow recordings without any audio tracks selected. It is no * longer possible to select such a configuration in settings, but legacy * configurations might still have this configured and we don't want to * just break them. */ if (tracks == 0) tracks = config_get_int(main->Config(), "AdvOut", "TrackIndex"); if (useStreamEncoder) { obs_output_set_video_encoder(fileOutput, videoStreaming); if (replayBuffer) obs_output_set_video_encoder(replayBuffer, videoStreaming); } else { if (rescale && rescaleRes && *rescaleRes) { if (sscanf(rescaleRes, "%ux%u", &cx, &cy) != 2) { cx = 0; cy = 0; } } obs_encoder_set_scaled_size(videoRecording, cx, cy); obs_output_set_video_encoder(fileOutput, videoRecording); if (replayBuffer) obs_output_set_video_encoder(replayBuffer, videoRecording); } if (!flv) { for (int i = 0; i < MAX_AUDIO_MIXES; i++) { if ((tracks & (1 << i)) != 0) { obs_output_set_audio_encoder( fileOutput, recordTrack[i], idx); if (replayBuffer) obs_output_set_audio_encoder( replayBuffer, recordTrack[i], idx); idx++; } } } else if (flv && tracks != 0) { obs_output_set_audio_encoder(fileOutput, recordTrack[tracks - 1], idx); if (replayBuffer) obs_output_set_audio_encoder( replayBuffer, recordTrack[tracks - 1], idx); } // Use fragmented MOV/MP4 if user has not already specified custom movflags if (is_fragmented && (!mux || strstr(mux, "movflags") == NULL)) { string mux_frag = "movflags=frag_keyframe+empty_moov+delay_moov"; if (mux) { mux_frag += " "; mux_frag += mux; } obs_data_set_string(settings, "muxer_settings", mux_frag.c_str()); } else { if (is_fragmented) blog(LOG_WARNING, "User enabled fragmented recording, " "but custom muxer settings contained movflags."); obs_data_set_string(settings, "muxer_settings", mux); } obs_data_set_string(settings, "path", path); obs_output_update(fileOutput, settings); if (replayBuffer) obs_output_update(replayBuffer, settings); } inline void AdvancedOutput::SetupFFmpeg() { const char *url = config_get_string(main->Config(), "AdvOut", "FFURL"); int vBitrate = config_get_int(main->Config(), "AdvOut", "FFVBitrate"); int gopSize = config_get_int(main->Config(), "AdvOut", "FFVGOPSize"); bool rescale = config_get_bool(main->Config(), "AdvOut", "FFRescale"); const char *rescaleRes = config_get_string(main->Config(), "AdvOut", "FFRescaleRes"); const char *formatName = config_get_string(main->Config(), "AdvOut", "FFFormat"); const char *mimeType = config_get_string(main->Config(), "AdvOut", "FFFormatMimeType"); const char *muxCustom = config_get_string(main->Config(), "AdvOut", "FFMCustom"); const char *vEncoder = config_get_string(main->Config(), "AdvOut", "FFVEncoder"); int vEncoderId = config_get_int(main->Config(), "AdvOut", "FFVEncoderId"); const char *vEncCustom = config_get_string(main->Config(), "AdvOut", "FFVCustom"); int aBitrate = config_get_int(main->Config(), "AdvOut", "FFABitrate"); int aMixes = config_get_int(main->Config(), "AdvOut", "FFAudioMixes"); const char *aEncoder = config_get_string(main->Config(), "AdvOut", "FFAEncoder"); int aEncoderId = config_get_int(main->Config(), "AdvOut", "FFAEncoderId"); const char *aEncCustom = config_get_string(main->Config(), "AdvOut", "FFACustom"); OBSDataAutoRelease settings = obs_data_create(); obs_data_set_string(settings, "url", url); obs_data_set_string(settings, "format_name", formatName); obs_data_set_string(settings, "format_mime_type", mimeType); obs_data_set_string(settings, "muxer_settings", muxCustom); obs_data_set_int(settings, "gop_size", gopSize); obs_data_set_int(settings, "video_bitrate", vBitrate); obs_data_set_string(settings, "video_encoder", vEncoder); obs_data_set_int(settings, "video_encoder_id", vEncoderId); obs_data_set_string(settings, "video_settings", vEncCustom); obs_data_set_int(settings, "audio_bitrate", aBitrate); obs_data_set_string(settings, "audio_encoder", aEncoder); obs_data_set_int(settings, "audio_encoder_id", aEncoderId); obs_data_set_string(settings, "audio_settings", aEncCustom); if (rescale && rescaleRes && *rescaleRes) { int width; int height; int val = sscanf(rescaleRes, "%dx%d", &width, &height); if (val == 2 && width && height) { obs_data_set_int(settings, "scale_width", width); obs_data_set_int(settings, "scale_height", height); } } obs_output_set_mixers(fileOutput, aMixes); obs_output_set_media(fileOutput, obs_get_video(), obs_get_audio()); obs_output_update(fileOutput, settings); } static inline void SetEncoderName(obs_encoder_t *encoder, const char *name, const char *defaultName) { obs_encoder_set_name(encoder, (name && *name) ? name : defaultName); } inline void AdvancedOutput::UpdateAudioSettings() { bool applyServiceSettings = config_get_bool(main->Config(), "AdvOut", "ApplyServiceSettings"); bool enforceBitrate = !config_get_bool(main->Config(), "Stream1", "IgnoreRecommended"); int streamTrackIndex = config_get_int(main->Config(), "AdvOut", "TrackIndex"); int vodTrackIndex = config_get_int(main->Config(), "AdvOut", "VodTrackIndex"); const char *audioEncoder = config_get_string(main->Config(), "AdvOut", "AudioEncoder"); const char *recAudioEncoder = config_get_string(main->Config(), "AdvOut", "RecAudioEncoder"); OBSDataAutoRelease settings[MAX_AUDIO_MIXES]; for (size_t i = 0; i < MAX_AUDIO_MIXES; i++) { string cfg_name = "Track"; cfg_name += to_string((int)i + 1); cfg_name += "Name"; const char *name = config_get_string(main->Config(), "AdvOut", cfg_name.c_str()); string def_name = "Track"; def_name += to_string((int)i + 1); SetEncoderName(recordTrack[i], name, def_name.c_str()); } for (size_t i = 0; i < MAX_AUDIO_MIXES; i++) { int track = (int)(i + 1); settings[i] = obs_data_create(); obs_data_set_int(settings[i], "bitrate", GetAudioBitrate(i, recAudioEncoder)); obs_encoder_update(recordTrack[i], settings[i]); obs_data_set_int(settings[i], "bitrate", GetAudioBitrate(i, audioEncoder)); if (track == streamTrackIndex || track == vodTrackIndex) { if (applyServiceSettings) { int bitrate = (int)obs_data_get_int(settings[i], "bitrate"); obs_service_apply_encoder_settings( main->GetService(), nullptr, settings[i]); if (!enforceBitrate) obs_data_set_int(settings[i], "bitrate", bitrate); } } if (track == streamTrackIndex) obs_encoder_update(streamAudioEnc, settings[i]); if (track == vodTrackIndex) obs_encoder_update(streamArchiveEnc, settings[i]); } } void AdvancedOutput::SetupOutputs() { obs_encoder_set_video(videoStreaming, obs_get_video()); if (videoRecording) obs_encoder_set_video(videoRecording, obs_get_video()); for (size_t i = 0; i < MAX_AUDIO_MIXES; i++) obs_encoder_set_audio(recordTrack[i], obs_get_audio()); obs_encoder_set_audio(streamAudioEnc, obs_get_audio()); obs_encoder_set_audio(streamArchiveEnc, obs_get_audio()); SetupStreaming(); if (ffmpegOutput) SetupFFmpeg(); else SetupRecording(); } int AdvancedOutput::GetAudioBitrate(size_t i, const char *id) const { static const char *names[] = { "Track1Bitrate", "Track2Bitrate", "Track3Bitrate", "Track4Bitrate", "Track5Bitrate", "Track6Bitrate", }; int bitrate = (int)config_get_uint(main->Config(), "AdvOut", names[i]); return