/* RetroArch - A frontend for libretro. * Copyright (C) 2011-2015 - Daniel De Matteis * * RetroArch 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 Found- * ation, either version 3 of the License, or (at your option) any later version. * * RetroArch 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 RetroArch. * If not, see . */ #include #include "runloop_data.h" #include "general.h" #include "input/input_overlay.h" #ifdef HAVE_THREADS #include #endif #ifdef HAVE_MENU #include "menu/menu.h" #include "menu/menu_entries.h" #include "menu/menu_input.h" #endif enum { THREAD_CODE_INIT = 0, THREAD_CODE_DEINIT, THREAD_CODE_ALIVE, } thread_code_enum; static char data_runloop_msg[PATH_MAX_LENGTH]; static struct data_runloop *g_data_runloop; data_runloop_t *rarch_main_data_get_ptr(void) { return g_data_runloop; } #ifdef HAVE_THREADS static void data_runloop_thread_deinit(data_runloop_t *runloop) { if (!runloop->thread_inited) { slock_lock(runloop->cond_lock); runloop->alive = false; scond_signal(runloop->cond); slock_unlock(runloop->cond_lock); sthread_join(runloop->thread); slock_free(runloop->lock); slock_free(runloop->cond_lock); slock_free(runloop->overlay_lock); scond_free(runloop->cond); } } #endif void rarch_main_data_deinit(void) { data_runloop_t *runloop = rarch_main_data_get_ptr(); if (!runloop) return; #ifdef HAVE_THREADS if (runloop->thread_inited) { data_runloop_thread_deinit(runloop); runloop->thread_inited = false; runloop->thread_code = THREAD_CODE_DEINIT; } #endif runloop->inited = false; } void rarch_main_data_free(void) { data_runloop_t *runloop = rarch_main_data_get_ptr(); if (runloop) free(runloop); runloop = NULL; } static void data_runloop_iterate(bool is_thread, data_runloop_t *runloop) { rarch_main_data_nbio_iterate (is_thread, runloop); #ifdef HAVE_RPNG rarch_main_data_nbio_image_iterate (is_thread, runloop); #endif #ifdef HAVE_OVERLAY rarch_main_data_overlay_iterate (is_thread, runloop); #endif #ifdef HAVE_NETWORKING rarch_main_data_http_iterate (is_thread, runloop); #endif #ifdef HAVE_LIBRETRODB rarch_main_data_db_iterate (is_thread, runloop); #endif } bool rarch_main_data_active(data_runloop_t *runloop) { bool image_active, nbio_active, http_active, http_conn_active, overlay_active; bool active = false; bool db_active = false; driver_t *driver = driver_get_ptr(); nbio_handle_t *nbio = runloop ? &runloop->nbio : NULL; #ifdef HAVE_RPNG nbio_image_handle_t *image = nbio ? &nbio->image : NULL; #endif #ifdef HAVE_NETWORKING http_handle_t *http = runloop ? &runloop->http : NULL; struct http_connection_t *http_conn = http ? http->connection.handle : NULL; #endif #ifdef HAVE_LIBRETRODB database_info_handle_t *db = runloop ? runloop->db.handle : NULL; db_active = db && db->status != DATABASE_STATUS_NONE; active = active || db_active; #endif #ifdef HAVE_OVERLAY overlay_active = driver && driver->overlay && (driver->overlay->state != OVERLAY_STATUS_ALIVE && driver->overlay->state != OVERLAY_STATUS_NONE); active = active || overlay_active; #endif #ifdef HAVE_RPNG image_active = image && image->handle != NULL; active = active || image_active; #endif nbio_active = nbio->handle != NULL; active = active || nbio_active; #ifdef HAVE_NETWORKING http_active = http && http->handle != NULL; active = active || http_active; http_conn_active = http_conn != NULL; active = active || http_conn_active; #endif (void)active; (void)image_active; (void)nbio_active; (void)http_active; (void)http_conn_active; (void)overlay_active; (void)db_active; #if 0 RARCH_LOG("runloop nbio : %d, image: %d, http: %d, http conn: %d, overlay: %d\n", nbio_active, image_active, http_active, http_conn_active, overlay_active); RARCH_LOG("active: %d\n", active); #endif return active; } #ifdef HAVE_THREADS static void data_thread_loop(void *data) { data_runloop_t *runloop = (data_runloop_t*)data; RARCH_LOG("[Data Thread]: Initializing data thread.