/****************************************************************************** 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 "graphics/matrix4.h" #include "callback/calldata.h" #include "obs.h" #include "obs-internal.h" struct obs_core *obs = NULL; extern void add_default_module_paths(void); extern char *find_libobs_data_file(const char *file); static inline void make_video_info(struct video_output_info *vi, struct obs_video_info *ovi) { vi->name = "video"; vi->format = ovi->output_format; vi->fps_num = ovi->fps_num; vi->fps_den = ovi->fps_den; vi->width = ovi->output_width; vi->height = ovi->output_height; vi->range = ovi->range; vi->colorspace = ovi->colorspace; vi->cache_size = 6; } static inline void calc_gpu_conversion_sizes(const struct obs_video_info *ovi) { struct obs_core_video *video = &obs->video; video->conversion_needed = false; video->conversion_techs[0] = NULL; video->conversion_techs[1] = NULL; video->conversion_techs[2] = NULL; video->conversion_width_i = 0.f; switch ((uint32_t)ovi->output_format) { case VIDEO_FORMAT_I420: video->conversion_needed = true; video->conversion_techs[0] = "Planar_Y"; video->conversion_techs[1] = "Planar_U_Left"; video->conversion_techs[2] = "Planar_V_Left"; video->conversion_width_i = 1.f / (float)ovi->output_width; break; case VIDEO_FORMAT_NV12: video->conversion_needed = true; video->conversion_techs[0] = "NV12_Y"; video->conversion_techs[1] = "NV12_UV"; video->conversion_width_i = 1.f / (float)ovi->output_width; break; case VIDEO_FORMAT_I444: video->conversion_needed = true; video->conversion_techs[0] = "Planar_Y"; video->conversion_techs[1] = "Planar_U"; video->conversion_techs[2] = "Planar_V"; break; } } static bool obs_init_gpu_conversion(struct obs_video_info *ovi) { struct obs_core_video *video = &obs->video; calc_gpu_conversion_sizes(ovi); video->using_nv12_tex = ovi->output_format == VIDEO_FORMAT_NV12 ? gs_nv12_available() : false; if (!video->conversion_needed) { blog(LOG_INFO, "GPU conversion not available for format: %u", (unsigned int)ovi->output_format); video->gpu_conversion = false; video->using_nv12_tex = false; blog(LOG_INFO, "NV12 texture support not available"); return true; } if (video->using_nv12_tex) blog(LOG_INFO, "NV12 texture support enabled"); else blog(LOG_INFO, "NV12 texture support not available"); #ifdef _WIN32 if (video->using_nv12_tex) { gs_texture_create_nv12(&video->convert_textures[0], &video->convert_textures[1], ovi->output_width, ovi->output_height, GS_RENDER_TARGET | GS_SHARED_KM_TEX); } else { #endif video->convert_textures[0] = gs_texture_create(ovi->output_width, ovi->output_height, GS_R8, 1, NULL, GS_RENDER_TARGET); const struct video_output_info *info = video_output_get_info(video->video); switch (info->format) { case VIDEO_FORMAT_I420: video->convert_textures[1] = gs_texture_create( ovi->output_width / 2, ovi->output_height / 2, GS_R8, 1, NULL, GS_RENDER_TARGET); video->convert_textures[2] = gs_texture_create( ovi->output_width / 2, ovi->output_height / 2, GS_R8, 1, NULL, GS_RENDER_TARGET); if (!video->convert_textures[2]) return false; break; case VIDEO_FORMAT_NV12: video->convert_textures[1] = gs_texture_create( ovi->output_width / 2, ovi->output_height / 2, GS_R8G8, 1, NULL, GS_RENDER_TARGET); break; case VIDEO_FORMAT_I444: video->convert_textures[1] = gs_texture_create( ovi->output_width, ovi->output_height, GS_R8, 1, NULL, GS_RENDER_TARGET); video->convert_textures[2] = gs_texture_create( ovi->output_width, ovi->output_height, GS_R8, 1, NULL, GS_RENDER_TARGET); if (!video->convert_textures[2]) return false; break; } #ifdef _WIN32 } #endif if (!video->convert_textures[0]) return false; if (!video->convert_textures[1]) return false; return true; } static bool obs_init_gpu_copy_surfaces(struct obs_video_info *ovi, size_t i) { struct obs_core_video *video = &obs->video; video->copy_surfaces[i][0] = gs_stagesurface_create( ovi->output_width, ovi->output_height, GS_R8); if (!video->copy_surfaces[i][0]) return false; const struct video_output_info *info = video_output_get_info(video->video); switch (info->format) { case VIDEO_FORMAT_I420: video->copy_surfaces[i][1] = gs_stagesurface_create( ovi->output_width / 2, ovi->output_height / 2, GS_R8); if (!video->copy_surfaces[i][1]) return false; video->copy_surfaces[i][2] = gs_stagesurface_create( ovi->output_width / 2, ovi->output_height / 2, GS_R8); if (!video->copy_surfaces[i][2]) return false; break; case VIDEO_FORMAT_NV12: video->copy_surfaces[i][1] = gs_stagesurface_create( ovi->output_width / 2, ovi->output_height / 2, GS_R8G8); if (!video->copy_surfaces[i][1]) return false; break; case VIDEO_FORMAT_I444: video->copy_surfaces[i][1] = gs_stagesurface_create( ovi->output_width, ovi->output_height, GS_R8); if (!video->copy_surfaces[i][1]) return false; video->copy_surfaces[i][2] = gs_stagesurface_create( ovi->output_width, ovi->output_height, GS_R8); if (!video->copy_surfaces[i][2]) return false; break; } return true; } static bool obs_init_textures(struct obs_video_info *ovi) { struct obs_core_video *video = &obs->video; for (size_t i = 0; i < NUM_TEXTURES; i++) { #ifdef _WIN32 if (video->using_nv12_tex) { video->copy_surfaces[i][0] = gs_stagesurface_create_nv12(ovi->output_width, ovi->output_height); if (!video->copy_surfaces[i][0]) return false; } else { #endif if (video->gpu_conversion) { if (!obs_init_gpu_copy_surfaces(ovi, i)) return false; } else { video->copy_surfaces[i][0] = gs_stagesurface_create( ovi->output_width, ovi->output_height, GS_RGBA); if (!video->copy_surfaces[i][0]) return false; } #ifdef _WIN32 } #endif } video->render_texture = gs_texture_create(ovi->base_width, ovi->base_height, GS_RGBA, 1, NULL, GS_RENDER_TARGET); if (!video->render_texture) return false; video->output_texture = gs_texture_create(ovi->output_width, ovi->output_height, GS_RGBA, 1, NULL, GS_RENDER_TARGET); if (!video->output_texture) return false; return true; } gs_effect_t *obs_load_effect(gs_effect_t **effect, const char *file) { if (!*effect) { char *filename = obs_find_data_file(file); *effect = gs_effect_create_from_file(filename, NULL); bfree(filename); } return *effect; } static int obs_init_graphics(struct obs_video_info *ovi) { struct obs_core_video *video = &obs->video; uint8_t transparent_tex_data[2 * 2 * 4] = {0}; const uint8_t *transparent_tex = transparent_tex_data; struct gs_sampler_info point_sampler = {0}; bool success = true; int errorcode; errorcode = gs_create(&video->graphics, ovi->graphics_module, ovi->adapter); if (errorcode != GS_SUCCESS) { switch (errorcode) { case GS_ERROR_MODULE_NOT_FOUND: return OBS_VIDEO_MODULE_NOT_FOUND; case GS_ERROR_NOT_SUPPORTED: return OBS_VIDEO_NOT_SUPPORTED; default: return OBS_VIDEO_FAIL; } } gs_enter_context(video->graphics); char *filename = obs_find_data_file("default.effect"); video->default_effect = gs_effect_create_from_file(filename, NULL); bfree(filename); if (gs_get_device_type() == GS_DEVICE_OPENGL) { filename = obs_find_data_file("default_rect.effect"); video->default_rect_effect = gs_effect_create_from_file(filename, NULL); bfree(filename); } filename = obs_find_data_file("opaque.effect"); video->opaque_effect = gs_effect_create_from_file(filename, NULL); bfree(filename); filename = obs_find_data_file("solid.effect"); video->solid_effect = gs_effect_create_from_file(filename, NULL); bfree(filename); filename = obs_find_data_file("repeat.effect"); video->repeat_effect = gs_effect_create_from_file(filename, NULL); bfree(filename); filename = obs_find_data_file("format_conversion.effect"); video->conversion_effect = gs_effect_create_from_file(filename, NULL); bfree(filename); filename = obs_find_data_file("bicubic_scale.effect"); video->bicubic_effect = gs_effect_create_from_file(filename, NULL); bfree(filename); filename = obs_find_data_file("lanczos_scale.effect"); video->lanczos_effect = gs_effect_create_from_file(filename, NULL); bfree(filename); filename = obs_find_data_file("area.effect"); video->area_effect = gs_effect_create_from_file(filename, NULL); bfree(filename); filename = obs_find_data_file("bilinear_lowres_scale.effect"); video->bilinear_lowres_effect = gs_effect_create_from_file(filename, NULL); bfree(filename); filename = obs_find_data_file("premultiplied_alpha.effect"); video->premultiplied_alpha_effect = gs_effect_create_from_file(filename, NULL); bfree(filename); point_sampler.max_anisotropy = 1; video->point_sampler = gs_samplerstate_create(&point_sampler); obs->video.transparent_texture = gs_texture_create(2, 2, GS_RGBA, 1, &transparent_tex, 0); if (!video->default_effect) success = false; if (gs_get_device_type() == GS_DEVICE_OPENGL) { if (!video->default_rect_effect) success = false; } if (!video->opaque_effect) success = false; if (!video->solid_effect) success = false; if (!video->conversion_effect) success = false; if (!video->premultiplied_alpha_effect) success = false; if (!video->transparent_texture) success = false; if (!video->point_sampler) success = false; gs_leave_context(); return success ? OBS_VIDEO_SUCCESS : OBS_VIDEO_FAIL; } static inline void set_video_matrix(struct obs_core_video *video, struct obs_video_info *ovi) { struct matrix4 mat; struct vec4 r_row; if (format_is_yuv(ovi->output_format)) { video_format_get_parameters(ovi->colorspace, ovi->range, (float *)&mat, NULL, NULL); matrix4_inv(&mat, &mat); /* swap R and G */ r_row = mat.x; mat.x = mat.y; mat.y = r_row; } else { matrix4_identity(&mat); } memcpy(video->color_matrix, &mat, sizeof(float) * 16); } static int obs_init_video(struct obs_video_info *ovi) { struct obs_core_video *video = &obs->video; struct video_output_info vi; pthread_mutexattr_t attr; int errorcode; make_video_info(&vi, ovi); video->base_width = ovi->base_width; video->base_height = ovi->base_height; video->output_width = ovi->output_width; video->output_height = ovi->output_height; video->gpu_conversion = ovi->gpu_conversion; video->scale_type = ovi->scale_type; set_video_matrix(video, ovi); errorcode = video_output_open(&video->video, &vi); if (errorcode != VIDEO_OUTPUT_SUCCESS) { if (errorcode == VIDEO_OUTPUT_INVALIDPARAM) { blog(LOG_ERROR, "Invalid video parameters specified"); return OBS_VIDEO_INVALID_PARAM; } else { blog(LOG_ERROR, "Could not open video output"); } return OBS_VIDEO_FAIL; } gs_enter_context(video->graphics); if (ovi->gpu_conversion && !obs_init_gpu_conversion(ovi)) return OBS_VIDEO_FAIL; if (!obs_init_textures(ovi)) return OBS_VIDEO_FAIL; gs_leave_context(); if (pthread_mutexattr_init(&attr) != 0) return OBS_VIDEO_FAIL; if (pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_RECURSIVE) != 0) return OBS_VIDEO_FAIL; if (pthread_mutex_init(&video->gpu_encoder_mutex, NULL) < 0) return OBS_VIDEO_FAIL; errorcode = pthread_create(&video->video_thread, NULL, obs_graphics_thread, obs); if (errorcode != 0) return OBS_VIDEO_FAIL; video->thread_initialized = true; video->ovi = *ovi; return OBS_VIDEO_SUCCESS; } static void stop_video(void) { struct obs_core_video *video = &obs->video; void *thread_retval; if (video->video) { video_output_stop(video->video); if (video->thread_initialized) { pthread_join(video->video_thread, &thread_retval); video->thread_initialized = false; } } } static void obs_free_video(void) { struct obs_core_video *video = &obs->video; if (video->video) { video_output_close(video->video); video->video = NULL; if (!video->graphics) return; gs_enter_context(video->graphics); for (size_t c = 0; c < NUM_CHANNELS; c++) { if (video->mapped_surfaces[c]) { gs_stagesurface_unmap( video->mapped_surfaces[c]); video->mapped_surfaces[c] = NULL; } } for (size_t i = 0; i < NUM_TEXTURES; i++) { for (size_t c = 0; c < NUM_CHANNELS; c++) { if (video->copy_surfaces[i][c]) { gs_stagesurface_destroy( video->copy_surfaces[i][c]); video->copy_surfaces[i][c] = NULL; } } } gs_texture_destroy(video->render_texture); for (size_t c = 0; c < NUM_CHANNELS; c++) { if (video->convert_textures[c]) { gs_texture_destroy(video->convert_textures[c]); video->convert_textures[c] = NULL; } } for (size_t i = 0; i < NUM_TEXTURES; i++) { for (size_t c = 0; c < NUM_CHANNELS; c++) { if (video->copy_surfaces[i][c]) { gs_stagesurface_destroy( video->copy_surfaces[i][c]); video->copy_surfaces[i][c] = NULL; } } } gs_texture_destroy(video->output_texture); video->render_texture = NULL; video->output_texture = NULL; gs_leave_context(); circlebuf_free(&video->vframe_info_buffer); circlebuf_free(&video->vframe_info_buffer_gpu); video->texture_rendered = false; ; memset(video->textures_copied, 0, sizeof(video->textures_copied)); video->texture_converted = false; ; pthread_mutex_destroy(&video->gpu_encoder_mutex); pthread_mutex_init_value(&video->gpu_encoder_mutex); da_free(video->gpu_encoders); video->gpu_encoder_active = 0; video->cur_texture = 0; } } static void obs_free_graphics(void) { struct obs_core_video *video = &obs->video; if (video->graphics) { gs_enter_context(video->graphics); gs_texture_destroy(video->transparent_texture); gs_samplerstate_destroy(video->point_sampler); gs_effect_destroy(video->default_effect); gs_effect_destroy(video->default_rect_effect); gs_effect_destroy(video->opaque_effect); gs_effect_destroy(video->solid_effect); gs_effect_destroy(video->conversion_effect); gs_effect_destroy(video->bicubic_effect); gs_effect_destroy(video->repeat_effect); gs_effect_destroy(video->lanczos_effect); gs_effect_destroy(video->area_effect); gs_effect_destroy(video->bilinear_lowres_effect); video->default_effect = NULL; gs_leave_context(); gs_destroy(video->graphics); video->graphics = NULL; } } static bool obs_init_audio(struct audio_output_info *ai) { struct obs_core_audio *audio = &obs->audio; int errorcode; pthread_mutexattr_t attr; pthread_mutex_init_value(&audio->monitoring_mutex); if (pthread_mutexattr_init(&attr) != 0) return false; if (pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_RECURSIVE) != 0) return false; if (pthread_mutex_init(&audio->monitoring_mutex, &attr) != 0) return false; audio->user_volume = 1.0f; audio->monitoring_device_name = bstrdup("Default"); audio->monitoring_device_id = bstrdup("default"); errorcode = audio_output_open(&audio->audio, ai); if (errorcode == AUDIO_OUTPUT_SUCCESS) return true; else if (errorcode == AUDIO_OUTPUT_INVALIDPARAM) blog(LOG_ERROR, "Invalid audio parameters specified"); else blog(LOG_ERROR, "Could not open audio output"); return false; } static void obs_free_audio(void) { struct obs_core_audio *audio = &obs->audio; if (audio->audio) audio_output_close(audio->audio); circlebuf_free(&audio->buffered_timestamps); da_free(audio->render_order); da_free(audio->root_nodes); da_free(audio->monitors); bfree(audio->monitoring_device_name); bfree(audio->monitoring_device_id); pthread_mutex_destroy(&audio->monitoring_mutex); memset(audio, 