FindClosestAvailableAudioBitrate(id, bitrate); } inline void AdvancedOutput::SetupVodTrack(obs_service_t *service) { int streamTrack = config_get_int(main->Config(), "AdvOut", "TrackIndex"); bool vodTrackEnabled = config_get_bool(main->Config(), "AdvOut", "VodTrackEnabled"); int vodTrackIndex = config_get_int(main->Config(), "AdvOut", "VodTrackIndex"); bool enableForCustomServer = config_get_bool( GetGlobalConfig(), "General", "EnableCustomServerVodTrack"); const char *id = obs_service_get_id(service); if (strcmp(id, "rtmp_custom") == 0) { vodTrackEnabled = enableForCustomServer ? vodTrackEnabled : false; } else { OBSDataAutoRelease settings = obs_service_get_settings(service); const char *service = obs_data_get_string(settings, "service"); if (!ServiceSupportsVodTrack(service)) vodTrackEnabled = false; } if (vodTrackEnabled && streamTrack != vodTrackIndex) obs_output_set_audio_encoder(streamOutput, streamArchiveEnc, 1); else clear_archive_encoder(streamOutput, ADV_ARCHIVE_NAME); } bool AdvancedOutput::SetupStreaming(obs_service_t *service) { if (!useStreamEncoder || (!ffmpegOutput && !obs_output_active(fileOutput))) { UpdateStreamSettings(); } UpdateAudioSettings(); if (!Active()) SetupOutputs(); Auth *auth = main->GetAuth(); if (auth) auth->OnStreamConfig(); /* --------------------- */ const char *type = GetStreamOutputType(service); if (!type) return false; /* XXX: this is messy and disgusting and should be refactored */ if (outputType != type) { streamDelayStarting.Disconnect(); streamStopping.Disconnect(); startStreaming.Disconnect(); stopStreaming.Disconnect(); streamOutput = obs_output_create(type, "adv_stream", nullptr, nullptr); if (!streamOutput) { blog(LOG_WARNING, "Creation of stream output type '%s' " "failed!", type); return false; } streamDelayStarting.Connect( obs_output_get_signal_handler(streamOutput), "starting", OBSStreamStarting, this); streamStopping.Connect( obs_output_get_signal_handler(streamOutput), "stopping", OBSStreamStopping, this); startStreaming.Connect( obs_output_get_signal_handler(streamOutput), "start", OBSStartStreaming, this); stopStreaming.Connect( obs_output_get_signal_handler(streamOutput), "stop", OBSStopStreaming, this); outputType = type; } obs_output_set_video_encoder(streamOutput, videoStreaming); obs_output_set_audio_encoder(streamOutput, streamAudioEnc, 0); return true; } bool AdvancedOutput::StartStreaming(obs_service_t *service) { obs_output_set_service(streamOutput, service); bool reconnect = config_get_bool(main->Config(), "Output", "Reconnect"); int retryDelay = config_get_int(main->Config(), "Output", "RetryDelay"); int maxRetries = config_get_int(main->Config(), "Output", "MaxRetries"); bool useDelay = config_get_bool(main->Config(), "Output", "DelayEnable"); int delaySec = config_get_int(main->Config(), "Output", "DelaySec"); bool preserveDelay = config_get_bool(main->Config(), "Output", "DelayPreserve"); const char *bindIP = config_get_string(main->Config(), "Output", "BindIP"); const char *ipFamily = config_get_string(main->Config(), "Output", "IPFamily"); #ifdef _WIN32 bool enableNewSocketLoop = config_get_bool(main->Config(), "Output", "NewSocketLoopEnable"); bool enableLowLatencyMode = config_get_bool(main->Config(), "Output", "LowLatencyEnable"); #endif bool enableDynBitrate = config_get_bool(main->Config(), "Output", "DynamicBitrate"); OBSDataAutoRelease settings = obs_data_create(); obs_data_set_string(settings, "bind_ip", bindIP); obs_data_set_string(settings, "ip_family", ipFamily); #ifdef _WIN32 obs_data_set_bool(settings, "new_socket_loop_enabled", enableNewSocketLoop); obs_data_set_bool(settings, "low_latency_mode_enabled", enableLowLatencyMode); #endif obs_data_set_bool(settings, "dyn_bitrate", enableDynBitrate); obs_output_update(streamOutput, settings); if (!reconnect) maxRetries = 0; obs_output_set_delay(streamOutput, useDelay ? delaySec : 0, preserveDelay ? OBS_OUTPUT_DELAY_PRESERVE : 0); obs_output_set_reconnect_settings(streamOutput, maxRetries, retryDelay); SetupVodTrack(service); if (obs_output_start(streamOutput)) { return true; } const char *error = obs_output_get_last_error(streamOutput); bool hasLastError = error && *error; if (hasLastError) lastError = error; else lastError = string(); const char *type = obs_output_get_id(streamOutput); blog(LOG_WARNING, "Stream output type '%s' failed to start!%s%s", type, hasLastError ? " Last Error: " : "", hasLastError ? error : ""); return false; } bool AdvancedOutput::StartRecording() { const char *path; const char *recFormat; const char *filenameFormat; bool noSpace = false; bool overwriteIfExists = false; bool splitFile; const char *splitFileType; int splitFileTime; int splitFileSize; if (!useStreamEncoder) { if (!ffmpegOutput) { UpdateRecordingSettings(); } } else if (!obs_output_active(streamOutput)) { UpdateStreamSettings(); } UpdateAudioSettings(); if (!Active()) SetupOutputs(); if (!ffmpegOutput || ffmpegRecording) { path = config_get_string(main->Config(), "AdvOut", ffmpegRecording ? "FFFilePath" : "RecFilePath"); recFormat = config_get_string(main->Config(), "AdvOut", ffmpegRecording ? "FFExtension" : "RecFormat2"); filenameFormat = config_get_string(main->Config(), "Output", "FilenameFormatting"); overwriteIfExists = config_get_bool(main->Config(), "Output", "OverwriteIfExists"); noSpace = config_get_bool(main->Config(), "AdvOut", ffmpegRecording ? "FFFileNameWithoutSpace" : "RecFileNameWithoutSpace"); splitFile = config_get_bool(main->Config(), "AdvOut", "RecSplitFile"); string strPath = GetRecordingFilename(path, recFormat, noSpace, overwriteIfExists, filenameFormat, ffmpegRecording); OBSDataAutoRelease settings = obs_data_create(); obs_data_set_string(settings, ffmpegRecording ? "url" : "path", strPath.c_str()); if (splitFile) { splitFileType = config_get_string( main->Config(), "AdvOut", "RecSplitFileType"); splitFileTime = (astrcmpi(splitFileType, "Time") == 0) ? config_get_int(main->Config(), "AdvOut", "RecSplitFileTime") : 0; splitFileSize = (astrcmpi(splitFileType, "Size") == 0) ? config_get_int(main->Config(), "AdvOut", "RecSplitFileSize") : 0; string ext = GetFormatExt(recFormat); obs_data_set_string(settings, "directory", path); obs_data_set_string(settings, "format", filenameFormat); obs_data_set_string(settings, "extension", ext.c_str()); obs_data_set_bool(settings, "allow_spaces", !noSpace); obs_data_set_bool(settings, "allow_overwrite", overwriteIfExists); obs_data_set_bool(settings, "split_file", true); obs_data_set_int(settings, "max_time_sec", splitFileTime * 60); obs_data_set_int(settings, "max_size_mb", splitFileSize); } obs_output_update(fileOutput, settings); } if (!obs_output_start(fileOutput)) { QString error_reason; const char *error = obs_output_get_last_error(fileOutput); if (error) error_reason = QT_UTF8(error); else error_reason = QTStr("Output.StartFailedGeneric"); QMessageBox::critical(main, QTStr("Output.StartRecordingFailed"), error_reason); return false; } return true; } bool AdvancedOutput::StartReplayBuffer() { const char *path; const