\n"); slock_lock(runloop->lock); while (!runloop->thread_inited) scond_wait(runloop->cond, runloop->lock); slock_unlock(runloop->lock); RARCH_LOG("[Data Thread]: Starting data thread.\n"); while (runloop->alive) { slock_lock(runloop->lock); if (!runloop->alive) break; data_runloop_iterate(true, runloop); if (!rarch_main_data_active(runloop)) rarch_sleep(10); slock_unlock(runloop->lock); } RARCH_LOG("[Data Thread]: Stopping data thread.\n"); } #endif #ifdef HAVE_THREADS static void rarch_main_data_thread_init(void) { data_runloop_t *runloop = rarch_main_data_get_ptr(); if (!runloop) return; runloop->lock = slock_new(); runloop->cond_lock = slock_new(); runloop->overlay_lock = slock_new(); runloop->cond = scond_new(); runloop->thread = sthread_create(data_thread_loop, runloop); if (!runloop->thread) goto error; slock_lock(runloop->lock); runloop->thread_inited = true; runloop->alive = true; runloop->thread_code = THREAD_CODE_ALIVE; slock_unlock(runloop->lock); return; error: slock_free(runloop->lock); slock_free(runloop->cond_lock); slock_free(runloop->overlay_lock); scond_free(runloop->cond); } #endif void rarch_main_data_iterate(void) { data_runloop_t *runloop = rarch_main_data_get_ptr(); settings_t *settings = config_get_ptr(); (void)settings; #ifdef HAVE_THREADS if (settings->menu.threaded_data_runloop_enable) { switch (runloop->thread_code) { case THREAD_CODE_INIT: rarch_main_data_thread_init(); break; case THREAD_CODE_DEINIT: case THREAD_CODE_ALIVE: break; } } #endif #ifdef HAVE_OVERLAY rarch_main_data_overlay_image_upload_iterate(false, runloop); #endif #ifdef HAVE_RPNG rarch_main_data_nbio_image_upload_iterate(false, runloop); #endif if (data_runloop_msg[0] != '\0') { rarch_main_msg_queue_push(data_runloop_msg, 1, 10, true); data_runloop_msg[0] = '\0'; } #ifdef HAVE_MENU menu_entries_refresh(MENU_ACTION_REFRESH); #endif #ifdef HAVE_THREADS if (settings->menu.threaded_data_runloop_enable && runloop->alive) return; #endif data_runloop_iterate(false, runloop); } static data_runloop_t *rarch_main_data_new(void) { data_runloop_t *runloop = (data_runloop_t*)calloc(1, sizeof(data_runloop_t)); if (!runloop) return NULL; #ifdef HAVE_THREADS runloop->thread_inited = false; runloop->alive = false; #endif runloop->inited = true; return runloop; } void rarch_main_data_clear_state(void) { rarch_main_data_deinit(); rarch_main_data_free(); g_data_runloop = rarch_main_data_new(); } void rarch_main_data_init_queues(void) { data_runloop_t *runloop = rarch_main_data_get_ptr(); #ifdef HAVE_NETWORKING if (!runloop->http.msg_queue) rarch_assert(runloop->http.msg_queue = msg_queue_new(8)); #endif if (!runloop->nbio.msg_queue) rarch_assert(runloop->nbio.msg_queue = msg_queue_new(8)); if (!runloop->nbio.image.msg_queue) rarch_assert(runloop->nbio.image.msg_queue = msg_queue_new(8)); #ifdef HAVE_LIBRETRODB if (!runloop->db.msg_queue) rarch_assert(runloop->db.msg_queue = msg_queue_new(8)); #endif } void rarch_main_data_msg_queue_push(unsigned type, const char *msg, const char *msg2, unsigned prio, unsigned duration, bool flush) { char new_msg[PATH_MAX_LENGTH] = {0}; msg_queue_t *queue = NULL; data_runloop_t *runloop = rarch_main_data_get_ptr(); switch(type) { case DATA_TYPE_NONE: break; case DATA_TYPE_FILE: queue = runloop->nbio.msg_queue; snprintf(new_msg, sizeof(new_msg), "%s|%s", msg, msg2); break; case DATA_TYPE_IMAGE: queue = runloop->nbio.image.msg_queue; snprintf(new_msg, sizeof(new_msg), "%s|%s", msg, msg2); break; #ifdef HAVE_NETWORKING case DATA_TYPE_HTTP: queue = runloop->http.msg_queue; snprintf(new_msg, sizeof(new_msg), "%s|%s", msg, msg2); break; #endif #ifdef HAVE_OVERLAY case DATA_TYPE_OVERLAY: snprintf(new_msg, sizeof(new_msg), "%s|%s", msg, msg2); break; #endif #ifdef HAVE_LIBRETRODB case DATA_TYPE_DB: queue = runloop->db.msg_queue; snprintf(new_msg, sizeof(new_msg), "%s|%s", msg, msg2); break; #endif } if (!queue) return; if (flush) msg_queue_clear(queue); msg_queue_push(queue, new_msg, prio, duration); } void data_runloop_osd_msg(const char *msg, size_t len) { strlcpy(data_runloop_msg, msg, len); }