0, sizeof(struct obs_core_audio)); } static bool obs_init_data(void) { struct obs_core_data *data = &obs->data; pthread_mutexattr_t attr; assert(data != NULL); pthread_mutex_init_value(&obs->data.displays_mutex); pthread_mutex_init_value(&obs->data.draw_callbacks_mutex); if (pthread_mutexattr_init(&attr) != 0) return false; if (pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_RECURSIVE) != 0) goto fail; if (pthread_mutex_init(&data->sources_mutex, &attr) != 0) goto fail; if (pthread_mutex_init(&data->audio_sources_mutex, &attr) != 0) goto fail; if (pthread_mutex_init(&data->displays_mutex, &attr) != 0) goto fail; if (pthread_mutex_init(&data->outputs_mutex, &attr) != 0) goto fail; if (pthread_mutex_init(&data->encoders_mutex, &attr) != 0) goto fail; if (pthread_mutex_init(&data->services_mutex, &attr) != 0) goto fail; if (pthread_mutex_init(&obs->data.draw_callbacks_mutex, &attr) != 0) goto fail; if (!obs_view_init(&data->main_view)) goto fail; data->private_data = obs_data_create(); data->valid = true; fail: pthread_mutexattr_destroy(&attr); return data->valid; } void obs_main_view_free(struct obs_view *view) { if (!view) return; for (size_t i = 0; i < MAX_CHANNELS; i++) obs_source_release(view->channels[i]); memset(view->channels, 0, sizeof(view->channels)); pthread_mutex_destroy(&view->channels_mutex); } #define FREE_OBS_LINKED_LIST(type) \ do { \ int unfreed = 0; \ while (data->first_##type) { \ obs_##type##_destroy(data->first_##type); \ unfreed++; \ } \ if (unfreed) \ blog(LOG_INFO, "\t%d " #type "(s) were remaining", \ unfreed); \ } while (false) static void obs_free_data(void) { struct obs_core_data *data = &obs->data; data->valid = false; obs_main_view_free(&data->main_view); blog(LOG_INFO, "Freeing OBS context data"); FREE_OBS_LINKED_LIST(source); FREE_OBS_LINKED_LIST(output); FREE_OBS_LINKED_LIST(encoder); FREE_OBS_LINKED_LIST(display); FREE_OBS_LINKED_LIST(service); pthread_mutex_destroy(&data->sources_mutex); pthread_mutex_destroy(&data->audio_sources_mutex); pthread_mutex_destroy(&data->displays_mutex); pthread_mutex_destroy(&data->outputs_mutex); pthread_mutex_destroy(&data->encoders_mutex); pthread_mutex_destroy(&data->services_mutex); pthread_mutex_destroy(&data->draw_callbacks_mutex); da_free(data->draw_callbacks); da_free(data->tick_callbacks); obs_data_release(data->private_data); } static const char *obs_signals[] = { "void source_create(ptr source)", "void source_destroy(ptr source)", "void source_remove(ptr source)", "void source_save(ptr source)", "void source_load(ptr source)", "void source_activate(ptr source)", "void source_deactivate(ptr source)", "void source_show(ptr source)", "void source_hide(ptr source)", "void source_audio_activate(ptr source)", "void source_audio_deactivate(ptr source)", "void source_rename(ptr source, string new_name, string prev_name)", "void source_volume(ptr source, in out float volume)", "void source_volume_level(ptr source, float level, float magnitude, " "float peak)", "void source_transition_start(ptr source)", "void source_transition_video_stop(ptr source)", "void source_transition_stop(ptr source)", "void channel_change(int channel, in out ptr source, ptr prev_source)", "void master_volume(in out float volume)", "void hotkey_layout_change()", "void hotkey_register(ptr hotkey)", "void hotkey_unregister(ptr hotkey)", "void hotkey_bindings_changed(ptr hotkey)", NULL, }; static inline bool obs_init_handlers(void) { obs->signals = signal_handler_create(); if (!obs->signals) return false; obs->procs = proc_handler_create(); if (!obs->procs) return false; return signal_handler_add_array(obs->signals, obs_signals); } static pthread_once_t obs_pthread_once_init_token = PTHREAD_ONCE_INIT; static inline bool obs_init_hotkeys(void) { struct obs_core_hotkeys *hotkeys = &obs->hotkeys; pthread_mutexattr_t attr; bool success = false; assert(hotkeys != NULL); da_init(hotkeys->hotkeys); hotkeys->signals = obs->signals; hotkeys->name_map_init_token = obs_pthread_once_init_token; hotkeys->mute = bstrdup("Mute"); hotkeys->unmute = bstrdup("Unmute"); hotkeys->push_to_mute = bstrdup("Push-to-mute"); hotkeys->push_to_talk = bstrdup("Push-to-talk"); hotkeys->sceneitem_show = bstrdup("Show '%1'"); hotkeys->sceneitem_hide = bstrdup("Hide '%1'"); if (!obs_hotkeys_platform_init(hotkeys)) return false; if (pthread_mutexattr_init(&attr) != 0) return false; if (pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_RECURSIVE) != 0) goto fail; if (pthread_mutex_init(&hotkeys->mutex, &attr) != 0) goto fail; if (os_event_init(&hotkeys->stop_event, OS_EVENT_TYPE_MANUAL) != 0) goto fail; if (pthread_create(&hotkeys->hotkey_thread, NULL, obs_hotkey_thread, NULL)) goto fail; hotkeys->hotkey_thread_initialized = true; success = true; fail: pthread_mutexattr_destroy(&attr); return success; } static inline void stop_hotkeys(void) { struct obs_core_hotkeys *hotkeys = &obs->hotkeys; void *thread_ret; if (hotkeys->hotkey_thread_initialized) { os_event_signal(hotkeys->stop_event); pthread_join(hotkeys->hotkey_thread, &thread_ret); hotkeys->hotkey_thread_initialized = false; } os_event_destroy(hotkeys->stop_event); obs_hotkeys_free(); } static inline void obs_free_hotkeys(void) { struct obs_core_hotkeys *hotkeys = &obs->hotkeys; bfree(hotkeys->mute); bfree(hotkeys->unmute); bfree(hotkeys->push_to_mute); bfree(hotkeys->push_to_talk); bfree(hotkeys->sceneitem_show); bfree(hotkeys->sceneitem_hide); obs_hotkey_name_map_free(); obs_hotkeys_platform_free(hotkeys); pthread_mutex_destroy(&hotkeys->mutex); } extern const struct obs_source_info scene_info; extern const struct obs_source_info group_info; static const char *submix_name(void *unused) { UNUSED_PARAMETER(unused); return "Audio line (internal use only)"; } const struct obs_source_info audio_line_info = { .id = "audio_line", .type = OBS_SOURCE_TYPE_INPUT, .output_flags = OBS_SOURCE_AUDIO | OBS_SOURCE_CAP_DISABLED | OBS_SOURCE_SUBMIX, .get_name = submix_name, }; extern void log_system_info(void); static bool obs_init(const char *locale, const char *module_config_path, profiler_name_store_t *store) { obs = bzalloc(sizeof(struct obs_core)); pthread_mutex_init_value(&obs->audio.monitoring_mutex); pthread_mutex_init_value(&obs->video.gpu_encoder_mutex); obs->name_store_owned = !store; obs->name_store = store ? store : profiler_name_store_create(); if (!obs->name_store) { blog(LOG_ERROR, "Couldn't create profiler name store"); return false; } log_system_info(); if (!obs_init_data()) return false; if (!obs_init_handlers()) return false; if (!obs_init_hotkeys()) return false; if (module_config_path) obs->module_config_path = bstrdup(module_config_path); obs->locale = bstrdup(locale); obs_register_source(&scene_info); obs_register_source(&group_info); obs_register_source(&audio_line_info); add_default_module_paths(); return true; } #ifdef _WIN32 extern void initialize_com(void); extern void uninitialize_com(void); #endif /* Separate from actual context initialization * since this can be set before startup and persist * after shutdown. */ static DARRAY(struct dstr) core_module_paths = {0}; char *obs_find_data_file(const char *file) { struct dstr path = {0}; char *result = find_libobs_data_file(file); if (result) return result; for (size_t i = 0; i < core_module_paths.num; ++i) { if (check_path(file, core_module_paths.array[i].array, &path)) return path.array; } dstr_free(&path); return NULL; } void obs_add_data_path(const char *path) { struct dstr *new_path = da_push_back_new(core_module_paths); dstr_init_copy(new_path, path); da_push_back(core_module_paths, new_path); } bool obs_remove_data_path(const char *path) { for (size_t i = 0; i < core_module_paths.num; ++i) { int result = dstr_cmp(&core_module_paths.array[i], path); if (result == 0) { dstr_free(&core_module_paths.array[i]); da_erase(core_module_paths, i); return true; } } return false; } static const char *obs_startup_name = "obs_startup"; bool obs_startup(const char *locale, const char *module_config_path, profiler_name_store_t *store) { bool success; profile_start(obs_startup_name); if (obs) { blog(LOG_WARNING, "Tried to call obs_startup more than once"); return false; } #ifdef _WIN32 initialize_com(); #endif success = obs_init(locale, module_config_path, store); profile_end(obs_startup_name); if (!success) obs_shutdown(); return success; } static struct obs_cmdline_args cmdline_args = {0, NULL}; void obs_set_cmdline_args(int argc, const char *const *argv) { char *data; size_t len; int i; /* Once argc is set (non-zero) we shouldn't call again */ if (cmdline_args.argc) return; cmdline_args.argc = argc; /* Safely copy over argv */ len = 0; for (i = 0; i < argc; i++) len += strlen(argv[i]) + 1; cmdline_args.argv = bmalloc(sizeof(char *) * (argc + 1) + len); data = (char *)cmdline_args.argv + sizeof(char *) * (argc + 1); for (i = 0; i < argc; i++) { cmdline_args.argv[i] = data; len = strlen(argv[i]) + 1; memcpy(data, argv[i], len); data += len; } cmdline_args.argv[argc] = NULL; } struct obs_cmdline_args obs_get_cmdline_args(void) { return cmdline_args; } void obs_shutdown(void) { struct obs_module *module; struct obs_core *core; if (!obs) return; #define FREE_REGISTERED_TYPES(structure, list) \ do { \ for (size_t i = 0; i < list.num; i++) { \ struct structure *item = &list.array[i]; \ if (item->type_data && item->free_type_data) \ item->free_type_data(item->type_data); \ } \ da_free(list); \ } while (false) FREE_REGISTERED_TYPES(obs_source_info, obs->source_types); FREE_REGISTERED_TYPES(obs_output_info, obs->output_types); FREE_REGISTERED_TYPES(obs_encoder_info, obs->encoder_types); FREE_REGISTERED_TYPES(obs_service_info, obs->service_types); FREE_REGISTERED_TYPES(obs_modal_ui, obs->modal_ui_callbacks); FREE_REGISTERED_TYPES(obs_modeless_ui, obs->modeless_ui_callbacks); #undef FREE_REGISTERED_TYPES da_free(obs->input_types); da_free(obs->filter_types); da_free(obs->transition_types); stop_video(); stop_hotkeys(); obs_free_audio(); obs_free_data(); obs_free_video(); obs_free_hotkeys(); obs_free_graphics(); proc_handler_destroy(obs->procs); signal_handler_destroy(obs->signals); obs->procs = NULL; obs->signals = NULL; core = obs; obs = NULL; module = core->first_module; while (module) { struct obs_module *next = module->next; free_module(module); module = next; } core->first_module = NULL; for (size_t i = 0; i < core->module_paths.num; i++) free_module_path(core->module_paths.array + i); da_free(core->module_paths); if (core->name_store_owned) profiler_name_store_free(core->name_store); bfree(core->module_config_path); bfree(core->locale); bfree(core); bfree(cmdline_args.argv); #ifdef _WIN32 uninitialize_com(); #endif } bool obs_initialized(void) { return obs != NULL; } uint32_t obs_get_version(void) { return LIBOBS_API_VER; } const char *obs_get_version_string(void) { return OBS_VERSION; } void obs_set_locale(const char *locale) { struct obs_module *module; if (!obs) return; if (obs->locale) bfree(obs->locale); obs->locale = bstrdup(locale); module = obs->first_module; while (module) { if (module->set_locale) module->set_locale(locale); module = module->next; } } const char *obs_get_locale(void) { return obs ? obs->locale : NULL; } #define OBS_SIZE_MIN 2 #define OBS_SIZE_MAX (32 * 1024) static inline bool size_valid(uint32_t width, uint32_t height) { return (width >= OBS_SIZE_MIN && height >= OBS_SIZE_MIN && width <= OBS_SIZE_MAX && height <= OBS_SIZE_MAX); } int obs_reset_video(struct obs_video_info *ovi) { if (!obs) return OBS_VIDEO_FAIL; /* don't allow changing of video settings if active. */ if (obs->video.video && obs_video_active()) return OBS_VIDEO_CURRENTLY_ACTIVE; if (!size_valid(ovi->output_width, ovi->output_height) || !size_valid(ovi->base_width, ovi->base_height)) return OBS_VIDEO_INVALID_PARAM; struct obs_core_video *video = &obs->video; stop_video(); obs_free_video(); /* align to multiple-of-two and SSE alignment sizes */ ovi->output_width &= 0xFFFFFFFC; ovi->output_height &= 0xFFFFFFFE; if (!video->graphics) { int errorcode = obs_init_graphics(ovi); if (errorcode != OBS_VIDEO_SUCCESS) { obs_free_graphics(); return errorcode; } } const char *scale_type_name = ""; switch (ovi->scale_type) { case OBS_SCALE_DISABLE: scale_type_name = "Disabled"; break; case OBS_SCALE_POINT: scale_type_name = "Point"; break; case OBS_SCALE_BICUBIC: scale_type_name = "Bicubic"; break; case OBS_SCALE_BILINEAR: scale_type_name = "Bilinear"; break; case OBS_SCALE_LANCZOS: scale_type_name = "Lanczos"; break; case OBS_SCALE_AREA: scale_type_name = "Area"; break; } bool yuv = format_is_yuv(ovi->output_format); const char *yuv_format = get_video_colorspace_name(ovi->colorspace); const char *yuv_range = get_video_range_name(ovi->output_format, ovi->range); blog(LOG_INFO, "---------------------------------"); blog(LOG_INFO, "video settings reset:\n" "\tbase resolution: %dx%d\n" "\toutput resolution: %dx%d\n" "\tdownscale filter: %s\n" "\tfps: %d/%d\n" "\tformat: %s\n" "\tYUV mode: %s%s%s", ovi->base_width, ovi->base_height, ovi->output_width, ovi->output_height, scale_type_name, ovi->fps_num, ovi->fps_den, get_video_format_name(ovi->output_format), yuv ? yuv_format : "None", yuv ? "/" : "", yuv ? yuv_range : ""); return obs_init_video(ovi); } bool obs_reset_audio(const struct obs_audio_info *oai) { struct audio_output_info ai; if (!obs) return false; /* don't allow changing of audio settings if active. */ if (obs->audio.audio && audio_output_active(obs->audio.audio)) return false; obs_free_audio(); if (!oai) return true; ai.name = "Audio"; ai.samples_per_sec = oai->samples_per_sec; ai.format = AUDIO_FORMAT_FLOAT_PLANAR; ai.speakers = oai->speakers; ai.input_callback = audio_callback; blog(LOG_INFO, "---------------------------------"); blog(LOG_INFO, "audio settings reset:\n" "\tsamples per sec: %d\n" "\tspeakers: %d", (int)ai.samples_per_sec, (int)ai.speakers); return obs_init_audio(&ai); } bool obs_get_video_info(struct obs_video_info *ovi) { struct obs_core_video *video = &obs->video; if (!obs || !video->graphics) return false; *ovi = video->ovi; return true; } bool obs_get_audio_info(struct obs_audio_info *oai) { struct obs_core_audio *audio = &obs->audio; const struct audio_output_info *info; if (!obs || !oai || !audio->audio) return false; info = audio_output_get_info(audio->audio); oai->samples_per_sec = info->samples_per_sec; oai->speakers = info->speakers; return true; } bool obs_enum_source_types(size_t idx, const char **id) { if (!obs) return false; if (idx >= obs->source_types.num) return false; *id = obs->source_types.array[idx].id; return