char *recFormat; const char *filenameFormat; bool noSpace = false; bool overwriteIfExists = false; const char *rbPrefix; const char *rbSuffix; int rbTime; int rbSize; if (!useStreamEncoder) { if (!ffmpegOutput) UpdateRecordingSettings(); } else if (!obs_output_active(streamOutput)) { UpdateStreamSettings(); } UpdateAudioSettings(); if (!Active()) SetupOutputs(); if (!ffmpegOutput || ffmpegRecording) { path = config_get_string(main->Config(), "AdvOut", ffmpegRecording ? "FFFilePath" : "RecFilePath"); recFormat = config_get_string(main->Config(), "AdvOut", ffmpegRecording ? "FFExtension" : "RecFormat2"); filenameFormat = config_get_string(main->Config(), "Output", "FilenameFormatting"); overwriteIfExists = config_get_bool(main->Config(), "Output", "OverwriteIfExists"); noSpace = config_get_bool(main->Config(), "AdvOut", ffmpegRecording ? "FFFileNameWithoutSpace" : "RecFileNameWithoutSpace"); rbPrefix = config_get_string(main->Config(), "SimpleOutput", "RecRBPrefix"); rbSuffix = config_get_string(main->Config(), "SimpleOutput", "RecRBSuffix"); rbTime = config_get_int(main->Config(), "AdvOut", "RecRBTime"); rbSize = config_get_int(main->Config(), "AdvOut", "RecRBSize"); string f = GetFormatString(filenameFormat, rbPrefix, rbSuffix); string ext = GetFormatExt(recFormat); OBSDataAutoRelease settings = obs_data_create(); obs_data_set_string(settings, "directory", path); obs_data_set_string(settings, "format", f.c_str()); obs_data_set_string(settings, "extension", ext.c_str()); obs_data_set_bool(settings, "allow_spaces", !noSpace); obs_data_set_int(settings, "max_time_sec", rbTime); obs_data_set_int(settings, "max_size_mb", usesBitrate ? 0 : rbSize); obs_output_update(replayBuffer, settings); } if (!obs_output_start(replayBuffer)) { QString error_reason; const char *error = obs_output_get_last_error(replayBuffer); if (error) error_reason = QT_UTF8(error); else error_reason = QTStr("Output.StartFailedGeneric"); QMessageBox::critical(main, QTStr("Output.StartReplayFailed"), error_reason); return false; } return true; } void AdvancedOutput::StopStreaming(bool force) { if (force) obs_output_force_stop(streamOutput); else obs_output_stop(streamOutput); } void AdvancedOutput::StopRecording(bool force) { if (force) obs_output_force_stop(fileOutput); else obs_output_stop(fileOutput); } void AdvancedOutput::StopReplayBuffer(bool force) { if (force) obs_output_force_stop(replayBuffer); else obs_output_stop(replayBuffer); } bool AdvancedOutput::StreamingActive() const { return obs_output_active(streamOutput); } bool AdvancedOutput::RecordingActive() const { return obs_output_active(fileOutput); } bool AdvancedOutput::ReplayBufferActive() const { return obs_output_active(replayBuffer); } /* ------------------------------------------------------------------------ */ void BasicOutputHandler::SetupAutoRemux(const char *&container) { bool autoRemux = config_get_bool(main->Config(), "Video", "AutoRemux"); if (autoRemux && strcmp(container, "mp4") == 0) container = "mkv"; } std::string BasicOutputHandler::GetRecordingFilename( const char *path, const char *container, bool noSpace, bool overwrite, const char *format, bool ffmpeg) { if (!ffmpeg) SetupAutoRemux(container); string dst = GetOutputFilename(path, container, noSpace, overwrite, format); lastRecordingPath = dst; return dst; } BasicOutputHandler *CreateSimpleOutputHandler(OBSBasic *main) { return new SimpleOutput(main); } BasicOutputHandler *CreateAdvancedOutputHandler(OBSBasic *main) { return new AdvancedOutput(main); }