/* * Copyright (C) 2023 Nuo Mi * * This file is part of FFmpeg. * * FFmpeg is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * FFmpeg 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with FFmpeg; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "config.h" #include "mem.h" #include "thread.h" #include "executor.h" #if !HAVE_THREADS #define ExecutorThread char #define executor_thread_create(t, a, s, ar) 0 #define executor_thread_join(t, r) do {} while(0) #else #define ExecutorThread pthread_t #define executor_thread_create(t, a, s, ar) pthread_create(t, a, s, ar) #define executor_thread_join(t, r) pthread_join(t, r) #endif //!HAVE_THREADS typedef struct ThreadInfo { AVExecutor *e; ExecutorThread thread; } ThreadInfo; struct AVExecutor { AVTaskCallbacks cb; int thread_count; ThreadInfo *threads; uint8_t *local_contexts; AVMutex lock; AVCond cond; int die; AVTask *tasks; }; static AVTask* remove_task(AVTask **prev, AVTask *t) { *prev = t->next; t->next = NULL; return t; } static void add_task(AVTask **prev, AVTask *t) { t->next = *prev; *prev = t; } static int run_one_task(AVExecutor *e, void *lc) { AVTaskCallbacks *cb = &e->cb; AVTask **prev; for (prev = &e->tasks; *prev && !cb->ready(*prev, cb->user_data); prev = &(*prev)->next) /* nothing */; if (*prev) { AVTask *t = remove_task(prev, *prev); if (e->thread_count > 0) ff_mutex_unlock(&e->lock); cb->run(t, lc, cb->user_data); if (e->thread_count > 0) ff_mutex_lock(&e->lock); return 1; } return 0; } #if HAVE_THREADS static void *executor_worker_task(void *data) { ThreadInfo *ti = (ThreadInfo*)data; AVExecutor *e = ti->e; void *lc = e->local_contexts + (ti - e->threads) * e->cb.local_context_size; ff_mutex_lock(&e->lock); while (1) { if (e->die) break; if (!run_one_task(e, lc)) { //no task in one loop ff_cond_wait(&e->cond, &e->lock); } } ff_mutex_unlock(&e->lock); return NULL; } #endif static void executor_free(AVExecutor *e, const int has_lock, const int has_cond) { if (e->thread_count) { //signal die ff_mutex_lock(&e->lock); e->die = 1; ff_cond_broadcast(&e->cond); ff_mutex_unlock(&e->lock); for (int i = 0; i < e->thread_count; i++) executor_thread_join(e->threads[i].thread, NULL); } if (has_cond) ff_cond_destroy(&e->cond); if (has_lock) ff_mutex_destroy(&e->lock); av_free(e->threads); av_free(e->local_contexts); av_free(e); } AVExecutor* av_executor_alloc(const AVTaskCallbacks *cb, int thread_count) { AVExecutor *e; int has_lock = 0, has_cond = 0; if (!cb || !cb->user_data || !cb->ready || !cb->run || !cb->priority_higher) return NULL; e = av_mallocz(sizeof(*e)); if (!e) return NULL; e->cb = *cb; e->local_contexts = av_calloc(FFMAX(thread_count, 1), e->cb.local_context_size); if (!e->local_contexts) goto free_executor; e->threads = av_calloc(FFMAX(thread_count, 1), sizeof(*e->threads)); if (!e->threads) goto free_executor; if (!thread_count) return e; has_lock = !ff_mutex_init(&e->lock, NULL); has_cond = !ff_cond_init(&e->cond, NULL); if (!has_lock || !has_cond) goto free_executor; for (/* nothing */; e->thread_count < thread_count; e->thread_count++) { ThreadInfo *ti = e->threads + e->thread_count; ti->e = e; if (executor_thread_create(&ti->thread, NULL, executor_worker_task, ti)) goto free_executor; } return e; free_executor: executor_free(e, has_lock, has_cond); return NULL; } void av_executor_free(AVExecutor **executor) { int thread_count; if (!executor || !*executor) return; thread_count = (*executor)->thread_count; executor_free(*executor, thread_count, thread_count); *executor = NULL; } void av_executor_execute(AVExecutor *e, AVTask *t) { AVTaskCallbacks *cb = &e->cb; AVTask **prev; ff_mutex_lock(&e->lock); if (t) { for (prev = &e->tasks; *prev && cb->priority_higher(*prev, t); prev = &(*prev)->next) /* nothing */; add_task(prev, t); } ff_cond_signal(&e->cond); ff_mutex_unlock(&e->lock); if (!e->thread_count || !HAVE_THREADS) { // We are running in a single-threaded environment, so we must handle all tasks ourselves while (run_one_task(e, e->local_contexts)) /* nothing */; } }