true; } bool obs_enum_input_types(size_t idx, const char **id) { if (!obs) return false; if (idx >= obs->input_types.num) return false; *id = obs->input_types.array[idx].id; return true; } bool obs_enum_filter_types(size_t idx, const char **id) { if (!obs) return false; if (idx >= obs->filter_types.num) return false; *id = obs->filter_types.array[idx].id; return true; } bool obs_enum_transition_types(size_t idx, const char **id) { if (!obs) return false; if (idx >= obs->transition_types.num) return false; *id = obs->transition_types.array[idx].id; return true; } bool obs_enum_output_types(size_t idx, const char **id) { if (!obs) return false; if (idx >= obs->output_types.num) return false; *id = obs->output_types.array[idx].id; return true; } bool obs_enum_encoder_types(size_t idx, const char **id) { if (!obs) return false; if (idx >= obs->encoder_types.num) return false; *id = obs->encoder_types.array[idx].id; return true; } bool obs_enum_service_types(size_t idx, const char **id) { if (!obs) return false; if (idx >= obs->service_types.num) return false; *id = obs->service_types.array[idx].id; return true; } void obs_enter_graphics(void) { if (obs && obs->video.graphics) gs_enter_context(obs->video.graphics); } void obs_leave_graphics(void) { if (obs && obs->video.graphics) gs_leave_context(); } audio_t *obs_get_audio(void) { return (obs != NULL) ? obs->audio.audio : NULL; } video_t *obs_get_video(void) { return (obs != NULL) ? obs->video.video : NULL; } /* TODO: optimize this later so it's not just O(N) string lookups */ static inline struct obs_modal_ui * get_modal_ui_callback(const char *id, const char *task, const char *target) { for (size_t i = 0; i < obs->modal_ui_callbacks.num; i++) { struct obs_modal_ui *callback = obs->modal_ui_callbacks.array + i; if (strcmp(callback->id, id) == 0 && strcmp(callback->task, task) == 0 && strcmp(callback->target, target) == 0) return callback; } return NULL; } static inline struct obs_modeless_ui * get_modeless_ui_callback(const char *id, const char *task, const char *target) { for (size_t i = 0; i < obs->modeless_ui_callbacks.num; i++) { struct obs_modeless_ui *callback; callback = obs->modeless_ui_callbacks.array + i; if (strcmp(callback->id, id) == 0 && strcmp(callback->task, task) == 0 && strcmp(callback->target, target) == 0) return callback; } return NULL; } int obs_exec_ui(const char *name, const char *task, const char *target, void *data, void *ui_data) { struct obs_modal_ui *callback; int errorcode = OBS_UI_NOTFOUND; if (!obs) return errorcode; callback = get_modal_ui_callback(name, task, target); if (callback) { bool success = callback->exec(data, ui_data); errorcode = success ? OBS_UI_SUCCESS : OBS_UI_CANCEL; } return errorcode; } void *obs_create_ui(const char *name, const char *task, const char *target, void *data, void *ui_data) { struct obs_modeless_ui *callback; if (!obs) return NULL; callback = get_modeless_ui_callback(name, task, target); return callback ? callback->create(data, ui_data) : NULL; } obs_source_t *obs_get_output_source(uint32_t channel) { if (!obs) return NULL; return obs_view_get_source(&obs->data.main_view, channel); } void obs_set_output_source(uint32_t channel, obs_source_t *source) { assert(channel < MAX_CHANNELS); if (!obs) return; if (channel >= MAX_CHANNELS) return; struct obs_source *prev_source; struct obs_view *view = &obs->data.main_view; struct calldata params = {0}; pthread_mutex_lock(&view->channels_mutex); obs_source_addref(source); prev_source = view->channels[channel]; calldata_set_int(¶ms, "channel", channel); calldata_set_ptr(¶ms, "prev_source", prev_source); calldata_set_ptr(¶ms, "source", source); signal_handler_signal(obs->signals, "channel_change", ¶ms); calldata_get_ptr(¶ms, "source", &source); calldata_free(¶ms); view->channels[channel] = source; pthread_mutex_unlock(&view->channels_mutex); if (source) obs_source_activate(source, MAIN_VIEW); if (prev_source) { obs_source_deactivate(prev_source, MAIN_VIEW); obs_source_release(prev_source); } } void obs_enum_sources(bool (*enum_proc)(void *, obs_source_t *), void *param) { obs_source_t *source; if (!obs) return; pthread_mutex_lock(&obs->data.sources_mutex); source = obs->data.first_source; while (source) { obs_source_t *next_source = (obs_source_t *)source->context.next; if (source->info.id == group_info.id && !enum_proc(param, source)) { break; } else if (source->info.type == OBS_SOURCE_TYPE_INPUT && !source->context.private && !enum_proc(param, source)) { break; } source = next_source; } pthread_mutex_unlock(&obs->data.sources_mutex); } void obs_enum_scenes(bool (*enum_proc)(void *, obs_source_t *), void *param) { obs_source_t *source; if (!obs) return; pthread_mutex_lock(&obs->data.sources_mutex); source = obs->data.first_source; while (source) { obs_source_t *next_source = (obs_source_t *)source->context.next; if (source->info.type == OBS_SOURCE_TYPE_SCENE && !source->context.private && !enum_proc(param, source)) { break; } source = next_source; } pthread_mutex_unlock(&obs->data.sources_mutex); } static inline void obs_enum(void *pstart, pthread_mutex_t *mutex, void *proc, void *param) { struct obs_context_data **start = pstart, *context; bool (*enum_proc)(void *, void *) = proc; assert(start); assert(mutex); assert(enum_proc); pthread_mutex_lock(mutex); context = *start; while (context) { if (!enum_proc(param, context)) break; context = context->next; } pthread_mutex_unlock(mutex); } void obs_enum_outputs(bool (*enum_proc)(void *, obs_output_t *), void *param) { if (!obs) return; obs_enum(&obs->data.first_output, &obs->data.outputs_mutex, enum_proc, param); } void obs_enum_encoders(bool (*enum_proc)(void *, obs_encoder_t *), void *param) { if (!obs) return; obs_enum(&obs->data.first_encoder, &obs->data.encoders_mutex, enum_proc, param); } void obs_enum_services(bool (*enum_proc)(void *, obs_service_t *), void *param) { if (!obs) return; obs_enum(&obs->data.first_service, &obs->data.services_mutex, enum_proc, param); } static inline void *get_context_by_name(void *vfirst, const char *name, pthread_mutex_t *mutex, void *(*addref)(void *)) { struct obs_context_data **first = vfirst; struct obs_context_data *context; pthread_mutex_lock(mutex); context = *first; while (context) { if (!context->private && strcmp(context->name, name) == 0) { context = addref(context); break; } context = context->next; } pthread_mutex_unlock(mutex); return context; } static inline void *obs_source_addref_safe_(void *ref) { return obs_source_get_ref(ref); } static inline void *obs_output_addref_safe_(void *ref) { return obs_output_get_ref(ref); } static inline void *obs_encoder_addref_safe_(void *ref) { return obs_encoder_get_ref(ref); } static inline void *obs_service_addref_safe_(void *ref) { return obs_service_get_ref(ref); } static inline void *obs_id_(void *data) { return data; } obs_source_t *obs_get_source_by_name(const char *name) { if (!obs) return NULL; return get_context_by_name(&obs->data.first_source, name, &obs->data.sources_mutex, obs_source_addref_safe_); } obs_output_t *obs_get_output_by_name(const char *name) { if (!obs) return NULL; return get_context_by_name(&obs->data.first_output, name, &obs->data.outputs_mutex, obs_output_addref_safe_); } obs_encoder_t *obs_get_encoder_by_name(const char *name) { if (!obs) return NULL; return get_context_by_name(&obs->data.first_encoder, name, &obs->data.encoders_mutex, obs_encoder_addref_safe_); } obs_service_t *obs_get_service_by_name(const char *name) { if (!obs) return NULL; return get_context_by_name(&obs->data.first_service, name, &obs->data.services_mutex, obs_service_addref_safe_); } gs_effect_t *obs_get_base_effect(enum obs_base_effect effect) { if (!obs) return NULL; switch (effect) { case OBS_EFFECT_DEFAULT: return obs->video.default_effect; case OBS_EFFECT_DEFAULT_RECT: return obs->video.default_rect_effect; case OBS_EFFECT_OPAQUE: return obs->video.opaque_effect; case OBS_EFFECT_SOLID: return obs->video.solid_effect; case OBS_EFFECT_REPEAT: return obs->video.repeat_effect; case OBS_EFFECT_BICUBIC: return obs->video.bicubic_effect; case OBS_EFFECT_LANCZOS: return obs->video.lanczos_effect; case OBS_EFFECT_AREA: return obs->video.area_effect; case OBS_EFFECT_BILINEAR_LOWRES: return obs->video.bilinear_lowres_effect; case OBS_EFFECT_PREMULTIPLIED_ALPHA: return obs->video.premultiplied_alpha_effect; } return NULL; } /* DEPRECATED */ gs_effect_t *obs_get_default_rect_effect(void) { if (!obs) return NULL; return obs->video.default_rect_effect; } signal_handler_t *obs_get_signal_handler(void) { if (!obs) return NULL; return obs->signals; } proc_handler_t *obs_get_proc_handler(void) { if (!obs) return NULL; return obs->procs; } void obs_render_main_view(void) { if (!obs) return; obs_view_render(&obs->data.main_view); } static void obs_render_main_texture_internal(enum gs_blend_type src_c, enum gs_blend_type dest_c, enum gs_blend_type src_a, enum gs_blend_type dest_a) { struct obs_core_video *video; gs_texture_t *tex; gs_effect_t *effect; gs_eparam_t *param; if (!obs) return; video = &obs->video; if (!video->texture_rendered) return; tex = video->render_texture; effect = obs_get_base_effect(OBS_EFFECT_DEFAULT); param = gs_effect_get_param_by_name(effect, "image"); gs_effect_set_texture(param, tex); gs_blend_state_push(); gs_blend_function_separate(src_c, dest_c, src_a, dest_a); while (gs_effect_loop(effect, "Draw")) gs_draw_sprite(tex, 0, 0, 0); gs_blend_state_pop(); } void obs_render_main_texture(void) { obs_render_main_texture_internal(GS_BLEND_ONE, GS_BLEND_INVSRCALPHA, GS_BLEND_ONE, GS_BLEND_INVSRCALPHA); } void obs_render_main_texture_src_color_only(void) { obs_render_main_texture_internal(GS_BLEND_ONE, GS_BLEND_ZERO, GS_BLEND_ONE, GS_BLEND_INVSRCALPHA); } gs_texture_t *obs_get_main_texture(void) { struct obs_core_video *video; if (!obs) return NULL; video = &obs->video; if (!video->texture_rendered) return NULL; return video->render_texture; } void obs_set_master_volume(float volume) { struct calldata data = {0}; if (!obs) return; calldata_set_float(&data, "volume", volume); signal_handler_signal(obs->signals, "master_volume", &data); volume = (float)calldata_float(&data, "volume"); calldata_free(&data); obs->audio.user_volume = volume; } float obs_get_master_volume(void) { return obs ? obs->audio.user_volume : 0.0f; } static obs_source_t *obs_load_source_type(obs_data_t *source_data) { obs_data_array_t *filters = obs_data_get_array(source_data, "filters"); obs_source_t *source; const char *name = obs_data_get_string(source_data, "name"); const char *id = obs_data_get_string(source_data, "id"); obs_data_t *settings = obs_data_get_obj(source_data, "settings"); obs_data_t *hotkeys = obs_data_get_obj(source_data, "hotkeys"); double volume; double balance; int64_t sync; uint32_t prev_ver; uint32_t caps; uint32_t flags; uint32_t mixers; int di_order; int di_mode; int monitoring_type; prev_ver = (uint32_t)obs_data_get_int(source_data, "prev_ver"); source = obs_source_create_set_last_ver(id, name, settings, hotkeys, prev_ver); obs_data_release(hotkeys); caps = obs_source_get_output_flags(source); obs_data_set_default_double(source_data, "volume", 1.0); volume = obs_data_get_double(source_data, "volume"); obs_source_set_volume(source, (float)volume); obs_data_set_default_double(source_data, "balance", 0.5); balance = obs_data_get_double(source_data, "balance"); obs_source_set_balance_value(source, (float)balance); sync = obs_data_get_int(source_data, "sync"); obs_source_set_sync_offset(source, sync); obs_data_set_default_int(source_data, "mixers", 0x3F); mixers = (uint32_t)obs_data_get_int(source_data, "mixers"); obs_source_set_audio_mixers(source, mixers); obs_data_set_default_int(source_data, "flags", source->default_flags); flags = (uint32_t)obs_data_get_int(source_data, "flags"); obs_source_set_flags(source, flags); obs_data_set_default_bool(source_data, "enabled", true); obs_source_set_enabled(source, obs_data_get_bool(source_data, "enabled")); obs_data_set_default_bool(source_data, "muted", false); obs_source_set_muted(source, obs_data_get_bool(source_data, "muted")); obs_data_set_default_bool(source_data, "push-to-mute", false); obs_source_enable_push_to_mute( source, obs_data_get_bool(source_data, "push-to-mute")); obs_data_set_default_int(source_data, "push-to-mute-delay", 0); obs_source_set_push_to_mute_delay( source, obs_data_get_int(source_data, "push-to-mute-delay")); obs_data_set_default_bool(source_data, "push-to-talk", false); obs_source_enable_push_to_talk( source, obs_data_get_bool(source_data, "push-to-talk")); obs_data_set_default_int(source_data, "push-to-talk-delay", 0); obs_source_set_push_to_talk_delay( source, obs_data_get_int(source_data, "push-to-talk-delay")); di_mode = (int)obs_data_get_int(source_data, "deinterlace_mode"); obs_source_set_deinterlace_mode(source, (enum obs_deinterlace_mode)di_mode); di_order = (int)obs_data_get_int(source_data, "deinterlace_field_order"); obs_source_set_deinterlace_field_order( source, (enum obs_deinterlace_field_order)di_order); monitoring_type = (int)obs_data_get_int(source_data, "monitoring_type"); if (prev_ver < MAKE_SEMANTIC_VERSION(23, 2, 2)) { if ((caps & OBS_SOURCE_MONITOR_BY_DEFAULT) != 0) { /* updates older sources to enable monitoring * automatically if they added monitoring by default in * version 24 */ monitoring_type = OBS_MONITORING_TYPE_MONITOR_ONLY; obs_source_set_audio_mixers(source, 0x3F); } } obs_source_set_monitoring_type( source, (enum obs_monitoring_type)monitoring_type); obs_data_release(source->private_settings); source->private_settings = obs_data_get_obj(source_data, "private_settings"); if (!source->private_settings) source->private_settings = obs_data_create(); if (filters) { size_t count = obs_data_array_count(filters); for (size_t i = 0; i < count; i++) { obs_data_t *filter_data = obs_data_array_item(filters, i); obs_source_t *filter = obs_load_source_type(filter_data); if (filter) { obs_source_filter_add(source, filter); obs_source_release(filter); } obs_data_release(filter_data); } obs_data_array_release(filters); } obs_data_release(settings); return source; } obs_source_t *obs_load_source(obs_data_t *source_data) { return obs_load_source_type(source_data); } void obs_load_sources(obs_data_array_t *array, obs_load_source_cb cb, void *private_data) { if (!obs) return; struct obs_core_data *data = &obs->data; DARRAY(obs_source_t *) sources; size_t count; size_t i; da_init(sources); count = obs_data_array_count(array); da_reserve(sources, count); pthread_mutex_lock(&data->sources_mutex); for (i = 0; i < count; i++) { obs_data_t *source_data = obs_data_array_item(array, i); obs_source_t *source = obs_load_source(source_data); da_push_back(sources, &source); obs_data_release(source_data); } /* tell sources that we want to load */ for (i = 0; i < sources.num; i++) { obs_source_t *source = sources.array[i]; obs_data_t *source_data = obs_data_array_item(array, i); if (source) { if (source->info.type == OBS_SOURCE_TYPE_TRANSITION) obs_transition_load(source, source_data); obs_source_load(source); for (size_t i = source->filters.num; i > 0; i--) { obs_source_t *filter = source->filters.array[i - 1]; obs_source_load(filter); } if (cb) cb(private_data, source); } obs_data_release(source_data); } for (i = 0; i < sources.num; i++) obs_source_release(sources.array[i]); pthread_mutex_unlock(&data->sources_mutex); da_free(sources); } obs_data_t *obs_save_source(obs_source_t *source) { obs_data_array_t *filters = obs_data_array_create(); obs_data_t *source_data = obs_data_create(); obs_data_t *settings = obs_source_get_settings(source); obs_data_t *hotkey_data = source->context.hotkey_data; obs_data_t *hotkeys; float volume = obs_source_get_volume(source); float balance = obs_source_get_balance_value(source); uint32_t mixers = obs_source_get_audio_mixers(source); int64_t sync = obs_source_get_sync_offset(source); uint32_t flags = obs_source_get_flags(source); const char *name = obs_source_get_name(source); const char *id = obs_source_get_id(source); bool enabled = obs_source_enabled(source); bool muted = obs_source_muted(source); bool push_to_mute = obs_source_push_to_mute_enabled(source); uint64_t ptm_delay = obs_source_get_push_to_mute_delay(source); bool push_to_talk = obs_source_push_to_talk_enabled(source); uint64_t ptt_delay = obs_source_get_push_to_talk_delay(source); int m_type = (int)obs_source_get_monitoring_type(source); int di_mode = (int)obs_source_get_deinterlace_mode(source); int di_order = (int)obs_source_get_deinterlace_field_order(source); obs_source_save(source); hotkeys = obs_hotkeys_save_source(source); if (hotkeys) { obs_data_release(hotkey_data); source->context.hotkey_data = hotkeys; hotkey_data = hotkeys; } obs_data_set_int(source_data, "prev_ver", LIBOBS_API_VER); obs_data_set_string(source_data, "name", name); obs_data_set_string(source_data, "id", id); obs_data_set_obj(source_data, "settings", settings); obs_data_set_int(source_data, "mixers", mixers); obs_data_set_int(source_data, "sync", sync); obs_data_set_int(source_data, "flags", flags); obs_data_set_double(source_data, "volume", volume); obs_data_set_double(source_data, "balance", balance); obs_data_set_bool(source_data, "enabled", enabled); obs_data_set_bool(source_data, "muted", muted); obs_data_set_bool(source_data, "push-to-mute", push_to_mute); obs_data_set_int(source_data, "push-to-mute-delay", ptm_delay); obs_data_set_bool(source_data, "push-to-talk", push_to_talk); obs_data_set_int(source_data, "push-to-talk-delay", ptt_delay); obs_data_set_obj(source_data, "hotkeys", hotkey_data); obs_data_set_int(source_data, "deinterlace_mode", di_mode); obs_data_set_int(source_data, "deinterlace_field_order", di_order); obs_data_set_int(source_data, "monitoring_type", m_type); obs_data_set_obj(source_data, "private_settings", source->private_settings); if (source->info.type == OBS_SOURCE_TYPE_TRANSITION) obs_transition_save(source, source_data); pthread_mutex_lock(&source->filter_mutex); if (source->filters.num) { for (size_t i = source->filters.num; i > 0; i--) { obs_source_t *filter = source->filters.array[i - 1]; obs_data_t *filter_data = obs_save_source(filter); obs_data_array_push_back(filters, filter_data); obs_data_release(filter_data); } obs_data_set_array(source_data, "filters", filters); } pthread_mutex_unlock(&source->filter_mutex); obs_data_release(settings); obs_data_array_release(filters); return source_data; } obs_data_array_t *obs_save_sources_filtered(obs_save_source_filter_cb cb, void *data_) { if (!obs) return NULL; struct obs_core_data *data = &obs->data; obs_data_array_t *array; obs_source_t *source; array = obs_data_array_create(); pthread_mutex_lock(&data->sources_mutex); source = data->first_source; while (source) { if ((source->info.type != OBS_SOURCE_TYPE_FILTER) != 0 && !source->context.private && cb(data_, source)) { obs_data_t *source_data = obs_save_source(source); obs_data_array_push_back(array, source_data); obs_data_release(source_data); } source = (obs_source_t *)source->context.next; } pthread_mutex_unlock(&data->sources_mutex); return array; } static bool save_source_filter(void *data, obs_source_t *source) { UNUSED_PARAMETER(data); UNUSED_PARAMETER(source); return true; } obs_data_array_t *obs_save_sources(void) { return obs_save_sources_filtered(save_source_filter, NULL); } /* ensures that names are never blank */ static inline char *dup_name(const char *name, bool private) { if (private && !name) return NULL; if (!name || !*name) { struct dstr unnamed = {0}; dstr_printf(&unnamed, "__unnamed%04lld", obs->data.unnamed_index++); return unnamed.array; } else { return bstrdup(name); } } static inline bool obs_context_data_init_wrap(struct obs_context_data *context, enum obs_obj_type type, obs_data_t *settings, const char *name, obs_data_t *hotkey_data, bool private) { assert(context); memset(context, 0, sizeof(*context)); context->private = private; context->type = type; pthread_mutex_init_value(&context->rename_cache_mutex); if (pthread_mutex_init(&context->rename_cache_mutex, NULL) < 0) return false; context->signals = signal_handler_create(); if (!context->signals) return false; context->procs = proc_handler_create(); if (!context->procs) return false; context->name = dup_name(name, private); context->settings = obs_data_newref(settings); context->hotkey_data = obs_data_newref(hotkey_data); return true; } bool obs_context_data_init(struct obs_context_data *context, enum obs_obj_type type, obs_data_t *settings, const char *name, obs_data_t *hotkey_data, bool private) { if (obs_context_data_init_wrap(context, type, settings, name, hotkey_data, private)) { return true; } else { obs_context_data_free(context); return false; } } void obs_context_data_free(struct obs_context_data *context) { obs_hotkeys_context_release(context); signal_handler_destroy(context->signals); proc_handler_destroy(context->procs); obs_data_release(context->settings); obs_context_data_remove(context); pthread_mutex_destroy(&context->rename_cache_mutex); bfree(context->name); for (size_t i = 0; i < context->rename_cache.num; i++) bfree(context->rename_cache.array[i]); da_free(context->rename_cache); memset(context, 0, sizeof(*context)); } void obs_context_data_insert(struct obs_context_data *context, pthread_mutex_t *mutex, void *pfirst) { struct obs_context_data **first = pfirst; assert(context); assert(mutex); assert(first); context->mutex = mutex; pthread_mutex_lock(mutex); context->prev_next = first; context->next = *first; *first = context; if (context->next) context->next->prev_next = &context->next; pthread_mutex_unlock(mutex); } void obs_context_data_remove(struct obs_context_data *context) { if (context && context->mutex) { pthread_mutex_lock(context->mutex); if (context->prev_next) *context->prev_next = context->next; if (context->next) context->next->prev_next = context->prev_next; pthread_mutex_unlock(context->mutex); context->mutex = NULL; } } void obs_context_data_setname(struct obs_context_data *context, const char *name) { pthread_mutex_lock(&context->rename_cache_mutex); if (context->name) da_push_back(context->rename_cache, &context->name); context->name = dup_name(name, context->private); pthread_mutex_unlock(&context->rename_cache_mutex); } profiler_name_store_t *obs_get_profiler_name_store(void) { if (!obs) return NULL; return obs->name_store; } uint64_t obs_get_video_frame_time(void) { return obs ? obs->video.video_time : 0; } double obs_get_active_fps(void) { return obs ? obs->video.video_fps : 0.0; } uint64_t obs_get_average_frame_time_ns(void) { return obs ? obs->video.video_avg_frame_time_ns : 0; } uint64_t obs_get_frame_interval_ns(void) { return obs ? obs->video.video_frame_interval_ns : 0; } enum obs_obj_type obs_obj_get_type(void *obj) { struct obs_context_data *context = obj; return context ? context->type : OBS_OBJ_TYPE_INVALID; } const char *obs_obj_get_id(void *obj) { struct obs_context_data *context = obj; if (!context) return NULL; switch (context->type) { case OBS_OBJ_TYPE_SOURCE: return ((obs_source_t *)obj)->info.id; case OBS_OBJ_TYPE_OUTPUT: return ((obs_output_t *)obj)->info.id; case OBS_OBJ_TYPE_ENCODER: return ((obs_encoder_t *)obj)->info.id; case OBS_OBJ_TYPE_SERVICE: return ((obs_service_t *)obj)->info.id; default:; } return NULL; } bool obs_obj_invalid(void *obj) { struct obs_context_data *context = obj; if (!context) return true; return !context->data; } void *obs_obj_get_data(void *obj) { struct obs_context_data *context = obj; if (!context) return NULL; return context->data; } bool obs_set_audio_monitoring_device(const char *name, const char *id) { if (!obs || !name || !id || !*name || !*id) return false; #if defined(_WIN32) || HAVE_PULSEAUDIO || defined(__APPLE__) pthread_mutex_lock(&obs->audio.monitoring_mutex); if (strcmp(id, obs->audio.monitoring_device_id) == 0) { pthread_mutex_unlock(&obs->audio.monitoring_mutex); return true; } if (obs->audio.monitoring_device_name) bfree(obs->audio.monitoring_device_name); if (obs->audio.monitoring_device_id) bfree(obs->audio.monitoring_device_id); obs->audio.monitoring_device_name = bstrdup(name); obs->audio.monitoring_device_id = bstrdup(id); for (size_t i = 0; i < obs->audio.monitors.num; i++) { struct audio_monitor *monitor = obs->audio.monitors.array[i]; audio_monitor_reset(monitor); } pthread_mutex_unlock(&obs->audio.monitoring_mutex); return true; #else return false; #endif } void obs_get_audio_monitoring_device(const char **name, const char **id) { if (!obs) return; if (name) *name = obs->audio.monitoring_device_name; if (id) *id = obs->audio.monitoring_device_id; } void obs_add_tick_callback(void (*tick)(void *param, float seconds), void *param) { if (!obs) return; struct tick_callback data = {tick, param}; pthread_mutex_lock(&obs->data.draw_callbacks_mutex); da_insert(obs->data.tick_callbacks, 0, &data); pthread_mutex_unlock(&obs->data.draw_callbacks_mutex); } void obs_remove_tick_callback(void (*tick)(void *param, float seconds), void *param) { if (!obs) return; struct tick_callback data = {tick, param}; pthread_mutex_lock(&obs->data.draw_callbacks_mutex); da_erase_item(obs->data.tick_callbacks, &data); pthread_mutex_unlock(&obs->data.draw_callbacks_mutex); } void obs_add_main_render_callback(void (*draw)(void *param, uint32_t cx, uint32_t cy), void *param) { if (!obs) return; struct draw_callback data = {draw, param}; pthread_mutex_lock(&obs->data.draw_callbacks_mutex); da_insert(obs->data.draw_callbacks, 0, &data); pthread_mutex_unlock(&obs->data.draw_callbacks_mutex); } void obs_remove_main_render_callback(void (*draw)(void *param, uint32_t cx, uint32_t cy), void *param) { if (!obs) return; struct draw_callback data = {draw, param}; pthread_mutex_lock(&obs->data.draw_callbacks_mutex); da_erase_item(obs->data.draw_callbacks, &data); pthread_mutex_unlock(&obs->data.draw_callbacks_mutex); } uint32_t obs_get_total_frames(void) { return obs ? obs->video.total_frames : 0; } uint32_t obs_get_lagged_frames(void) { return obs ? obs->video.lagged_frames : 0; } void start_raw_video(video_t *v, const struct video_scale_info *conversion, void (*callback)(void *param, struct video_data *frame), void *param) { struct obs_core_video *video = &obs->video; os_atomic_inc_long(&video->raw_active); video_output_connect(v, conversion, callback, param); } void stop_raw_video(video_t *v, void (*callback)(void *param, struct video_data *frame), void *param) { struct obs_core_video *video = &obs->video; os_atomic_dec_long(&video->raw_active); video_output_disconnect(v, callback, param); } void obs_add_raw_video_callback(const struct video_scale_info *conversion, void (*callback)(void *param, struct video_data *frame), void *param) { struct obs_core_video *video = &obs->video; if (!obs) return; start_raw_video(video->video, conversion, callback, param); } void obs_remove_raw_video_callback(void (*callback)(void *param, struct video_data *frame), void *param) { struct obs_core_video *video = &obs->video; if (!obs) return; stop_raw_video(video->video, callback, param); } void obs_apply_private_data(obs_data_t *settings) { if (!obs || !settings) return; obs_data_apply(obs->data.private_data, settings); } void obs_set_private_data(obs_data_t *settings) { if (!obs) return; obs_data_clear(obs->data.private_data); if (settings) obs_data_apply(obs->data.private_data, settings); } obs_data_t *obs_get_private_data(void) { if (!obs) return NULL; obs_data_t *private_data = obs->data.private_data; obs_data_addref(private_data); return private_data; } extern bool init_gpu_encoding(struct obs_core_video *video); extern void stop_gpu_encoding_thread(struct obs_core_video *video); extern void free_gpu_encoding(struct obs_core_video *video); bool start_gpu_encode(obs_encoder_t *encoder) { struct obs_core_video *video = &obs->video; bool success = true; obs_enter_graphics(); pthread_mutex_lock(&video->gpu_encoder_mutex); if (!video->gpu_encoders.num) success = init_gpu_encoding(video); if (success) da_push_back(video->gpu_encoders, &encoder); else free_gpu_encoding(video); pthread_mutex_unlock(&video->gpu_encoder_mutex); obs_leave_graphics(); if (success) { os_atomic_inc_long(&video->gpu_encoder_active); video_output_inc_texture_encoders(video->video); } return success; } void stop_gpu_encode(obs_encoder_t *encoder) { struct obs_core_video *video = &obs->video; bool call_free = false; os_atomic_dec_long(&video->gpu_encoder_active); video_output_dec_texture_encoders(video->video); pthread_mutex_lock(&video->gpu_encoder_mutex); da_erase_item(video->gpu_encoders, &encoder); if (!video->gpu_encoders.num) call_free = true; pthread_mutex_unlock(&video->gpu_encoder_mutex); os_event_wait(video->gpu_encode_inactive); if (call_free) { stop_gpu_encoding_thread(video); obs_enter_graphics(); pthread_mutex_lock(&video->gpu_encoder_mutex); free_gpu_encoding(video); pthread_mutex_unlock(&video->gpu_encoder_mutex); obs_leave_graphics(); } } bool obs_video_active(void) { struct obs_core_video *video = &obs->video; if (!obs) return false; return os_atomic_load_long(&video->raw_active) > 0 || os_atomic_load_long(&video->gpu_encoder_active) > 0; } bool obs_nv12_tex_active(void) { struct obs_core_video *video = &obs->video; if (!obs) return false; return video->using_nv12_tex; }